Disrupted seasonal biology impacts health, food security and ecosystems

The rhythm of life on earth is shaped by seasonal changes in the environment. Plants and animals show profound annual cycles in physiology, health, morphology, behaviour and demography in response to environmental cues. Seasonal biology impacts ecosystems and agriculture, with consequences for humans and biodiversity. Human populations show robust annual rhythms in health and well-being, and the birth month can have lasting effects that persist throughout life. This review emphasizes the need for a better understanding of seasonal biology against the backdrop of its rapidly progressing disruption through climate change, human lifestyles and other anthropogenic impact. Climate change is modifying annual rhythms to which numerous organisms have adapted, with potential consequences for industries relating to health, ecosystems and food security. Disconcertingly, human lifestyles under artificial conditions of eternal summer provide the most extreme example for disconnect from natural seasons, making humans vulnerable to increased morbidity and mortality. In this review, we introduce scenarios of seasonal disruption, highlight key aspects of seasonal biology and summarize from biomedical, anthropological, veterinary, agricultural and environmental perspectives the recent evidence for seasonal desynchronization between environmental factors and internal rhythms. Because annual rhythms are pervasive across biological systems, they provide a common framework for trans-disciplinary research.

Generation of melatonin rhythms

In mammals, information about the environmental photoperiod is relayed from the retina to the suprachiasmatic nuclei (SCN) in the anterior hypothalamus and via the sympathetic nervous system to the pineal gland where it influences the secretion of melatonin. Light plays a dual role: to suppress the release of melatonin and to entrain the circadian rhythm generators in the SCN, which govern the endogenous melatonin rhythm. Under normal daily light-dark cycles melatonin secretion is confined to the dark period. In most photoperiodic species the daily pattern of secretion changes in response to changes in daylength, and this acts as a physiological time cue in the brain for the control of seasonal cycles in reproduction, moulting and other processes. To illustrate the underlying mechanisms that control the melatonin rhythm, results are presented from five experiments in which the blood plasma concentrations of melatonin were measured in Soay rams exposed to a variety of artificial changes in photoperiod including a switch from 16L:8D (16 h light:8 h dark) or 8L:16D to constant darkness, a switch from constant darkness to 1L:23D and a switch from 16L:8D to a 25 h or 23 h light-dark cycle. The results confirm that the melatonin rhythm is generated endogenously and will free-run under constant darkness with a period close to 24 h for at least 10 days. The rhythm can be entrained by exposure to IL:23D with the end of the light period acting as the 'melatonin-on' signal, and phase-shifts in the melatonin rhythm can be induced by phase-shifts in the light-dark cycle. The period for which melatonin concentrations are high each day (melatonin peak) also varies in duration under the different photoperiods, as a result of both the suppressive and the entraining effects of light. Two models explaining the control of melatonin peak duration are discussed.

Immediate-early genes and the neural bases of photic and non-photic entrainment

The expression of immediate-early genes (IEGs) within the mammalian suprachiasmatic nucleus (SCN) identifies individual light-responsive cells of the circadian system. Cells immunoreactive for products of IEGs form a neurochemically heterogeneous population, of which a few are VIP (vasoactive intestinal peptide)-immunoreactive or GRP (gastrin-releasing peptide)-immunoreactive, although the phenotypes of most of the others have yet to be determined. Dual-labelling experiments with anatomical tracers reveal that only a minority of efferent projection neurons of the SCN are immunoreactive for IEG products, and it is likely that the majority of the immunoreactive cells are interneurons or glia. Photic induction of IEGs is mediated via NMDA (N-methyl-D-aspartate) and non-NMDA glutamatergic receptors, the SCN expressing a topographically specific complement of subtypes of the NMDA receptor. Non-photic cues (arousal) can shift the clock but this is not associated with expression of IEGs, demonstrating that the proteins encoded by IEGs are probably involved in transducing photic cues, rather than shifting the clock per se. Their induction provides an anatomically explicit marker for circadian phase and photic sensitivity and so is useful in analyses of circadian function, for example, in the tau mutant hamster. Non-photic phase shifts are accompanied by adrenocortical activation, confirming the importance of arousal in shifting of the clock. The phase-shifting effect of arousal can be blocked by treatment with the serotonin receptor antagonist ketanserin, suggesting that ascending serotonergic input to the forebrain, possibly directly to the SCN, is an important mediator of entrainment by arousal.

Appositions between cocaine and amphetamine-related transcript- and gonadotropin releasing hormone-immunoreactive neurons in the hypothalamus of the Siberian hamster

Recent in vitro studies have provided evidence that cocaine and amphetamine-related transcript (CART) pathways in the hypothalamus mediate the effects of leptin upon gonadotropin releasing hormone (GnRH) secretion. The aim of the current study was to use dual label immunofluorescence to investigate the anatomical basis of such a pathway. CART-ir processes were found extensively in regions where GnRH cell bodies where located. Analysis using confocal microscopy showed that the majority of GnRH neurons (62%) had close appositions from CART-ir processes. The proportion of GnRH-ir perikarya with CART-ir appositions was significantly higher (P<0.05) in neurons located in the diagonal band of Broca (70%) compared to those more caudally located in the preoptic area (53%). This anatomical evidence for close appositions between CART-ir processes and GnRH cell bodies supports the hypothesis that one mechanism by which leptin causes its effect on the GnRH pulse generator is indirectly via CART neurons, thus allowing information about nutritional status and body fat stores to be conveyed to the reproductive system.

The neurobiology of reproductive development

This brief review has highlighted some of the major advances in the last decade or so in understanding the central control of puberty. These include the discovery that GnRH-I neurons develop in the olfactory placode and migrate into the forebrain, the recognition that puberty is a reactivation of GnRH secretion, the identification of leptin as a metabolic signal which may permit puberty to occur, unraveling the molecular basis of the circadian clock which underlies photoperiodic control of puberty in seasonal species, the identification of the structure of pheromones in urine, and the discovery of other populations of GnRH neurons in mammals expressing the GnRH-II gene. Such advances generate further questions: what regulates the migratory pathways of GnRH neurons, and what controls axon outgrowth and targeting to the median eminence? What is the mechanism which causes GnRH secretion to decline between the neonatal and pubertal phase of development? How do leptin and other sensory inputs finally communicate to the GnRH neuron? How do GnRH neurons communicate with each other such that co-ordinated pulsatile release of GnRH occurs? What is the function of GnRH-II? Some of these issues may be better addressed using the transgenic technologies which allow the identification and thus the recording, sampling and observation of GnRH neurons in living tissue, but in order to understand how internal and external cues influence puberty it will also be important to study a variety of other mammalian models in which the relative importance of such inputs differs.

Leptin acts on metabolism in a photoperiod-dependent manner, but has no effect on reproductive function in the seasonally breeding Siberian hamster (Phodopus sungorus)

Leptin may play a role in appetite regulation and metabolism, but its reproductive role is less clear. In photoperiodic Siberian hamsters, seasonal changes in fatness, leptin gene expression, and metabolism occur synchronously with activation or suppression of reproduction, analogous to puberty. Here, we test the hypothesis that seasonal changes in leptin secretion mediate the photoperiodic regulation of reproduction. Mature male and ovariectomized estrogen-treated female Siberian hamsters were kept in long (LD; 16 h of light, 8 h of darkness) or short days (SD; 8 h of light, 16 h of darkness) for 8 weeks, and recombinant murine leptin (15 microg/day) was infused for 2 weeks via osmotic minipumps. SD hamsters exhibited significant weight and fat losses, reduced serum leptin and food intake, and suppressed pituitary LH concentration. Leptin did not suppress food intake over the 2-week treatment on either photoperiod, but significantly reduced fat reserves in SD hamsters. Leptin had no significant effect on pituitary LH concentrations in either sex or photoperiod or on testicular size and testosterone concentrations in males. These results suggest hamsters are more responsive to leptin on SD than on LD and that effects on food intake and fat loss can be dissociated in this species. Our data suggest that leptin does not mediate photoperiodic reproductive changes.

Glutamatergic regulation of gonadotropin releasing hormone mRNA levels during development in the mouse

The aims of these studies were to investigate the time course of the increase in gonadotropin releasing hormone (GnRH) mRNA levels during sexual development in the mouse, and to test the hypothesis that the neurotransmitter glutamate regulates the GnRH secretory system via actions at the level of GnRH gene expression. GnRH mRNA abundance was estimated by measuring silver grains generated by in situ hybridization of an 35S-labelled oligonucleotide probe. There was a significant increase in GnRH mRNA abundance between the day of birth (P0) and postnatal day 2 (P2) in male mice, but no further increases at later ages when overt pubertal changes are manifest. GnRH mRNA levels also increased significantly between P0 and P2 in female mice. Treatment with the glutamate agonist NMDA caused a significant increase in GnRH mRNA levels in neonatal (P0) mice and adult male mice within 30 min of treatment, which is consistent with previous studies in the rat implicating glutamate in the regulation of GnRH mRNA stability. Treatment with the glutamate antagonist CGP40116 caused an equally rapid decrease in GnRH mRNA levels in adult mice and in mice on P5 after the neonatal increase in GnRH gene expression, but was without effect in mice on P0, prior to the developmental increase. These observations that the effect on GnRH mRNA levels of blocking endogenous glutamatergic signalling depends upon the developmental stage suggest that endogenous glutamate maintains GnRH mRNA levels in adult mouse, and is a potential regulator of the developmental increase seen in the neonatal period.

The circadian cycle of mPER clock gene products in the suprachiasmatic nucleus of the siberian hamster encodes both daily and seasonal time

The circadian clock in the hypothalamic suprachiasmatic nuclei (SCN) regulates the pattern of melatonin secretion from the pineal gland such that the duration of release reflects the length of the night. This seasonally specific endocrine cue mediates annual timing in photoperiodic mammals. The aim of this study was to investigate how changes in photoperiod influence the cyclic expression of recently identified clock gene products (mPER and mTIM) in the SCN of a highly seasonal mammal, the Siberian hamster (Phodopus sungorus). Immunocytochemical studies indicate that the abundance of both mPER1 and mPER2 (but not mTIM) in the SCN exhibits very pronounced, synchronous daily cycles, peaking approximately 12 h after lights-on. These rhythms are circadian in nature as they continue approximately under free-running conditions. Their circadian waveform is modulated by photoperiod such that the phase of peak mPER expression is prolonged under long photoperiods. mPER1 protein is also expressed in the pars tuberalis of Siberian hamsters. In hamsters adapted to long days, the expression of mPER1 is elevated at the start of the light phase. In contrast, there is no clear elevation in mPER1 levels in the pars tuberalis of hamsters held on short photoperiods. These results indicate that core elements of the circadian clockwork are sensitive to seasonal time, and that encoding and decoding of seasonal information may be mediated by the actions of these transcriptional modulators.

