Hormonal induction of maternal behavior in the ovariectomized nulliparous rat

Prolactin's mediative role in male parenting in parentally experienced marmosets (Callithrix jacchus)

Prolactin has been implicated in promoting paternal care behaviors but little evidence of causality has been found to date except for birds and fish. This study was designed to examine the possible causal relationships between prolactin and male parenting behaviors, reproductive hormones, and physical changes in cooperatively breeding common marmosets, Callithrix jacchus. Fifteen parentally experienced fathers were studied over three consecutive infant care periods during two weeks prior and three weeks following their mates' parturition under three-treatment conditions: normal control pregnancy, decreased prolactin and elevated prolactin. The treatments significantly altered the serum prolactin levels in the fathers. Using three methods of determining a father's level of parental care: infant carrying, family effort and responsiveness to infant stimulus tests, we found that only the male response to infant stimuli was altered by the hormone treatments. Lowering prolactin significantly reduced male responsiveness to infant stimuli but elevating prolactin showed the same effect. Hormonal sampling indicated that testosterone levels showed an inverse relationship to prolactin levels during a normal peripartum period and prolactin treatment reduced this relationship. Prepartum estradiol levels were significantly elevated during the lowered prolactin treatment and estradiol was significantly lowered postpartum with the elevated prolactin treatment. Father's weight decreased significantly by the third week of infant care during the normal treatment. Males in the elevated prolactin treatment lost little or no weight from prepartum while in the lowered prolactin treatment showed the most weight loss. The present findings did not distinguish a direct causal relationship of prolactin on behavior in experienced fathers but did find an interaction with other hormones and weight gain.

Hormones that increase maternal responsiveness affect accumbal dopaminergic responses to pup- and food-stimuli in the female rat

The present study investigated hormonal mediation of maternal behavior and accumbal dopamine (DA) responses to pup-stimuli, as measured in microdialysis samples collected from the nucleus accumbens shell of female rats in non-homecage environment. In Experiment 1, samples were collected before and after continuous homecage pup experience from either intact postpartum or cycling females. In Experiment 2, samples were collected before and after responding maternally in homecage from ovariectomized females given either parturient-like hormone or sham treatments. After baseline sample collection in the dialysis chamber, pup and food stimuli were individually presented to females. Upon sampling completion, all animals were placed back into their homecage with donor pups for several days, and then the sample collection procedure was repeated. Prior to stimulus presentation, postpartum and hormone-treated females had decreased basal DA release compared to their controls. In response to pup stimuli, only postpartum and hormone-treated females had increased DA release compared to basal release (both sampling days). In response to food stimuli, all females had increased DA responses from basal; although there were group differences on the initial day of sampling. Findings suggest that hormones associated with inducing maternal behavior in the postpartum rat play a significant role in modifying accumbal dopaminergic responses on first exposure to pup stimuli in the rat. However, the postpartum experience provides further modifications to this brain region to promote DA responses to pup stimuli.

Medial preoptic area interactions with dopamine neural systems in the control of the onset and maintenance of maternal behavior in rats

The medial preoptic area (MPOA) and dopamine (DA) neural systems interact to regulate maternal behavior in rats. Two DA systems are involved: the mesolimbic DA system and the incerto-hypothalamic DA system. The hormonally primed MPOA regulates the appetitive aspects of maternal behavior by activating mesolimbic DA input to the shell region of the nucleus accumbens (NAs). DA action on MPOA via the incerto-hypothalamic system may interact with steroid and peptide hormone effects so that MPOA output to the mesolimbic DA system is facilitated. Neural oxytocin facilitates the onset of maternal behavior by actions at critical nodes in this circuitry. DA-D1 receptor agonist action on either the MPOA or NAs can substitute for the effects of estradiol in stimulating the onset of maternal behavior, suggesting an overlap in underlying cellular mechanisms between estradiol and DA. Maternal memory involves the neural plasticity effects of mesolimbic DA activity. Finally, early life stressors may affect the development of MPOA-DA interactions and maternal behavior.