Estrogenic induction of spermatogenesis in the hypogonadal mouse

Abnormal sperm production and reduced fertility have been reported in transgenic male mice lacking the alpha-subtype of the estrogen receptor (ER)alpha or aromatase. The aim of this study was to investigate the role of estrogen in male reproductive function, by determining the effect of estradiol on testicular function in hypogonadal (hpg) mice congenitally lacking gonadotropin; and thus, sex steroid production. hpg mice were treated, at 2-3 months of age, with slow-release estradiol implants, which achieved circulating estradiol concentrations of approximately 40 pg/ml. Treatment for 35 days reliably induced a 4- to 6-fold increase in testicular weight, compared with the vestigial testes in the untreated or cholesterol-treated controls. The degree of testicular growth after 35 days was similar to that in hpg mice receiving an intrahypothalamic graft of preoptic area tissue taken from neonatal mice on the day of birth, a procedure known to induce testicular development in hpg mice by activation of the pituitary gland. Histological analysis revealed that the testes contained elongated spermatids after 35 days of estradiol treatment, whereas germ cell development never progressed beyond the pachytene stage in control hpg mice. Treatment for 70 days induced full qualitatively normal spermatogenesis in hpg mice. Testis weight increased 5-fold, reflecting a 5-fold increase in total seminiferous tubule volume and a 4- to 5-fold increase in the total volume of the seminiferous epithelium. In all experiments, spermatogenesis proceeded in the absence of measurable androgen concentrations, but circulating FSH concentrations were slightly (but significantly) elevated, relative to cholesterol-treated control hpg mice. This stimulatory action of estradiol on FSH secretion was unexpected, particularly because identical estradiol treatments significantly decreased serum FSH levels in wild-type littermates. These results indicate that estrogens may play a role in spermatogenesis, via stimulatory effects on FSH secretion. An alternative or complementary explanation, given the recent identification of estrogen receptors (ERalpha and ERbeta) and aromatase within various cell types in the testis, is that estrogens exert paracrine actions within the testis to promote spermatogenesis. The identification of effects of estradiol on testicular function provides a conceptual basis to reexamine the speculative link between increased exposure to environmental estrogens and reduced fertility in man.

Seasonal regulation of food intake and body weight in the male Siberian hamster: studies of hypothalamic orexin (hypocretin), neuropeptide Y (NPY) and pro-opiomelanocortin (POMC)

The aim of these experiments was to investigate the relationship between hypothalamic expression of orexin (also called hypocretin), neuropeptide Y (NPY) and pro-opiomelanocortin (POMC) mRNA and seasonal cycles of body weight and food intake in the Siberian hamster. Adult males were transferred from long days of 16 h light and 8 h dark to short days of 8 h light and 16 h dark, a procedure known to induce major reductions in food intake and body weight in this species. After 8 weeks of exposure to short days, while body weight was declining, hypothalamic NPY mRNA levels as assessed by in situ hybridization were slightly lower (P < 0.05) than in age-matched controls exposed to long days. After 12 weeks with short days, when body weight would be expected to have reached its seasonal nadir, POMC mRNA levels were lower (P < 0.05) than in hamsters under long days. At no stage did orexin mRNA levels in hamsters under short days differ significantly from levels in those under long days. To investigate further the role of these peptide systems in seasonal changes in body weight and food intake, two provocative tests were carried out. Firstly, a 48-h fast induced a significant increase (P < 0.025) in hypothalamic NPY mRNA levels in both long- and short-day conditions, but did not change hypothalamic POMC or orexin mRNA levels. Secondly, systemic (intraperitoneal) treatment with recombinant murine leptin (5 mg/kg body weight) significantly decreased (P < 0.01) food intake over a 6-h post-treatment period in both long- and short-day conditions. However, this acute leptin treatment did not induce significant changes in hypothalamic orexin, NPY or POMC mRNA abundance. The increase in NPY expression in both long- and short-day conditions following food restriction and the suppression of food intake by leptin in both conditions suggests that acute homeostatic mechanisms operate in both long-day (obese) and short-day (nonobese) conditions. The lack of major changes in orexin, NPY and POMC in such different metabolic states suggest that other central systems must play a greater role in generating these states. Such findings are consistent with the 'sliding set-point' hypothesis, that is, seasonal cycles in food intake and fat metabolism are brought about by as yet unknown central mechanisms that chronically alter the level ('set point') around which homeostasis occurs, rather than resulting from changes in the potency of the acute feedback mechanisms themselves.

Anatomical and functional characterisation of a dopaminergic system in the suprachiasmatic nucleus of the neonatal Siberian hamster

In altricial rodents, maternal influences entrain the developing circadian system in the perinatal period before the capacity to respond directly to photic cues develops. The aim of these studies was to investigate the potential role of dopamine in this process in the Siberian hamster. An initial study investigated the ontogeny of retinal innervation of the suprachiasmatic nuclei (SCN) by using cholera toxin B subunit as a tracer. This revealed that retinal fibres first innervate the SCN on postnatal day 3 (PD3), and ingrowth of fibres is extensive by PD6. In situ hybridisation studies revealed the presence of D1-dopamine receptor (D1-R) mRNA in the SCN on PD2, and levels of expression were similar in PD6 pups and adult hamsters. Immunocytochemical staining for tyrosine hydroxylase revealed abundant catecholaminergic fibres within the ventromedial zone of the SCN from the day of birth through PD20; however, in contrast, few fibres were present in adult SCN. Dopamine-beta-hydroxylase-immunoreactive fibres were absent from the neonatal and adult SCN, suggesting that the fibres in the SCN are dopaminergic. The function of this dopaminergic system was investigated by determining the effects of D1-R agonists on the expression of the immediate-early gene c-fos in the SCN. This was assessed in pups ages PD1- PD5 by in situ hybridisation and immunocytochemical localisation of its protein product. No induction was seen in the SCN, in marked contrast to studies in the developing rat. A final series of studies investigated dopaminergic function by determining whether a D1-agonist could induce phosphorylation of Ca2+/cyclic AMP response element-binding protein (CREB) on Ser133. Hypothalamic slices containing SCN taken from PD1 and PD2 hamsters were treated with D1-R agonists, and levels of phosphorylated CREB were assayed by Western blots. Phosphorylation of CREB was stimulated by D1-R agonists in both Syrian and Siberian hamster hypothalamus, but the response was far greater in Syrian hamster tissue (+138%+/-28%) than in Siberian hamster tissue (+43%+/-11%). Although the anatomical studies demonstrate the existence of a dopaminergic system in the SCN of the early postnatal Siberian hamster, the unresponsiveness of c-fos expression and the relative lack of phosphorylation of CREB after D1-R activation suggests a diminished role for dopamine in the regulation of circadian events during the postnatal period in this species.

Resistance of gonadotropin-releasing hormone neurons to glutamatergic neurotoxicity

Although many studies provide evidence that glutamatergic pathways regulate the secretion of gonadotropin-releasing hormone (GnRH) from the hypothalamus, it is controversial as to whether they act directly upon GnRH neurons. The aim of the current study was to determine whether GnRH neurons are susceptible to the neurotoxic actions of specific glutamate agonists (N-methyl-D-aspartate [NMDA] and kainic acid), the rationale being that neurotoxic loss of GnRH neurons would provide evidence that the perikarya possess specific classes of glutamate receptor. Unilateral 1-microl injections of NMDA (12-120 mM), kainic acid (0.5-2.5 mM), or vehicle were stereotaxically directed at the preoptic area (mPOA)/diagonal band of Broca (dbB) in the region of the organum vasculosum of the lamina terminalis (OVLT) of male adult hamsters (Phodopus sungorus). The number and appearance of GnRH neurons were determined by immunocytochemistry 3-8 days later. The morphology of GnRH neurons in the vicinity of the injection sites appeared normal after both kainic acid and NMDA treatment, and there was no significant decrease in the numbers of GnRH perikarya identified following these treatments. Both agonists caused massive cellular loss when injected directly into cortical areas and striatum. In the experimental studies, there was little neuronal loss within the mPOA or dbB after either toxin, despite clear neuronal loss in areas adjacent to the injection sites, including ventral striatum and olfactory cortex. In follow-up studies, immunocytochemical and in situ hybridisation analysis of the NMDAR1 and NMDAR2 glutamate receptor subunits confirmed their widespread distribution in regions containing GnRH perikarya, but no colocalization within GnRH neurons was observed. The susceptibility of neural areas to NMDA neurotoxicity did not correlate with any difference in the regional expression of these glutamate receptor subunits. The resistance of GnRH neurons to the neurotoxic actions of two different glutamate agonists and the failure to detect colocalisation of NMDAR1 or NMDAR2 subunits within GnRH perikarya are consistent with the notion that the effects of glutamate upon GnRH secretion are not exerted directly upon GnRH cell bodies.

Investigation into the regulation of the circadian system by dopamine and melatonin in the adult Siberian hamster (Phodopus sungorus)

Dopamine and melatonin have both been implicated in mediating maternal influences on the developing circadian system of altricial rodents. The aim of these studies was to investigate their role in the entrainment of the circadian system of the adult Siberian hamster (Phodopus sungorus). In-situ hybridization revealed that D1-dopamine receptor (D1-R) mRNA was expressed in the adult suprachiasmatic nucleus (SCN) at levels comparable to neonates. As dopamine has been postulated to mimic photic stimulation during early development, experiment 1 compared the effects of a D1-R agonist and a light pulse on free-running wheel running rhythms in hamsters maintained in constant dim red light. A phase response curve to light was generated, revealing clear phase delays early in the subjective night, and large phase advances in the late subjective night. However, the D1-R agonist (SKF 81297, 2 mg/kg, s.c.) did not produce consistent phase shifts at any circadian phase. Experiment 2 tested the ability of this dopaminergic agonist to modulate photic responses of the circadian system. Free-running animals were pre-treated with SKF 81297 (2 mg/kg, s.c.) 30 min before a 15 min light pulse given early or late in the subjective night. This agonist had no effect on the magnitude of phase shifts at either circadian time. In experiment 3, light pulses at CT13-15 induced expression of the immediate early gene c-fos in the SCN, as assessed by immunocytochemistry for the protein product. In contrast, SKF 81297 (2 mg/kg, s.c.) at the same phase did not induce c-fos in the SCN, despite marked c-fos induction in the caudate-putamen, nor did it affect photic induction of c-fos in the SCN. To investigate whether dopamine might be involved in nonphotic regulation of the circadian system in adult hamsters, experiment 4 compared the response of free-running hamsters to a series of injections of SKF 81297 (2 mg/kg, s.c.) or melatonin (1 mg/kg, s.c.), since melatonin receptor expression in the SCN also persists into adulthood. Animals were treated every 23.5 h for 6 days. The serial injections of melatonin produced cumulative phase advances of up to 3 h when delivered in late subjective day, but not when presented in late subjective night. Hamsters did not respond to SKF 81297 or vehicle treatment at either circadian phase. Moreover, pre-treatment with the dopaminergic agonist did not affect the phase-advancing effects of melatonin when both were given in the serial injection protocol. These results demonstrate clear phase-dependent effects of light pulses and melatonin on circadian rhythms in Siberian hamsters, but suggest that D1-Rs in the SCN no longer modulate photic or melatonin-dependent entrainment pathways in the adult.

Entrainment of the circadian system of mammals by nonphotic cues

Although light is the principal zeitgeber to the mammalian circadian system, other cues can be shown to have a potent resetting effect on the clock of both adult and perinatal mammals. Nonphotic entrainment may have both biological and therapeutic significance. This review focuses on the effect of behavioral arousal as a nonphotic cue and the neurochemical circuitry that mediates arousal-induced entrainment in the adult rodent. In addition, it considers the role of nonphotic entrainment of the developing circadian system in perinatal life prior to the establishment of retinal input to the clock.

Seasonal neuroendocrine rhythms in the male Siberian hamster persist after monosodium glutamate-induced lesions of the arcuate nucleus in the neonatal period

The aim of these experiments was to examine the role of the arcuate nucleus in the control of seasonal cycles of body weight, feed intake, moulting and reproduction in the Siberian hamster. The arcuate nucleus has previously been implicated as a central site where systemic feedback signals (e.g. leptin) might act to regulate feed intake and body weight, so it was predicted that hamsters with lesions of this structure would be unable to display the inhibitory effects of short days on these parameters. In the first series of studies, lesions that destroyed approximately 80% of the cells in the arcuate nucleus were produced by treating hamsters neonatally with monosodium glutamate (MSG; 4 mg/g body weight sc), and vehicle- and MSG-treated males were raised from birth in long days (LD) or short days (SD). In hamsters raised in LD, the initial gain in body weight and testicular growth were significantly reduced by MSG treatment, however, growth rate and testis weight were still significantly greater than in vehicle- or MSG-treated hamsters raised in SD. In the second study, hamsters treated neonatally with vehicle or MSG were raised in LD for 8 weeks and, subsequently, approximately half in each group were transferred to SD for 18 weeks. As expected, vehicle-treated hamsters showed a characteristic decline in body weight when exposed to SD, while those remaining in LD continued to increase body weight. Feed intake decreased in parallel with the decline in body weight in SD, a complete moult to the white winter pelage occurred by 16 weeks in SD, and testicular regression occurred. Responses to SD also occurred in the MSG-treated hamsters: body weight decreased in SD but increased in their lesioned litter mates remaining in LD, and feed intake paralleled body weight changes in these groups. The moult to winter pelage was significantly retarded in MSG-treated hamsters transferred to SD. The testes were completely regressed in sham- and MSG-treated hamsters exposed to SD, whereas testes weights in MSG-treated hamsters maintained in LD were intermediate between those in vehicle-treated hamsters in SD and LD. Thus, despite initial effects on growth, the MSG-treated hamsters bearing substantial lesions of the arcuate nucleus were able to show appropriate responses to photoperiod, although not always of the same magnitude as the unlesioned controls. We conclude that feedback mechanisms operating via the arcuate nucleus are not the major regulators of seasonal cycles of body weight, feed intake, pelage and reproduction.

Maternal entrainment of the developing circadian system in the Siberian hamster (Phodopus sungorus)

The aim of these studies was to investigate maternal entrainment of developing circadian locomotor activity rhythms in the Siberian hamster. In Experiment 1, mothers were transferred from a 16:8 LD cycle into constant dim red light (DD) from the day of parturition, and wheel-running activity of the mother and pups was individually monitored from the time of weaning. The phases of the individual pups' rhythms were found to be synchronized both to the phase of the mother and to the phase of lights off (ZT 12) of the photo cycle that the mother was exposed to until the day of parturition. To investigate whether this synchrony might reflect direct effects of light acting upon the fetal circadian system in late gestation, the experiment was repeated but with mothers placed into DD early in pregnancy (< or = day 7 of gestation). The results were similar to the first study, suggesting that the mother rather than the photo cycle during the latter part of gestation entrains the developing circadian system. The third experiment investigated whether this entrainment occurred during the postnatal period. Breeding pairs were maintained on alternative light-dark cycles, LD and DL, that were 12 h out of phase. Litters born to mothers on one light-dark cycle were exchanged on the day of birth with foster mothers from the reversed light-dark cycle, then raised in DD. Control litters exchanged between mothers from the same light-dark cycle had similar litter synchrony as shown by nonfostered litters of Experiment 1. However, pups cross-fostered with mothers on reversed LD cycles showed a very different distribution of pup phases. Pups were not synchronized to their natural mother but to their foster mother. Moreover, pups were more scattered over the 24-h period and were found to be significantly synchronized to the phase of the reversed LD cycle. These results demonstrate the occurrence of postnatal entrainment in the Siberian hamster. The increased scatter produced by the cross-fostering paradigm results from some litters being completely entrained to the phase of the foster mother, some with an intermediate distribution between the phase of the natural and foster mothers, and a minority being associated with the phase of the natural mother. These results suggest that Siberian hamster pups are initially synchronized either prenatally or at birth but that the mother continues to provide entrainment signals during the postnatal period.

Manipulations of glutamatergic (N-methyl-D-aspartate receptor) neurotransmission alter the rate of photoperiodically regulated sexual maturation in the male Siberian hamster

This study investigated whether central glutamatergic pathways are involved in sexual maturation in the Siberian hamster, a species in which puberty is regulated by photoperiod. The aim of the initial experiments was to determine whether exogenous activation of N-methyl-D-aspartate (NMDA) receptor-mediated glutamatergic pathways could induce premature testicular development in photoinhibited hamsters. Male hamsters raised in an inhibitory short-day photoperiod (8L:16D) received systemic injections of the glutamate agonist NMDA. Twice-daily treatment with 20 or 40 mg/kg BW caused significant increases in testicular weight within 4 wk, but this was not accompanied by a significant increase in circulating testosterone. Subsequent experiments revealed that the degree of testicular development induced by NMDA was comparable to that induced by daily treatment with GnRH (1 microg). This study demonstrates the potential for increased glutamatergic activity to induce testicular development. The aim of the second series of experiments was to determine whether blockade of endogenous NMDA receptor-mediated glutamatergic pathways could prevent testicular development in photostimulated hamsters. Males were transferred from short (SD) to long days (LD; 16L:8D) at 80-100 days of age to induce rapid testicular growth and were concurrently treated with MK801, a noncompetitive NMDA receptor antagonist (2 mg/kg BW per day), or CGP40116, a competitive NMDA receptor antagonist (5 or 10 mg/kg BW per day) for 4 wk. LD photoperiod caused a rapid increase in testicular weight in vehicle-treated hamsters within 4 wk. Both antagonists significantly reduced the LD-stimulated testicular growth. MK801 treatment induced a degree of sedation and a loss of body weight, suggesting that the reduced testicular development in this group may have been secondary to decreased growth rates; but no behavioral changes or loss of body weight was observed in the hamsters treated with CGP40116. These observations in a photoperiodic species provide support for the hypothesis that activation of NMDA receptor-mediated glutamatergic pathways contributes to sexual maturation.

Non-photic signalling in the suprachiasmatic nucleus

Scheduled arousal by handling and sub-cutaneous saline injection entrains the free-running clock of the adult Syrian hamster and outbred (ID(ICR)) but not inbred (C57B16) mice. Syrian hamsters bearing lesions of the intergeniculate leaflet of the thalamus remain able to entrain and phase-shift to light, but the lesions block completely entrainment by serial arousal, even though lesioned animals continue to respond acutely to the arousing cue. This suggests that the innervation from the IGL to the SCN is a necessary component of the pathways which signal an aroused state to the clock. Siberian hamsters do not entrain to serial arousal but they do entrain to serial injections of melatonin, whereas in adult Syrian hamster, systemic treatment with melatonin has no effect above that of arousal. In contrast to the adult, the foetal and neonatal Syrian hamster can be entrained by melatonin. These variations in sensitivity correlate with inter-specific and developmental differences in the pattern and level of expression of melatonin receptors in the SCN. The perinatal hamster can also be entrained by dopaminergic agonists. SCN tissue from neonatal Syrian hamsters was used to characterise the biochemical actions of dopamine and melatonin. In primary culture and tissue explants, forskolin, dopamine and glutamatergic agonists all stimulated the phosphorylation of the transcription factor CREB. This probably occurred via convergent actions through Ca2+ (glutamate) and cyclic AMP-dependent (forskolin, dopamine) signalling pathways. Dopamine induced phospho-CREB-ir exclusively in GABA-ir neurons and melatonin reversed this effect of dopamine, indicative of an inhibitory Gi protein linking via the Mel1a receptor to adenylyl cyclase. The regulation of phospho-CREB by multiple entraining cues in the SCN highlights its position as a point of convergence for regulators of the clock, and indicates a possible role in entrainment.