Prepartum and postpartum regulation of maternal behaviour in the rat

Maternal behaviour in the rat consists of four principal components: nursing or crouching over the young, retrieving pups to the nest, body and genital licking of pups, and nest-building. Normally the onset of maternal behaviour occurs at parturition but studies reveal that the true onset is somewhat earlier, around 24 hours pre partum. The onset of maternal behaviour is hormonally determined and it is most likely that the ovarian hormone oestradiol plays a major role under the specific conditions that exist pre partum. The onset of maternal behaviour requires the resolution of tendencies of fear-avoidance of pups, based on their olfactory characteristics, and attraction to them and response to the pup stimuli that elicit maternal behaviour. In most animals this resolution occurs almost immediately but in some animals several hours of contact with the pups is required for maternal behaviour to be firmly established. After parturition, maternal behaviour appears to be regulated chiefly by stimuli from the pups, and hormones do not play a role apart from their role in lactogenesis. Size of litter, age of pups, amount of externally induced stress and other factors can affect the mother-young interaction: there is a period of special vulnerability to disruption of the mother-young interrelationship shortly after parturition which corresponds, we believe, to the period of transition from hormonal to non-hormonal regulation of maternal behaviour. Weaning and the decline of maternal behaviour is a specific phase of maternal care. Maternal behaviours gradually decline as avoidance behaviours increase.

Role of pregnancy and parturition in induction of maternal behavior in prairie voles (Microtus ochrogaster)

In prairie voles (Microtus ochrogaster), most virgin females are infanticidal. To determine the onset of maternal responsiveness, female prairie voles were tested for maternal behavior as virgins and at different times throughout pregnancy. Female voles that were infanticidal as virgins by and large remained infanticidal throughout pregnancy. In contrast, about 30% of voles that were maternal as virgins became infanticidal during pregnancy. To test whether events associated with parturition facilitate the onset of maternal behavior, females had their litters delivered by Caesarean section within a day of expected delivery or were allowed to give birth naturally with sham surgery occurring shortly before or after birth. Females that gave birth naturally were fully maternal and did not attack unrelated pups, but females subjected to artificial delivery remained infanticidal. This suggests that events closely related to parturition are crucial for full development of maternal behavior in female prairie voles.

Prolactin responses to infant cues in men and women: effects of parental experience and recent infant contact

We used a longitudinal design to test whether parental experience differentially affects the development of prolactin responses to infant cues in men and women. Couples provided two blood samples at three tests, one test just before their babies were born, and two tests during the early postnatal period (n=21). Nine couples repeated the tests near the birth of their second babies. In the 30 min between the two samples, couples listened to recorded infant cries at the prenatal test and held their baby (fathers) or a doll (mothers) at the postnatal tests. Blood samples were analyzed for prolactin concentrations. Prolactin values were then related to sex and parity differences as well as to questionnaire data concerning emotional responses to infant cries and previous infant contact. We found that (1) prior to the birth of both the first and second babies, women's prolactin concentrations increased after exposure to infant stimuli, whereas men's prolactin concentrations decreased; postnatal sex differences varied with parity; (2) women's prolactin reactivity did not change significantly with parental experience; (3) the same men's prolactin concentrations decreased after holding their first newborns but increased after holding their second newborns; this change was not gradual or permanent; (4) men reporting concern after hearing recorded infant cries showed a different postnatal pattern of prolactin change after holding their babies than men not reporting concern; and (5) men who had little contact with their babies just prior to testing had a more positive prolactin response than men who had recently held their babies for longer periods. Although parental experience appears to affect men's prolactin responses, differences in reactivity were also related to patterns of recent infant contact and individual differences in responses to infant cues.