The role of glutamate in the photic regulation of the suprachiasmatic nucleus

Endogenous circadian rhythms govern most aspects of physiology and behaviour in mammals, including body temperature, autonomic and endocrine function, and sleep-wake cycles. Such rhythms are generated by the suprachiasmatic nucleus of the hypothalamus (SCN), but are synchronised to the environmental light-dark cycle by photic cues perceived by the retina and conveyed to the SCN via the retinohypothalamic tract (RHT). This review considers many lines of evidence from diverse experimental approaches indicating that the RHT employs glutamate (or a related excitatory amino acid) as a neurotransmitter. Ultrastructural studies demonstrate the presence of glutamate in presynaptic terminals within the SCN. In situ hybridisation and immunocytochemical studies reveal the presence of several NMDA (NMDAR1, NMDAR2C), non-NMDA (GluR1, GluR2, GluR4) and metabotropic (mGluR1) glutamate receptor subunits in the SCN. Messenger RNA encoding a glutamate transporter protein is also present. In behavioural tests, glutamate antagonists can block the effects of light in phase-shifting circadian rhythms. Such treatments also block the induction of c-fos within SCN cells by light, whereas a glutamate agonist (NMDA) induces c-fos expression. In hypothalamic slice preparations in vitro, electrical stimulation of the optic nerves induces release of glutamate and aspartate, and glutamate antagonists block field potentials in the SCN evoked by stimulation of the optic nerve. Circadian rhythms of electrical activity which persist in vitro are phase shifted by application of glutamate in a manner which mimics the phase shifting effects of light in vivo. This wide range of experimental findings provides strong support for the hypothesis that glutamate is the principal neurotransmitter within the RHT, and thus conveys photic cues to the circadian timing system in the SCN.

Serotonergic antagonists impair arousal-induced phase shifts of the circadian system of the syrian hamster

Single episodes of arousal of Syrian hamsters 2 h before projected activity onset (i.e., CT 10) phase-advanced their free-running circadian rhythm of wheel-running. Serial arousal once every 23 h or once every 23.5 h for 7 days caused large composite phase-advances to the wheel-running rhythm, the latter period being more effective in supporting an interval of stable entrainment. Pre-treatment of hamsters at CT 6 with the serotonergic antagonist ritanserin (1-5 mg/kg, which acts at both 5-HT2 and the putative 5-HT7 receptor, impaired the phase-advancing response to arousal at CT 10 but the drug was without effect on phase advances induced by exposure to light. Pre-treatment with a second serotonergic antagonist, ketanserin (1-5 mg/kg), which is without effect at 5-HT7 but has high affinity for 5-HT2 receptors, was also effective in attenuating the phase advancing effect of arousal at CT 10. However, neither agent was able to achieve complete blockade of the phase advances. These results are discussed in relation to in vitro and in vivo studies in the rat which have identified a role for 5-HT7 receptors in serotonin-mediated circadian entrainment.

FosB in the suprachiasmatic nucleus of the Syrian and Siberian hamster

The suprachiasmatic nucleus (SCN) generates circadian rhythms of behavior and hormone secretion in mammals, and integrates responses to light and nonphotic stimuli to synchronize such rhythms with the external environment. Previous studies have demonstrated a close association between the induction of the immediate early gene (IEG) c-fos in the SCN by light and phase shifts of circadian rhythms induced by light, but nonphotic stimuli (e.g., arousal), which also cause phase shifts, do not increase c-fos expression in the SCN. Because c-fos is now known to be a member of a large family of IEGs which can regulate transcription and thus cellular function, the aim of the current study was to determine whether induction of another member of this immediate early gene family, fosB, is associated with photic and nonphotic phase shifts. An antiserum that recognizes a unique peptide sequence derived from FosB was produced so that the expression of fosB could be investigated in cells within the SCN by immunocytochemical detection of its protein product. The regional distribution of FosB-immunoreactive (ir) cells in the SCN of Syrian and Siberian hamsters was broadly similar to that for c-Fos-ir cells. However, whereas c-fos expression in the SCN was constitutively low, but could be massively induced by light at particular circadian phases, FosB-ir cells were present at all circadian phases studied, irrespective of photic stimulation, and light only produced marginal increases in the number of FosB-ir cells compared with nonstimulated controls. Moreover, blockade of glutamatergic neurotransmission by pretreatment of hamsters with the NMDA receptor antagonist MK801 significantly reduced photic induction of c-Fos-ir cells, but did not influence the number of FosB-ir cells in the SCN. Finally, an arousing nonphotic stimulus known to cause phase advances in wheel-running behavior in Syrian hamsters did not alter significantly the number of FosB-ir cells in the SCN. These observations indicate that light and nonphotic stimuli are not potent regulators of fosB expression in the SCN. However, because fosB and c-fos can be present in the SCN at the same time after a light pulse, these studies indicate the potential for interactions with each other and with members of the Jun family in the regulation of the circadian timing system.

Gating of retinal inputs through the suprachiasmatic nucleus: role of excitatory neurotransmission

The mammalian circadian clock, located in the hypothalamic suprachiasmatic nucleus (SCN) is important in the regulation of many circadian rhythms, including regulation of pineal gland metabolism and melatonin secretion. Transsection of the optic nerves, disrupting the retinohypothalamic pathway, lesion of the SCN, or lesion of the hypothalamic paraventricular nucleus (PVN) abolish the regulation of pineal serotonin N-acetyltransferase activity by light. Therefore, the pathways linking the retina and the pineal gland must be channelled from the retina through the SCN and the PVN. Many lines of evidence indicate that the major neurotransmitter in the retinal afferents is glutamate. The first aim was therefore to study the retinal target neurons by localising glutamate receptors in the rodent SCN. Using in situ hybridisation, we detected NMDA-R1 and NMDA-R2C mRNA subunits in the SCN. Using immunocytochemistry, immunoreactivity for the AMPA type receptors GluR1, GluR2,3 and GluR4 was also detected in the SCN. Presentation of a short light pulse during the subjective night [i.e. circadian time (CT) 14 or 19], when light induced phase-shifting of activity-rest cycles can be accomplished, also induces expression of the immediate early-genes c-fos and junB in the rodent SCN. The second aim was to use this cellular correlate of behavioural function to determine the location of potential retinal target neurons in the SCN, and to investigate the hypothesis that glutamatergic neurotransmission mediates the effects of light on the circadian system. Thus, the ability of the NMDA receptor antagonist MK-801 to block light-induced c-fos expression in the SCN was studied. In the rat, this antagonist blocked c-fos mRNA expression in a subpopulation of cells in the ventral SCN at doses of 6, but not 2 mg/kg. In contrast, in the hamster both doses blocked light-induced c-fos expression in the ventral SCN. These data provide support for the hypothesis that glutamate mediates effects of light in the SCN, although it appers that the complexes of NMDA receptor subunits, which are involved in light-induced expression of c-fos after light, are relatively insensitive to MK-801. The diversity, heterogeneous distribution, and complexity of glutamate receptor subunits in the SCN suggest that processing of light pulses in the SCN is mediated by several cell types in the SCN. Via an integration process in the clock, the transmission of photic information takes place to other brain structures.

Effects of N-methyl-D-aspartate (NMDA) on seasonal cycles of reproduction, body weight and pelage colour in the male Siberian hamster

Siberian hamsters (Phodopus sungorus) transferred from stimulatory photoperiods (long days: LD) to inhibitory photoperiods (short days: SD) undergo testicular regression within 8 weeks. This reproductive response to photoperiod was blocked by systemic daily treatment with the glutamatergic agonist N-methyl-D-aspartate (NMDA: 20 mg/kg BW, sc). This powerful effect of NMDA demonstrates the potential for endogenous glutamate to regulate reproductive function. The overall aim of the subsequent studies was to investigate the site and mechanism of action of this glutamatergic agonist in order to identify potential mechanisms through which endogenous glutamate might act. To investigate whether the effect of systemic NMDA was via an effect on the circadian timing system, alterations in gonadal regression and recrudescence, seasonal coat changes (pelage) and body weight (BW) were examined. It would be predicted that long-term cycles of all these seasonal parameters would be affected if the action of NMDA were to perturb the transduction of photoperiodic information. Daily treatments with NMDA, which initially maintained reproductive function in hamsters exposed to SD, did not influence the time course of subsequent testicular recrudescence, nor did they influence long-term cycles of pelage and BW. Moreover, treatment with NMDA induced a dose-dependent increase in serum concentrations of LH within 15 min of systemic injection. These data are consistent with the hypothesis that systemic NMDA exerts it reproductive effects not via an action on the circadian system, but via an action on secretion of GnRH. To investigate potential central sites of action of glutamate, induction of the immediate early gene c-fos, an acute marker of cellular response, was evaluated immunocytochemically (ICC) in brain areas after treatment with NMDA. Although dual-label ICC studies revealed that NMDA did not induce c-fos within GnRH neurons, NMDA did induce c-fos in many cells in the region of the organum vasculosum of the lamina terminalis (OVLT), an area containing a large number of GnRH perikarya, and in the arcuate nucleus, a region close to GnRH secretory terminals in the median eminence. The lack of c-fos induction of GnRH cells argues against a direct effect of NMDA on GnRH neurons. Thus, we examined immunocytochemically the distribution of the common NMDAR1 glutamate receptor subunit to evaluate further the potential sites of glutamatergic action. As expected, NMDAR1-ir was widespread in perikarya throughout the brain, including the region of the OVLT and the arcuate nucleus.(ABSTRACT TRUNCATED AT 400 WORDS)

Ontogeny of a photic response in the suprachiasmatic nucleus in the Siberian hamster (Phodopus sungorus)

The ontogeny of photic responsiveness in the suprachiasmatic nucleus of the Siberian hamster (Phodopus sungorus) was studied using the enhanced expression of the immediate early gene c-fos as a marker of neuronal activation. c-fos expression was assessed by immunocytochemical localization of its protein product. Hamsters were kept on a 16 h light:8 h dark photocycle. The adult Siberian hamster showed a marked increase in the number of c-fos-immunoreactive (c-fos-ir) cells within the suprachiasmatic nuclei (SCN) in response to a 1 h light pulse delivered 1-3 h after lights off, in comparison to controls kept in the dark. This is consistent with previous studies in the Syrian hamster and rat. The development of the photic response was examined. The first study investigated the effects of a light pulse on c-fos induction in pups at 5, 9, 12 and 24 postnatal days of age (PD). The suprachiasmatic region was identified by immunocytochemical localization of peptide-histidine-isoleucine in adjacent sections, a peptide expressed early in the development of the rodent SCN. The distribution of c-fos-ir cells was also compared with the location of retinal efferents, as determined by intraocular injection of the tract tracer cholera toxin B subunit 24 h previously. At PD 9, 12 and 24, significant increases in the number of c-fos-ir cells occurred in the light pulsed animals in comparison to age-matched control animals which were moved within the non-illuminated room to provide a 'dark' pulse.(ABSTRACT TRUNCATED AT 250 WORDS)