The effects of adrenalectomy and corticosterone replacement on maternal memory in postpartum rats

Hormones associated with parturition prime rats to behave maternally, although hormonal changes are not necessary for these behaviors to occur. Experience with pups after birth enhances maternal responsiveness after a period of isolation, creating a maternal memory. The purpose of this study was to determine the role of corticosterone in the formation of maternal memory. Adrenalectomy or sham surgeries were performed in late gestation with corticosterone or vehicle pellets being given to adrenalectomized rats. Pups were removed immediately following parturition, and half of the rats received 4 h of pup experience, while the other half received only brief pup experience associated with parturition. Ten days following pup experience, foster pups were given to all rats. Latency to become maternal and maternal behaviors on the first 2 days of re-exposure and the first two maternal days were recorded. Among adrenalectomized rats given corticosterone, 4-h experience with pups decreased maternal latency when compared to brief experience with pups. This maternal experience effect was not found in comparisons between adrenalectomized rats not given corticosterone. In addition, corticosterone decreased latencies regardless of pup experience. Corticosterone also increased maternal behavior upon initial exposure to foster pups. In conclusion, corticosterone enhanced maternal memory and initial maternal behavior in postpartum rats.

Maternal programming of steroid receptor expression and phenotype through DNA methylation in the rat

Increased levels of pup licking/grooming and arched-back nursing by rat mothers over the first week of life alter the epigenome at a glucocorticoid receptor gene promoter in the hippocampus of the offspring. Differences in the DNA methylation pattern between the offspring of High and Low licking/grooming--arched-back mothers emerge over the first week of life, are reversed with cross-fostering, persist into adulthood and are associated with altered histone acetylation and transcription factor (NGFI-A) binding to the glucocorticoid receptor promoter. Central infusion of the adult offspring with the histone deacetylase inhibitor trichostatin A removes the previously defined epigenomic group differences in histone acetylation, DNA methylation, NGFI-A binding, glucocorticoid receptor expression, and hypothalamic-pituitary-adrenal responses to stress, thus suggesting a causal relation between the epigenomic state, glucocorticoid receptor expression and the effects of maternal care on stress responses in the offspring. These findings demonstrate that an epigenomic state of a gene can be established through a behavioral mode of programming and that in spite of the inherent stability of this epigenomic mark, it is dynamic and potentially reversible.

Hippocampal morphology is differentially affected by reproductive experience in the mother

Pregnancy and mothering result in a number of hormonal, neurological, and behavioral changes that are necessary to ensure reproductive success. With subsequent reproductive experience (multiparity and mothering), further neurological and behavioral changes may result. Recent research has shown that previous motherhood enhances both hippocampus-dependent learning and memory and long-term potentiation (LTP); together with decreases in hippocampus volumes during pregnancy it is suggested that the hippocampus is affected by pregnancy and/or mothering. The present experiment aimed to investigate the effect of reproductive experience (nulli, primi-, and multiparity and mothering) on dendritic morphology in the CA1 and CA3 regions of the hippocampus. Brains were stained with a modified version of the single-section Golgi impregnation technique, and dendritic length, number of branch points, and spine density was analyzed for apical and basal regions of CA1 and CA3 pyramidal neurons. Primiparity and/or mothering resulted in dendritic remodeling in both the CA1 and CA3 hippocampal regions, and multiparity resulted in enhanced spine density in the basal CA1 region, which was positively correlated with number of male pups in a litter. These findings point to the effect of reproductive experience and offspring on plasticity in the hippocampus, an area not traditionally associated with motherhood.

MPOA cytotoxic lesions and maternal behavior in the rat: effects of midpubertal lesions on maternal behavior and the role of ovarian hormones in maturation of MPOA control of maternal behavior

Small neurotoxin lesions in the medial preoptic area (MPOA) block maternal behavior (MB) in adults but large lesions are required to produce the same effect in juvenile rats (23-27 days of age). To study the maturation of MPOA control of MB, in Experiment I, we compared the effects of small versus large neurotoxin MPOA lesions at midpuberty (38 days of age) on MB. Midpubertal females with large MPOA lesions showed severe impairment in MB affecting retrieving, crouching, and nest building, but 85% of females with small MPOA lesions exhibited all components of MB and performed like control females without MPOA lesions. To study the role of ovarian hormones during puberty on the maturation of MPOA mediation of MB (Experiment IIA), females were ovariectomized either before or after puberty and small MPOA cytotoxic lesions were made at 53 days of age. At 60 days of age both groups showed similar deficits in MB which indicated that the maturation of the MPOA mediation of MB is not dependent on pubertal ovarian hormones. In Experiment IIB, we administered estradiol benzoate (sc) and this overcame the deficit in MB after small MPOA lesions in females that had been deprived of estrogen for shorter periods (30 days) but had not been deprived for longer periods (60 days). In addition, ovary-intact females with circulating estrogen and small lesions in the MPOA at 53 days of age did not show deficits in MB.

Estrogen, progesterone, and pregnancy termination alter neural activity in brain regions that control maternal behavior in rats

Estrogen stimulates maternal behavior in rats, but does so most potently when its administration is temporally coupled with the termination of pregnancy. In contrast, this effect of estrogen is blocked when subjects are administered a large dose of progesterone concurrent with estrogen. The current study was performed to examine the neural circuitry influenced by these treatments and pup presentation during the hormonally-mediated onset and inhibition of maternal behavior. In experiment I, estrogen induced c-Fos immunoreactivity (Fos-IR) in the medial preoptic area (MPOA) in virgin rats, but was much more effective when administered to pregnancy-terminated rats, suggesting that pregnancy termination increases MPOA's susceptibility to the physiological effects of estrogen. In experiment II, administering progesterone concurrently with estrogen in pregnancy-terminated rats strongly inhibited estrogen-stimulated Fos-IR in the MPOA, indicating that the physiological effects of estrogen on the MPOA are blocked if high progesterone levels are maintained. In experiment III, pregnancy-terminated subjects were administered estrogen, progesterone, or both hormones and presented with pups for 2 h. Approximately half of the subjects administered estrogen alone showed maternal behavior, but subjects receiving the other treatments were not maternal. In the MPOA, ventral bed nucleus of the stria terminalis (BSTv), and dorsal and intermediate lateral septum (LSd,i), maternal subjects showed the highest levels of Fos-IR, whereas subjects treated with progesterone alone or progesterone in combination with estrogen showed low levels of Fos-IR. These experiments suggest that estrogen could promote maternal behavior by enhancing pup-stimulated activity in the MPOA, BSTv, and LSd,i, regions believed to constitute the neural circuit that promotes maternal behavior, whereas progesterone could inhibit maternal behavior by inhibiting neural activity in some of these regions.

Lactogenic hormone regulation of maternal behavior

Biological factors can profoundly affect a mother's response to her young. For example, it is well known that the hormones of pregnancy act on the maternal brain to stimulate the spontaneous onset of maternal behavior at parturition. Studies in the rat have provided an excellent model to investigate maternal behavior in mammals, since maternal behavior in rats is easily observable and readily quantifiable and it is well-documented that the endocrine state of gestation helps to bring about the onset of maternal behavior around the time of birth. The same response in virgin animals requires a number of days of constant exposure to pups before maternal-like behaviors emerge. To date, research has established that the steroid hormones, estradiol and progesterone, and the lactogenic hormones, prolactin and the placental lactogens, act in concert to stimulate maternal behavior in the pregnant female. Treatment of adult, virgin rats with these hormones can stimulate a rapid onset of maternal care. In the present chapter experiments are described that demonstrate key roles for prolactin and placental lactogens in the onset of maternal behavior. Central sites of action of prolactin and placental lactogens, including the medial preoptic area, appear to be involved in stimulating the onset of maternal care. Other studies are discussed which support the involvement of the prolactin receptor in the endocrine regulation of maternal behavior using prolactin receptor antagonist and 'knock-out' models in rats and mice, respectively. Overall, these studies indicate that during pregnancy the endocrine system primes the mother's brain so that the new mother displays appropriate and successful behaviors toward her newborn at parturition.