Regional distribution of iodomelatonin binding sites within the suprachiasmatic nucleus of the Syrian hamster and the Siberian hamster

The pineal hormone melatonin is a potent regulator of seasonal and circadian rhythms in vertebrates. In order to characterize potential target tissues of melatonin, the distribution of iodomelatonin (IMEL)-binding sites was examined within neurochemically and anatomically defined subdivisions of the suprachiasmatic nucleus (SCN), a structure necessary for seasonal and circadian rhythms in mammals. Studies were carried out in both the adult Syrian (Mesocricetus auratus) and Siberian (Phodopus sungorus) hamster. The retinoreceptive zone of the SCN was identified anatomically by immunocytochemical (ICC) visualization of cholera toxin B subunit tracer (ChTB-ir) following its intra-ocular injection. Photically-responsive SCN cells were identified by immunostaining for the protein product of the immediate-early gene c-fos (Fos-ir) following exposure of the animal to light. The non-photoresponsive zone of the SCN was identified using in situ hybridization (ISH) for arginine vasopressin (AVP) mRNA, whilst sites of IMEL-binding in the SCN were identified by in vitro film autoradiography using the specific ligand 2-[125I]-iodomelatonin. To compare directly the distribution of IMEL-binding sites and one of the functional zones of the nucleus, alternate serial coronal sections through the SCN were processed for autoradiography for IMEL and one of the following: ICC for ChTB-ir or Fos-ir, or ISH for AVP mRNA. Overall, the regional distribution of the various markers within the SCN was comparable in the two species. The retinorecipient (ChTB-ir) and photically-responsive (Fos-ir) zones of the SCN mapped together to the middle and caudal thirds of the nucleus, predominantly in its ventro-lateral division.(ABSTRACT TRUNCATED AT 250 WORDS)

Photoperiodically induced changes in glutamatergic stimulation of LH secretion in male Syrian hamsters: role of circulating testosterone and endogenous opioids

In seasonally breeding mammals, the sensitivity of LH secretion to stimulation by the glutamate agonist N-methyl-D-aspartic acid (NMDA) is lower in the sexually active condition than in animals with testicular regression. One experiment determined if this increased sensitivity to NMDA in the reproductively inactive animal reflects reduced circulating testosterone. Responses to NMDA were determined during long days (LD) and short days (SD) in castrated hamsters bearing silastic testosterone implants, designed to maintain constant serum testosterone concentrations throughout a photoperiodically induced seasonal cycle. As expected, no significant effect of NMDA (50 mg/kg BW, sc) on secretion of LH occurred in testosterone-implanted castrate or intact control hamsters when challenged in LD. In contrast, both groups of hamsters responded to this dose of NMDA after 8 weeks exposure to SD, despite the maintenance of high serum testosterone concentrations in the castrate group. Moreover, the increased response to NMDA was not a reflection of lower LH concentrations associated with this photoperiod, because a response to NMDA persisted after removal of implants when endogenous secretion of LH had increased. Thus, the low circulating concentrations of testosterone in male hamsters exposed to an inhibitory SD photoperiod cannot explain the increased response to glutamatergic stimulation in the sexually inactive state. Photoperiod, acting centrally, is the major determinant of the response to activation of NMDA receptors. Other experiments investigated whether the lack of response to glutamatergic stimulation in the LD sexually active state results from endogenous opioid (EOP) tone that inhibits further increases in LH secretion at this stage of the reproductive cycle. If this is so, then pretreatment with an opioid antagonist would reveal or increase the stimulatory effect of NMDA on secretion of LH. Hamsters in LD were pretreated with the opioid antagonist naloxone (NAL; 5 mg/kg BW sc) before NMDA treatment (50 mg/kg BW sc), and blood samples collected 15 min later. Compared with controls, serum LH was significantly elevated in hamsters pretreated with NAL, but NMDA alone did not elevate LH. Surprisingly, LH concentrations in hamsters pretreated with NAL and then injected with NMDA were significantly lower than in hamsters receiving NAL only. Treatment with a submaximal dose of NAL (0.1 mg/kg) did not increase serum LH, nor did it reveal a stimulatory effect of subsequent NMDA treatment. The results demonstrate that the decreased sensitivity to glutamatergic agonists in the sexually active state is not a reflection of masking by inhibitory EOP mechanisms.(ABSTRACT TRUNCATED AT 400 WORDS)

Photoperiodic differences during development in the dwarf hamsters Phodopus sungorus and Phodopus campbelli

The dwarf hamsters Phodopus sungorus and to a lesser extent Phodopus campbelli are widely used to study pineal physiology and seasonal reproduction because of their marked responses to photoperiod in adulthood. These species are frequently confused, partly because the common names "Siberian hamster" and "Djungarian hamster" are applied to both, often interchangeably. The current study examines whether the effects of photoperiod on reproductive maturation and prolactin secretion differ between these closely related species. Both male and female P. sungorus and P. campbelli were gestated and raised in long days (LD) of 16 hr light: 8 hr dark or in short days (SD) of 8 hr dark: 16 hr light. They were raised in pairs of the same sex after weaning at 21 days of age. Reproductive organ weights and serum prolactin concentrations were studied at 35 and 70 days of age. Whereas reproductive development proceeded rapidly in LD in both male and female P. sungorus, SD photoperiod completely inhibited growth of the gonads during this study. There were also marked differences in serum prolactin concentrations in both sexes of P. sungorus at all ages: levels were approximately 10-fold higher in LD than in SD. In P. sungorus of both sexes, SD also significantly decreased body weight relative to conspecifics raised in LD. In P. campbelli, reproductive maturation in LD occurred even more rapidly than in P. sungorus. Although significant effects of photoperiod were still apparent, the magnitude of its effect was less marked than in P. sungorus, and a substantial degree of reproductive development was observed in SD-reared males and females.(ABSTRACT TRUNCATED AT 250 WORDS)

Non-photic circadian entrainment in the Syrian hamster is not associated with phosphorylation of the transcriptional regulator CREB within the suprachiasmatic nucleus, but is associated with adrenocortical activation

The mechanisms which mediate non-photic entrainment of the circadian clock are not known. The free-running circadian rhythm of the wheel-running activity of Syrian hamsters was phase advanced by subcutaneous injection of saline and the associated handling at circadian time (CT) 10 (2 h before activity onset, CT 12). Over several experiments, approximately 80% of the animals were sensitive to this non-photic cue and were, therefore, designated as 'shifters'. Injection at CT 6 had no phase-shifting effect in any animals. A series of six injections presented to shifters at CT 10 over 14 circadian cycles produced a cumulative phase advance to the activity rhythm which free ran from the phase established by the final injection, demonstrating that the non-photic stimulus caused true entrainment of the circadian clock, rather than simply masking its expression. Entrainment by light is associated with the rapid phosphorylation of the transcription regulatory factor, cyclic adenosine monophosphate response element binding protein (CREB), in the suprachiasmatic nuclei (SCN), the principal circadian clock. The induction of immunoreactivity to the phosphorylated form of CREB (P-CREB-ir) was used to determine whether phosphorylation is also activated by a non-photic phase-shifting cue. No significant P-CREB-ir was found in shifters maintained under constant dim red light and sampled at either CT 10.05 or 14.05, i.e., times when animals are sensitive to non-photic stimuli and light pulses, respectively. Exposure of animals to light for 5 min at CT 14 caused a dramatic increase in P-CREB-ir within the SCN at CT 14.05. However, despite being sensitive to the phase-shifting effects of handling and injection at CT 10, none of the shifters sampled 5 min after injection of saline at CT 10 exhibited P-CREB-ir within the SCN. These data demonstrate that non-photic cues do not activate a cellular pathway (phosphorylation of CREB) known to be activated within the SCN by light. To assess the importance of arousal in non-photic entrainment, the effect of injection of saline upon activation of the adrenocortical axis, a peripheral index of arousal, was investigated. As anticipated, there was a marked circadian variation in serum cortisol concentrations. In animals identified as shifters, the levels were low during mid-subjective day (CT 6) and rose in advance of activity onset (CT 10). Injection and handling at CT 6 did not have a did not have a significant effect upon serum cortisol levels. In contrast, injection of shifters at CT 10 was associated with a pronounced rise in serum cortisol levels.(ABSTRACT TRUNCATED AT 400 WORDS)

A dual-immunocytochemical method to localize c-fos protein in specific neurons based on their content of neuropeptides and connectivity

Enhanced expression of the immediate early gene c-fos has been used as a marker of cellular activation in many different neuronal pathways. We wished to determine the neurochemical content and the connectivity of neurons, in which expression of c-fos is induced. For this purpose, a dual-immunocytochemical staining technique has been developed with avidin-biotin-peroxidase labelling using diaminobenzidine as the chromogen for c-fos protein located in the nucleus, and benzidine dihydrochloride (BDHC) in the presence of sodium nitroprusside to reveal cytoplasmic antigens (neuropeptide or retrograde tracer) in the same section. The blue granular BDHC reaction product in the cytoplasm combined with the homogeneous brown nuclear DAB staining for c-fos protein provides excellent resolution of dual-labelled cells even in tissue sections of 40 microns in thickness. The high sensitivity of the avidin-biotin-peroxidase immunocytochemistry and the stability of the reaction products provide an excellent tool for quantitative analysis of stimulated cells within a neurochemically defined cell group. The BDHC/DAB protocol was developed to identify activated cells in three experimental situations. Firstly, to investigate the phenotype of light-activated cells in the suprachiasmatic nucleus of the hypothalamus, c-fos protein DAB staining was carried out together with BDHC staining for peptide histidine isoleucine (PHI) and vasoactive intestinal peptide (VIP).(ABSTRACT TRUNCATED AT 250 WORDS)

Distribution of N-methyl D-aspartate (NMDA) receptor mRNAs in the rat suprachiasmatic nucleus

Photic entrainment of the circadian oscillator located in the hypothalamic suprachiasmatic nucleus (SCN) is considered to be mediated at least partly by release of glutamate from the retinal presynaptic nerve terminals acting via a NMDA receptor. Several NMDA receptor subtypes have been cloned and expressed in model systems. The NMDA-R1 subtype is essential for the function of the NMDA receptor, and the multiple NMDA-R2(-A, -B, or -C) subunits potentiate and differentiate the function of the NMDA receptor by forming different heteromeric configurations with NMDA-R1. The aim of this study was to use in situ hybridization histochemistry with oligonucleotide sequences (42-48-mer) labeled with 35S to detect whether NMDA receptor mRNA is present in the rat SCN, and if so, to characterize which receptor subtypes occur. In order to identify the precise location of NMDA receptor mRNAs within the SCN, sections were dipped in emulsion and cellular resolution was achieved. The hybridization revealed a high abundance of NMDA-R1 mRNA in the SCN as well as in many other forebrain areas. The NMDA-R1 expressing cells were distributed throughout the SCN. NMDA-R2A and NMDA-R2B mRNAs were found in the hippocampus, but not in the SCN. In contrast, NMDA-R2C mRNA was found in relative high amounts in the rat SCN, but not in other hypothalamic areas. In dipped sections, it was evident that the localization of NMDA-2RC was mostly confined to the dorsomedial part of the SCN. Thus, the rat SCN contains a specific combination of NMDA receptor mRNA subtypes not found in other forebrain structures. These observations are consistent with the hypothesis that glutamate mediates the effect of light on entrainment of the circadian oscillator.