Estradiol alleviates depressive-like symptoms in a novel animal model of post-partum depression

The effect of hormone withdrawal following hormone-simulated "pregnancy" on "depressive-like behavior" in the Forced Swim Test (FST) was investigated in female Long-Evans rats. Females were randomly assigned to "pregnant", "pregnant"+estradiol benzoate (EB), and control groups. Both the "pregnant" and "pregnant"+EB groups received daily injections of the hormones estradiol and progesterone to simulate the 23-day gestational period in the rat. However, the "pregnant"+EB group continued to receive daily estradiol injections after "pregnancy". All groups were tested 48 h after the last injection of the pregnancy period in the FST and subsequently in the Open Field Test (OFT). Results revealed that the "pregnant" rats exhibited significantly increased immobility and decreased struggling and swimming behaviors as compared to the "pregnant"+EB and control groups. These findings could not be explained by an overall depression in general locomotor activity among "pregnant" rats, as the "pregnant" rats made more area crossings in the OFT. Thus "pregnant" rats exhibited behaviors consistent with "depressive-like" symptoms "post-partum" (after their hormone regime was discontinued). Continual treatment with high levels of estradiol in the "pregnant"+EB group, however, reversed the exhibition of these behaviors. These results imply that withdrawal from chronic high levels of pregnancy-associated hormones (estradiol and progesterone) can produce depressed symptomology in rodents, which can be prevented by prolonging exposure to high levels of estradiol through the post-partum period. These findings are the first demonstration of "depressive-like" symptoms in a rodent model of post-partum pregnancy and the ability of high levels of estradiol to attenuate these "depressive-like" symptoms.

Expression of intracellular progesterone receptors in rat brain during different reproductive states, and involvement in maternal behavior

Progesterone is one of a complex of hormones which influences the occurrence of maternal behavior in rats. The present study provides information on progesterone's mechanism and possible neural site(s) of action with respect to maternal responsiveness. Progesterone can exert cellular effects by acting on membrane receptors or by acting on intracellular receptors. In the first experiment we show that RU 486 can antagonize progesterone's inhibitory effect on maternal behavior. Since RU 486 acts as an antagonist to progesterone's action at its intracellular receptor, these results support the involvement of that receptor in maternal behavior control. The second experiment employs immunocytochemical techniques to detect the number of cells in various forebrain regions which contain intracellular progesterone receptors during different reproductive states. The number of cells which contained progesterone receptors was higher toward the end of pregnancy (progesterone is presumably exerting its effects on maternal behavior at this time) when compared to either early pregnancy or lactation in the following forebrain regions: anteroventral periventricular nucleus of the preoptic area; medial preoptic area; ventral part of the bed nucleus of stria terminalis; ventrolateral division of the ventromedial nucleus; arcuate nucleus; anterior paraventricular nucleus of the hypothalamus; and medial amygdala. The possible involvement of these regions as a site or sites where progesterone might exert its effects on maternal behavior is discussed.

Estrogen implants in the lateral habenular nucleus do not stimulate the onset of maternal behavior in female rats

The natural onset of maternal behavior in the rat is hormonally mediated. Estrogen, progesterone, and prolactin administered to ovariectomized females in amounts and sequences that produce circulating levels similar to those found during pregnancy stimulate the onset of maternal behavior. In fact, maternal behavior can be stimulated by estrogen alone, administered either peripherally or by implant in the central nervous system. The lateral habenula (Lhb), which is a necessary component in the neural circuit that supports maternal behavior, contains a subset of neurons with estrogen receptors. The present study investigated whether estradiol implants directly in the Lhb are sufficient to stimulate maternal behavior. Female rats, hysterectomized and ovariectomized on day 16 of pregnancy, received estrogen implants in the Lhb or, as a positive control, in the medial preoptic area (MPOA). An additional control group received cholesterol implants in the Lhb. All females were tested for pup retrieval, nest building, crouching behavior, locomotor activity, and carrying behavior. Estradiol implants into the Lhb did not stimulate the onset of maternal behavior. Females with estrogen implants in the Lhb scored significantly lower in pup retrieval and crouching behavior compared to females with implants in the MPOA and were not significantly different from females with cholesterol implants in the Lhb. There were also no significant differences in overall activity or carrying behavior among the groups.

Evolutionary change in the endocrinology of behavioral receptivity: divergent roles for progesterone and prolactin within the genus Phodopus

Siberian (Phodopus sungorus) and Djungarian (P. campbelli) hamsters are phenotypically similar and were long considered subspecies. Progesterone (P4) and prolactin (PRL) changes (determined by repeated sampling of individuals) during the behavioral receptivity of both an ovulatory cycle and a postpartum mating, as well as the hormonal requirements for behavioral receptivity, were determined. Changes in P. sungorus were similar to well-described hormonal changes in rats, mice, and golden hamsters, suggesting that previously described differences between P. campbelli and those species had evolved recently. Specifically, 1) P4 facilitated behavioral receptivity at low priming doses of estradiol in P. sungorus but was not needed in P. campbelli; 2) in P. sungorus, P4 increases were synchronous across females and of similar amplitude during each estrus, whereas in P. campbelli, P4 increases were less synchronous across females and were reduced in amplitude postpartum; and 3) PRL profiles were similar (high average PRL levels, few high surges detected) in each species on Day 18, but on proestrus, cyclic P. sungorus had elevated PRL levels and frequent surges while cyclic P. campbelli had lower PRL levels and rare surges. As the endocrinology of P. campbelli also differs from known laboratory rodents in other ways, additional within-genus divergence is predicted.

Brain substrates of infant-mother attachment: contributions of opioids, oxytocin, and norepinephrine

The aim of this paper is to review recent work concerning the psychobiological substrates of social bonding, focusing on the literature attributed to opioids, oxytocin and norepinephrine in rats. Existing evidence and thinking about the biological foundations of attachment in young mammalian species and the neurobiology of several other affiliative behaviors including maternal behavior, sexual behavior and social memory is reviewed. We postulate the existence of social motivation circuitry which is common to all mammals and consistent across development. Oxytocin, vasopressin, endogenous opioids and catecholamines appear to participate in a wide variety of affiliative behaviors and are likely to be important components in this circuitry. It is proposed that these same neurochemical and neuroanatomical patterns will emerge as key substrates in the neurobiology of infant attachments to their caregivers.

Estrogen implants in the medial preoptic area stimulate maternal behavior in male rats

The present study investigated whether the medial preoptic area (MPOA) mediates estrogen stimulation of maternal behavior in the male as it does in the female. Previous studies have shown that lesions of the medial preoptic area prevent sensitization of maternal behavior in male rats and that in gonadectomized, hormonally primed males, systemically administered estradiol benzoate stimulates short-latency maternal behavior. These findings are similar to those found in females. In the present study adult males were gonadectomized and hormonally primed with subcutaneously implanted capsules of estradiol (Days 1-16) and progesterone (Days 3-15) and then were stereotaxically implanted bilaterally in the MPOA with implants containing 10% estradiol. Tests with young pups were started 48 h later and continued for 10 days (11 tests). Control groups were implanted in the MPOA with cholesterol or were injected subcutaneously with estradiol benzoate (100 microg/kg). Estradiol implanted males had shorter latencies for maternal behavior (retrieving, crouching, licking pups) than cholesterol implanted males, but their latencies were slightly longer than those of estradiol benzoate injected males. The medial preoptic area, therefore, mediates estrogen stimulation of maternal behavior in males as it does in females.

Effects of acute and long-term domperidone treatment on prolactin and gonadal hormone levels and sexual behavior of male and female rats

Domperidone (DOMP), a dopamine D2 blocker that is unable to cross the blood-brain barrier, is an experimental tool used to induce hyperprolactinemia. Acute and long-term DOMP administration was tested in male and female rats for its effects on sexual behavior and plasma gonadal hormone levels. DOMP (4.0 mg/kg) was injected I.P. either acutely or daily for 30 days. Acute treatment failed to modify any behavioral parameter observed. The 5-day treatment stimulated and the 30-day treatment failed to inhibit sexual behavior of male rats. Serum testosterone levels were significantly reduced after 30 days of treatment in male rats. The 30-day treatment also inhibited sexual behavior and enhanced plasma progesterone levels in ovariectomized and intact female rats, respectively. The present results may be due to DOMP-induced long-term hyperprolactinemia. Alternatively, blockade of dopamine peripheral receptors induced by this treatment may also be responsible for the behavioral changes reported here. Moreover, these data suggest that female rats are more susceptible than males to the behavioral effects of long-term hyperprolactinemia.