Photoperiod regulates the LH response to central glutamatergic stimulation in the male Syrian hamster

This study investigated central glutamatergic function in relation to photoperiodically-induced changes in the secretion of luteinizing hormone (LH). The experimental approach was to compare the central effects of glutamate agonists on LH secretion in reproductively active hamsters kept in long days (LD) with those in photoinhibited hamsters kept in short days (SD) for 6 weeks and having regressed testes. Agonists were delivered via a cannula into the III ventricle of freely moving hamsters, and blood samples collected 10 to 15 min after the start of the infusion. A high dose (3.0 nmole) of N-methyl-D-L-aspartate (NMDA) induced significant (P<0.01) increases in serum concentrations of LH in hamsters in both photoperiods, though the NMDA-induced increase relative to endogenous LH concentrations was greater in SD than in LD. However, a lower dose of NMDA (0.3 nmole revealed a difference in sensitivity. This dose significantly increased serum LH (P<0.05) in hamsters in SD but had no effect in those in LD. The seasonal difference in response to NMDA was compared with the response to an equimolar dose of alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA), a non-NMDA agonist. This dose of AMPA (0.3 nmole) induced a two-fold increase (P<0.05) in serum concentrations of LH in hamsters in both photoperiods, relative to vehicle-treated controls. In a third experiment the dose-response effects of central AMPA on LH secretion were examined more closely. The sensitivity of LH secretion to stimulation with AMPA did not differ between SD- and LD-housed hamsters. Thus the photoperiod-related difference in sensitivity to stimulation with glutamate agonists is specific for NMDA receptor-mediated activation, rather than a passive reflection of differences in the capacity to secrete GnRH/LH in SD and LD photoperiods. To investigate the site of action of NMDA, the expression of the c-fos immediate-early gene, as assessed by immunocytochemistry for its protein product Fos, was used as a marker of neuronal activation, because previous studies in rodents indicate that a high proportion of GnRH neurons express c-fos at the time of the mid-cycle LH surge. NMDA induced widespread expression of c-fos in many periventricular regions including the medial preoptic area (POA) and ventromedial hypothalamic nucleus. However, dual ICC revealed that in neither photoperiod was Fos present in GnRH-positive neurons 1 h after infusion of 3 nmole of NMDA, despite the increases in LH secretion induced by the infusion. AMPA injected icv at doses which released LH did not enhance expression of c-fos in the hypothalamus. Thus, in the male, enhanced expression of c-fos cannot be detected in GnRH neurons at the time of increased secretion of this hormone induced by glutamate agonists. In conclusion, these results show that both NMDA and non-NMDA glutamatergic pathways potentially regulated LH secretion in the Syrian hamster. The increased sensitivity to NMDA but unaltered sensitivity to AMPA in photoinhibited hamsters in SD is consistent with the view that changes in photoperiod might induce specific alterations in NMDA-mediated pathways that ultimately regulate GnRH neurosecretory activity.

Testicular regression in pinealectomized Syrian hamsters following infusions of melatonin delivered on non-circadian schedules

The aims of this study were to validate the use of a timed infusion protocol for restoring physiologically appropriate rhythms of melatonin in the circulation of pinealectomized hamsters and, using such infusions, to compare the relative importance of the parameters of the nocturnal melatonin signal--frequency, phase, and duration of the interval between signals--in the photoperiodic control of testicular function in male Syrian hamsters. Hamsters were pinealectomized and fitted with a chronic s.c. cannula enabling them to receive timed infusions of melatonin (50 ng/h) or saline vehicle (50 microliters/h). In experiment 1, RIA of serum samples confirmed that s.c. infusions produced a pattern of melatonin in the blood equivalent in amplitude and duration to that observed previously in pineal-intact animals exposed to a short photoperiod. In experiment 2, we investigated the relative importance of the frequency of the melatonin signal and the duration of the interval between signals. Pinealectomized animals that received infusions of saline for 6 wk had large testes and high concentrations of LH in the serum. Animals that received a series of short-day-like infusions of melatonin of 14-h duration, separated by an interval of either 10 h or 6 h, underwent gonadal regression and had low serum concentrations of LH. Animals that received infusions of melatonin of 8-h duration, separated by intervals of 12 h, also exhibited full gonadal collapse. However, animals that received the same 8-h infusions separated by intervals of 8 h (i.e., once every 16 h) did not undergo gonadal regression and their circulating levels of LH remained high.(ABSTRACT TRUNCATED AT 250 WORDS)

Distribution of estrogen receptor-immunoreactive cells in the sheep brain

The distribution of immunoreactive (IR) estrogen receptor (ER)-containing cells was studied in the brains of adult Suffolk ewes using a rat monoclonal antibody (H222) which recognizes the human estrogen receptor. IR cells were characterized by dense nuclear reaction product, and in some instances, cytoplasmic immunostaining which filled dendrite-like processes. The greatest densities of ER-IR cells were found in the medial preoptic area, the mediobasal hypothalamus, and in a number of limbic system structures (amygdala, bed nucleus of the stria terminalis, lateral septum). ER-IR cells were found at lower densities in several other subregions of the hypothalamus and limbic system, and in the periaqueductal gray of the caudal midbrain. Cytoplasmic ER immunoreactivity was most prominent among ER-IR cells in the ventrolateral-ventromedial nucleus, the bed nucleus of the stria terminalis, the midbrain periaqueductal gray, and some ER-IR cells in the substantia innominata. The distribution of ER-containing cells in the sheep brain closely parallels that seen in other mammals. ER-IR cells are found in sites such as the medial preoptic area and ventrolateral-ventromedial hypothalamus which have been implicated as targets in this species and others for the influence of estradiol on sexual behavior and reproductive neuroendocrine function.

19-Aldehydo-4-androstene-3,17-dione: an estrogen precursor that inhibits sebaceous secretion in a rat model

19-aldehydo-4-androstene-3,17-dione (A; R = CHO), a biogenetic precursor of estrone in the body, has been found to suppress sebum secretion in the ovariectomized testosterone-treated Wistar rat at 1/2000 times the dose of cyproterone acetate required to produce an equivalent effect. The action of this steroid must therefore be analogous to that of an estrogen even though, in striking contrast to estradiol, it is without effect on uterine weight or vaginal cornification. It is postulated that 19-aldehydo-4-androstene-3,17-dione (A; R = CHO) is converted locally into estrone (B) by aromatase present in skin but only in low concentrations in vagina and uterus. The potential of biogenetic precursors (I) of estrogens for therapy of acne or alleviation of the worst effects of skin aging is worth investigation.

Hypothalamic versus pituitary stimulation of luteinizing hormone secretion in the prepubertal female lamb

Glutamate and aspartate have been hypothesized to function as neurotransmitters in the regulation of the gonadotropin-releasing hormone (GnRH) neurosecretory system. We, therefore, determined if hypothalamic stimulation of luteinizing hormone (LH) secretion in the intact prepubertal female lamb could be achieved by intravenous injection of N-methyl-D,L-aspartate (NMA), a glutamate agonist. A pilot study determined a dose of NMA that would induce physiologic pulses of LH (GnRH). Subsequently, we compared the ability of NMA with exogenous GnRH to induce ovulation in the prepubertal lamb when administered chronically. Eighteen prepubertal lambs (21 weeks of age, 34.2 +/- 1.5 kg body weight) were treated intravenously with either NMA (2 mg/kg, n = 6) or GnRH (68 ng/injection or approximately 2 ng/kg, n = 6) for 3 days, every 2 h on day 1 and every 1 h on days 2 and 3, or received no treatment (controls, n = 6). Gonadotropin surges were detected only in GnRH-treated lambs (5/6 lambs, onset = 54.0 +/- 4.5 h from the start of study, mean +/- SE). Compared to 83% of GnRH injections inducing LH pulses, only 47% of NMA injections induced LH pulses. Because each injection of NMA did not induce a pulse of LH, a second experiment was performed in an attempt to optimize the LH response to NMA. Ten prepubertal lambs (25 weeks of age) were injected every 2 h for 24 h with higher doses of NMA, either 4 mg/kg (n = 5) or 16 mg/kg (n = 5).(ABSTRACT TRUNCATED AT 250 WORDS)

Opioid inhibition of luteinizing hormone secretion compared in developing male and female sheep

The sheep exhibits a marked sex difference in the timing of the pubertal increase in luteinizing hormone (LH). Male lambs undergo a reduction in sensitivity to inhibitory steroid feedback, leading to an increase in LH by 10 weeks of age, but females remain hypersensitive until 30 weeks of age. Endogenous opioids suppress LH secretion in the female lamb prepubertally and in adult male and female sheep. It has been suggested that a reduction in opioid inhibition of LH secretion is the signal to time puberty. Therefore, if a decrease in opioid tone occurs during sexual maturation, it should begin earlier in the male lamb than in the female. The objective of this study was to compare opioid inhibition of LH secretion in male and female lambs in relation to the timing of puberty. Our approach was to examine the response to the opioid antagonist naloxone at various ages in both sexes. To determine the timing of the pubertal LH rise in the presence of constant inhibitory steroid feedback, male and female lambs (n = 5 each) were gonadectomized at 3 weeks of age and implanted with a Silastic capsule of estradiol. They were then challenged with naloxone at 5, 11, and 23 weeks of age; blood samples were collected every 12 min for 8 hours, and lambs received naloxone (1 mg/kg i.v.) at hours 4, 5, 6, and 7. Mean LH before and during naloxone treatment was compared at each age.(ABSTRACT TRUNCATED AT 250 WORDS)

Circadian and photoperiodic time measurement in male Syrian hamsters following lesions of the melatonin-binding sites of the paraventricular thalamus

Autoradiographic studies using [125I]iodomelatonin in several species, including the Syrian hamster, have revealed that the rostral region of the anterior paraventricular nucleus of the thalamus (aPVT) contains a very high density of binding sites for melatonin. In two studies, small or large bilateral electrolytic lesions of the aPVT were made in adult male hamsters maintained on long days (LD 16:8). The hamsters were then transferred to short days (LD 8:16) to test whether testicular regression could occur in response to a decrease in photoperiod. Serum prolactin concentrations were measured as a second photoperiodic response. All unoperated control hamsters showed the typical short-day photoperiodic response: A decrease in serum luteinizing hormone (LH) and prolactin concentrations and testicular regression all occurred within 6 weeks in short days, followed by the development of scotorefractoriness. Lesions of the aPVT did not significantly affect the rate or the degree of the short-day-induced decline in serum levels of LH or prolactin, nor the pattern of testicular regression and the subsequent expression of refractoriness. To enable us to determine whether the aPVT might be involved in the entrainment or the expression of circadian rhythms, locomotor activity was monitored continuously in lesioned and control groups in Experiment 2, prior to and following the switch to short days. The reduction in photoperiod (involving an 8-hr advance in the time of lights-off and an 8-hr extension of the dark phase) caused a decompression of the nocturnal activity bout of control animals, so that after 2 weeks in short days, activity onset had also advanced to regain its phase relationship to the timing of lights-off. A similar pattern of reentrainment was observed in lesioned animals, and no differences were observed between treatment groups in the rate of entrainment and decompression. In addition, both intact controls and animals bearing large bilateral lesions of the aPVT exhibited robust free-running circadian rhythms of locomotor activity when held under constant dim red light. In summary, the integrity of the aPVT is not necessary for the seasonal response of the reproductive axis and prolactin secretion to photoperiod, nor for photic entrainment of activity rhythms, in the Syrian hamster.

Non-photic phase shifting of the circadian activity rhythm of Syrian hamsters: the relative potency of arousal and melatonin

This study investigated the relative potency of melatonin and arousal as Zeitgebers in the non-photic phase shifting of circadian rhythmicity in the adult Syrian hamster. Animals held under dim red light (DD) exhibited robust free-running rhythms of wheel-running activity. Melatonin (1 mg/kg) or ethanolic saline vehicle, delivered manually by subcutaneous injection after removing the animal from its cage, resulted in phase advances of the activity rhythm. This effect was phase dependent, injections at CT 8 and 10 being effective (CT 12 = anticipated activity onset), whereas injection at CT 2, 6, 14 and 20 did not cause a shift. There was no significant difference between the magnitude or timing of phase shifts in response to injections of saline or melatonin. To determine whether the observed shifts were related to arousal of the animals induced by handling, a second group held under DD were fitted with chronic s.c. cannulae so that melatonin solution or vehicle could be delivered remotely at projected CT 10. Neither solution had any effect upon the free-running rhythm. However, when these animals received manual s.c. injection of saline or melatonin solution, they exhibited phase advances similar to those observed in Expt. 1. These results fail to support the hypothesis that melatonin can exert a chemically specific, acute phase-shifting action in the adult Syrian hamster. They do, however, demonstrate the potent effect of arousing stimuli upon the circadian clock in this species.

Photoperiodic regulation of glutamatergic stimulation of secretion of luteinizing hormone in male Syrian hamsters

It has been suggested that changes in endogenous glutamatergic stimulation of secretion of luteinizing hormone (LH) induced by photoperiod play a role in regulating seasonal cycles of reproductive activity. The aim of this study was to test the hypothesis that the glutamatergic control of the secretion of LH in the male Syrian hamster is sensitive to photoperiod, by determining whether the glutamate agonist N-methyl-D-aspartate (NMDA) could stimulate LH secretion in this species and, if so, to determine whether the response varied among animals exposed to different daylengths. In the first experiment, adult male hamsters were housed in either short day (8 h light: 16 h dark) for 6 weeks to induce testicular regression, or long days (16 h light: 8 h dark) to maintain testicular function, and the effects of systemic administration of NMDA on serum LH concentrations were determined. In the short-day hamsters, all s.c. doses of NMDA (25-75 mg kg-1 body weight) produced a robust rise in serum LH concentrations within 15 min. In the long-day hamsters, basal LH concentrations were higher than in short-day hamsters, but only the highest dose of NMDA produced a significant increase in LH concentrations, and the magnitude of this increment was less than those observed in short days. In hamsters in long days, the low doses of NMDA that did not significantly alter LH concentrations nevertheless significantly suppressed serum prolactin concentrations, demonstrating the efficacy of the drug. In hamsters in short days, serum prolactin concentrations were at the limit of detection of the assay, so no inhibitory effect of NMDA on prolactin secretion could be determined on this photoperiod. In the second experiment, the effects of a fixed dose of NMDA (50 mg kg-1 body weight) was tested at intervals in hamsters exposed to short days for a prolonged period such that their testes initially regressed, but then became scotorefractory and testicular recrudescence occurred. After 6 and 12 weeks in short days, NMDA stimulated LH secretion. However, after 24 weeks in short days when testicular recrudescence was complete, the response to NMDA was lost. A third experiment determined whether the reduced response to NMDA in hamsters on long days relative to those in short days might result from higher concentrations of circulating testosterone. Hamsters in long days were castrated to remove the influence of gonadal feedback, and the response to NMDA tested 3 weeks later when endogenous LH concentrations had risen to levels characteristic of the chronically castrated condition.(ABSTRACT TRUNCATED AT 400 WORDS)

A nonphotic stimulus causes instantaneous phase advances of the light-entrainable circadian oscillator of the Syrian hamster but does not induce the expression of c-fos in the suprachiasmatic nuclei

The study investigated whether nonphotic cues that alter the phase of overt circadian rhythms do so by causing instantaneous shifts in the underlying, light-sensitive clock. Wheel-running activity in Syrian hamsters was studied under free-running conditions of constant dim red light as an overt marker of circadian phase, the daily onset of activity being defined as circadian time 12 (CT 12). Exposure to a 15 min pulse of bright light at CT 12.20 caused a phase delay in activity onset, whereas pulses delivered at CT 11.20 had no effect upon the overt rhythm. Correlated with their effect on behavior, light pulses delivered at CT 12.20 induced expression of c-fos-like immunoreactivity in the retinorecipient regions of the suprachiasmatic nuclei of the hypothalamus (SCN), whereas pulses delivered at CT 11.20 had no effect upon the expression of c-fos. Expression of this immediate-early gene therefore provided a second marker of circadian phase, because its induction by light is closely correlated with the onset of subjective night (CT 12). To establish a suitable protocol for nonphotic shifts of the activity rhythm, animals were handled and received a subcutaneous injection of saline at different circadian phases. Injections at CT 8 or CT10 caused an immediate bout of wheel-running activity, and a consequent phase advance in the activity rhythm as assessed by the earlier onsets of activity in successive days. Handling and injections at other circadian phases were without effect. Despite shifting the overt rhythm, these procedures at CT 10 did not lead to the expression of c-fos in the SCN.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of nutritional repletion on pituitary and serum follicle-stimulating hormone isoform distribution in growth-retarded lambs

Using nutritionally restricted ovariectomized lambs, we tested the hypothesis that nutritionally regulated endogenous increases in GnRH secretion (as assessed by LH pulsatility) not only alter the quantity of FSH present in the pituitary and serum, but also alter the pituitary and serum FSH isoform distribution. Eleven lambs were nutritionally restricted from weaning and ovariectomized at 12 wk of age. Beginning at 56 wk, 6 were fed ad libitum for 14 days, and the other 5 were continued on the restricted diet. Jugular blood samples were collected frequently (12-min interval) for 4 h prior to pituitary removal. Immunoreactive ovine LH (I-oLH) and immunoreactive ovine FSH (I-oFSH) concentrations were measured in sera and pituitary extracts. Bioactive (B) oFSH and I-oFSH isoform distribution patterns were determined in serum pools and pituitary extracts. Ad libitum feeding increased I-oLH pulsatility and mean concentrations of pituitary and serum I-oFSH and B-oFSH. The I-oFSH isoform distribution patterns in the pituitaries from the nutritionally restricted animals were not different from those of repleted lambs; in both, the predominant FSH peak eluted in the pH range of 3.5-5.6. A similar predominance of I-oFSH isoforms was also evident in the serum of ad libitum-fed animals. This predominance was not demonstrable in 3 of the restricted-fed animals due to low circulating concentrations of FSH (less than 2.5 ng/ml). Subsequent studies, utilizing serum from 4 additional restricted-fed lambs with circulating I-oFSH concentrations in the range of 4-14 ng/ml (but no detectable LH pulses) revealed similar predominance of oFSH isoforms in the pH 3.5-5.6 range.(ABSTRACT TRUNCATED AT 250 WORDS)

The effect of signal frequency on the gonadal response of male Syrian hamsters to programmed melatonin infusions

The aim of this study was to investigate which characteristics of the nocturnal melatonin signal, in addition to its duration, convey photoperiodic information to the reproductive axis. To achieve control over the pattern of circulating melatonin, male Syrian hamsters held under stimulatory long daylengths (16h light:8h dark) were pinealectomized to remove the principal source of circulating endogenous hormone and then fitted with chronic subcutaneous cannulae through which programmed infusions of melatonin solution or vehicle could be delivered. Experiment 1 tested whether long intervals between successive melatonin signals impaired the photoperiodic response. Animals which received a short day-like melatonin infusion of 10 h duration once every 24 h (T = 24) for 6 weeks underwent gonadal atrophy. When the same number of signals (42) was delivered at a frequency of once every 32 h (T = 32), they were ineffective and animals remained gonadally active. Two infusion patterns were used to determine if the loss of response to 10 h signals given at T = 32 h was a consequence of the frequency per se or the long interval between signals (22 h). In the first, a 'chimaeric' signal which combined a long duration i.e. short day-like 18 h melatonin signal with a short day-like melatonin-free interval of 14 h (combined signal T = 32 h) was able to induce significant, but only partial, gonadal atrophy. Second, when the 22-h interval between 10-h melatonin signals was interrupted by a short (2 h) melatonin pulse, significant but partial gonadal regression again occurred. Moreover, the response depended upon the timing of the 2 h pulse. When this fell early in the melatonin-free interval, leaving a large portion of it intact, it had no effect on gonadal condition. In contrast, a pulse delivered in the middle of the interval, which divided it up into two short day-like segments of 10 h each, was partially effective in restoring a short day response. The second experiment tested whether melatonin signals delivered at a high frequency would induce a photoperiodic response. A 10 h infusion delivered once every 24 h caused gonadal atrophy. The same melatonin infusion delivered at a periodicity of 20 h (T = 20) was also very potent as a short day stimulus. However, when 10-h signals were delivered at the higher frequencies of once every 18 or 16 h, they were less effective. Only a minority of animals exhibited gonadal atrophy and overall the group means were not significantly different from those of saline-infused controls, but were significantly greater than those of the 24 and 20 h groups. These data demonstrate that the photoperiodic response to the melatonin signal is sensitive to the frequency at which the signal is received. However, there is no evidence for a circadian basis to this sensitivity, nor a dependence upon the relationship between the endocrine stimulus and the light-dark cycle, insofar as signals encountered at a non-circadian period of 20 h are very effective. Moreover, the effectiveness of signals encountered at longer periodicities can be modified by manipulation of the uninterrupted duration of the interval free of melatonin, demonstrating a role in photoperiodic time measurement for the duration of the interval between signals.

The role of N-methyl-d-aspartate-type glutamatergic neurotransmission in the photic induction of immediate-early gene expression in the suprachiasmatic nuclei of the Syrian hamster

Abstract This study investigated the role of N-methyl-D-aspartate (NMDA)-type glutamatergic neurotransmission in mediating the photic induction of immediate-early gene expression in the Suprachiasmatic nucleus (SCN) of the Syrian hamster. Activation of c-fos, c-jun and egr-1 was assessed by immunocytochemical detection of their protein products. To characterize the circadian basis to the inductive effects of light, hamsters were allowed to free-run in constant dim red light and received a 1 h light pulse at different circadian phases relative to activity onset (defined as CT 12). In control animals which did not receive light pulses, c-fos and egr-1 expression was absent or restricted to a small area of the dorsolateral region of the SCN, and expression of c-jun could not be detected in the SCN. In hamsters killed after presentation of a light pulse at either CT 14 or CT 20, there was a marked increase in c-fos and egr-1 immunoreactivities throughout the ventrolateral division of the SCN. In contrast, light pulses given at CT4 or CT 8 failed to activate immediate-early gene expression. Light pulses did not induce c-jun immunoreactivity at any circadian phase tested. Staining for c-fos was maximal 1 h after the start of the light pulse and had started to decline by 2 h. At this later time, c-jun expression was still undetectable. To compare the distribution of retinal afferents with that of c-fos induction, hamsters held on a light schedule of 16 h light: 8 h dark received an intraocular injection of cholera toxin-horseradish peroxidase conjugate 3 days before exposure to a 1 h light pulse given 2 h after lights off. Comparison of adjacent sections processed for c-fos immunoreactivity or for cholera toxin-horseradish peroxidase revealed that light-induced c-fos expression was precisely restricted to retinal terminal fields in the SCN. Light pulses also induced c-fos expression in the retinoreceptive ventral lateral geniculate nucleus and intergeniculate leaflet but not in the retinal fields of the dorsal lateral geniculate nucleus, indicating that the expression of cfos in response to light is spatially specific. The aim of the subsequent experiments was to investigate the role of NMDA-type glutamatergic neurotransmission in mediating the effects of light on c-fos expression in the SCN. To determine whether NMDA had the potential to activate c-fos expression in the SCN, hamsters were infused with 2.5 nmol NMDA or vehicle via an intracerebroventricular (icv) cannula positioned adjacent to the nuclei. In contrast to the effects of light, icv NMDA activated c-fos expression at both CT8 and CT 14. The distribution of immunoreactivity was more widespread than that observed after light, extending throughout the SCN and adjacent hypothalamus. To test whether NMDA receptors had a physiological role in the photic response, hamsters were treated systemically with the non-competitive NMDA antagonist MK801 (dose range 0.6 to 6.0 mg/kg body wt, ip) or vehicle prior to exposure to a 1 h light pulse given at CT 14 or CT 20. Expression of c-fos was still detectable in the dorsolateral SCN but MK801 blocked expression in the ventral portion of the retinoreceptive zone of the SCN. MK801 (10 or 100 nmol) delivered centrally (icv) also prevented light-induced c-fos expression in the ventral region of the SCN bordering the optic chiasm, though staining again persisted in the dorsolateral region. The induction of c-fos by icv NMDA, and the partial blockade of light-induced c-fos expression by the antagonist MK801, are consistent with the hypothesis that glutamate mediates the effects of light on SCN activity. However, the persistent photic induction of c-fos expression in a subfield of retinal afferents following treatment with MK801 suggests that other, non-NMDA-type mechanisms may contribute to photic entrainment.

Metabolic interfaces between growth and reproduction. IV. Chronic pulsatile administration of growth hormone and the timing of puberty in the female sheep

Puberty in the female lamb is accompanied by an increased frequency of LH pulses, and during normal development this is preceded by a decline in GH. Conversely, in the growth-retarded lamb, when LH levels are depressed by low nutrition, GH secretion is elevated. Based upon this inverse relationship, we tested the hypothesis that GH may act as a metabolic signal from the brain to inhibit the secretion of LH, and that the decline in GH times puberty. Our approach was to extend high circulating GH levels far beyond the early postnatal period, in a physiological pattern and level, in an attempt to block the pubertal LH rise. To evaluate the pattern of LH as a continuous variable under conditions of constant estradiol negative feedback, the gonadotropin was measured in blood samples collected by jugular venipuncture twice weekly; the lambs were ovariectomized and treated chronically with estradiol (Silastic capsule) beginning at 3 weeks of age. Nine lambs served as untreated controls, and 7 were infused iv with pituitary-derived bovine GH (bGH) between 5 and 28 weeks of age. A programmable backpack infusion pump delivered bGH as hourly pulses, with a total dose of 18 micrograms/kg.24 h, to maintain a physiological pattern and level of GH. At various ages, blood samples were collected at 12-min intervals for 6 h to monitor patterns and levels of peripheral LH and GH. Circulating GH in untreated and treated lambs averaged 7.7 +/- 1.5 ng/ml over a 6-h period at 4 weeks of age and declined to 1.1 +/- 0.2 ng/ml by 19 weeks in the untreated lambs; in contrast, bGH-infused lambs averaged 10.4 +/- 0.9 ng/ml at 19 weeks. Although body weights did not differ, back fat depth and quantity of perirenal fat were reduced in bGH-treated females compared to that in controls. Moreover, insulin-like growth factor-I levels were higher in bGH-treated compared with control lambs, and the bGH-treated lambs exhibited glucose intolerance, thus confirming that infused bGH was biologically active. Neuroendocrine sexual maturity, however, was not different in bGH-treated and control lambs, and it occurred at 21-22 weeks of age. The results do not support our hypothesis that decreasing GH secretion is a requirement for puberty in the sheep. Moreover, unlike in children with delayed puberty, exogenous bGH did not advance normal puberty in the lamb.(ABSTRACT TRUNCATED AT 400 WORDS)

The timing of neuroendocrine sexual maturity in the male lamb by photoperiod

In spring-born female lambs, the long days of summer, followed by their gradual decrease, provide the seasonal cue necessary to time puberty to early autumn (approximately 30 wk of age). Male lambs begin spermatogenesis during mid-summer, some 20 wk before puberty occurs in females. Unlike young female lambs, male lambs attain puberty at the same age under a variety of photoperiodic manipulations, raising the possibility that sexual maturation in males is not affected by photoperiod. We have reinvestigated the role of photoperiod on puberty in the male lamb, using a more precise indicator of reproductive activation--the decreased sensitivity of the hypothalamo-pituitary axis to inhibitory steroid feedback leading to increased LH secretion. To test whether photoperiod can influence the onset of neuroendocrine sexual maturation in male lambs, this study compared the timing of the decrease in sensitivity to inhibitory steroid feedback in two groups of males under opposite photoperiodic conditions. Eight males were reared indoors from 2 wk of age under conditions simulating the natural increasing and decreasing day lengths around the summer solstice; an additional 7 males were exposed to a reversed simulated natural photoperiod in which the changes in day length were amplified and accelerated relative to outdoor conditions. Both groups of lambs were castrated and received s.c. implants of Silastic estradiol capsules to provide a constant steroid feedback signal. The timing of reduction in sensitivity to estradiol negative feedback, measured as a sustained increase in circulating of LH above 1.0 ng/ml, was used to define neuroendocrine sexual maturity.(ABSTRACT TRUNCATED AT 250 WORDS)

Occlusion of the melatonin-free interval blocks the short day gonadal response of the male Syrian hamster to programmed melatonin infusions of necessary duration and amplitude

Abstract Photoperiodic control of the neuroendocrine axis is mediated by changes in the duration of the nocturnal melatonin signal. This study tested the hypothesis that reading of the signal depends upon the presence of a period free of melatonin between successive signals. Adult male Syrian hamsters were pinealectomized and received chronic subcutaneous infusions of melatonin or saline for 6 weeks. Animals which received saline had large testes. Those which received a single daily infusion which lasted for 10 h (50 ng/h) followed by 14 h without infusion underwent gonadal atrophy. Other animals received a compound melatonin signal in which the melatonin-free interval was occluded by a continuous infusion (25 ng/h). Superimposed upon this was a 10 h phasic increase in infusion rate such that the maximum rate of infusion was equivalent to that observed in controls (25 ng/h increase, 50 ng/h peak rate), or the increase in rate over the baseline was the same as in controls (50 ng/h increase, 75 ng/h peak rate). In neither group did the animals undergo gonadal regression. Analysis of iodomelatonin binding sites by in vitro autoradiography failed to reveal any systematic difference between animals which did and did not respond to melatonin and so the absence of a response could not be attributed to loss of receptors. These data demonstrate that the photoperiodic system cannot identify the melatonin signal solely upon the features of nocturnal peak height or amplitude of the peak over baseline. They are consistent with the hypothesis that the melatonin-free interval plays a significant role in photoperiodic time measurement.