The action of oxytocin originating in the hypothalamic paraventricular nucleus on mitral and granule cells in the rat main olfactory bulb

The effects of electrical stimulation of the hypothalamus paraventricular nucleus on the spontaneous firing of mitral and granule cells in the main olfactory bulb were examined in ovariectomized female rats under urethane anaesthesia. High-frequency stimulation (0.5-1.0 mA, 10-20 pulses at 100 Hz) of the paraventricular nucleus produced inhibitory responses in 80% of mitral cells tested and excitatory responses in 74% of granule cells tested, with latencies ranging from 2 to 150 s. Both responses were blocked by infusions into the olfactory bulb of [d(CH2)5, Tyr(Me)2]ornithine-vasotocin (10 pmol), an oxytocin antagonist, and mimicked by intracerebroventricular infusions (0.2 or 0.4 nmol) or microiontophoretic applications of oxytocin but not by intracerebroventricular infusions of vasopressin (1 or 2 nmol). Infusions of 0.5% lignocaine, a local anaesthetic, into either the medial olfactory tract or the medial forebrain bundle failed to block the responses of mitral and granule cells to the stimulation. Unilateral transections at various levels between the bulb and the paraventricular nucleus also failed to block the responses. There were cases in which significant responses of mitral and granule cells to the stimulation required 60 or more pulses after the lignocaine infusions or transections, however. These results suggest that oxytocin originating in the hypothalamic paraventricular nucleus reaches the olfactory bulb following its release partly into the cerebrospinal fluid and acts to decrease olfactory processing.

The psychobiology of parenting in mammals

Parental behavior denotes a variety of genetically programmed activities in which parents help their young to survive to maturity. A highly successful research has been devoted to the psychoneuroendocrine bases of parenting in two species, rat and sheep. As a result empirical data along with conceptual formulations have been obtained which provide a model for generating hypothesis for the study of other species. This review was written to draw the attention to this research because of its enormous potential significance for problems pertaining to human infant care. It discusses the current status of research on the physiological bases of parental behavior.

Neural and endocrine sensitivities to opioids decline as a function of multiparity in the rat

Hormonal changes during pregnancy regulate the onset of maternal behavior at parturition. In addition, the concentrations of beta-endorphin and mu opioid receptors are higher during pregnancy and lower during lactation. Previous studies have shown that sensitivity of female rats to the disruptive behavioral effects of morphine changes as a function of the number of pregnancies and/or lactations the females undergo. The objectives of the present study were to determine whether central infusions of the endogenous opioid, beta-endorphin, would disrupt maternal behavior. Next, we investigated the possibility that the neural sensitivity to beta-endorphin changes with repeated pregnancies. And finally, we examined whether opioid-mediated endocrine responses also change as a function of multiparity. In the first study, bilateral infusions of low doses (0.06-0.72 nmol) of beta-endorphin into the medial preoptic area (MPOA) of lactating, primiparous rats disrupted maternal behavior. When comparable doses of beta-endorphin were infused into the MPOA of age-matched, multiparous rats, the behavioral effects of beta-endorphin were significantly attenuated. In response to suckling stimulation, an opioid-mediated endocrine response, primiparous mothers secreted more prolactin than did multiparous rats. Moreover, multiparous, but not primiparous, mothers were insensitive to the ability of naloxone, an opiate antagonist, to block suckling-induced increases in prolactin. These findings indicate that reductions in neural sensitivity to opioids develop as females undergo repeated pregnancies and lactations, changes which affect both behavioral and endocrine functions.

Prolactin stimulates dopamine release from the rat corpus striatum in the absence of extra-cellular calcium

Prolactin (PRL) increased basal dopamine (DA) release and attenuated amphetamine (AMPH)-stimulated DA release in vitro from rat corpus striatum in a concentration-dependent manner with 10(-5) M PRL being the most effective. The effects of PRL on DA release were enhanced in the absence of extracellular calcium. PRL at 10(-5) M did not alter the DA post-superfusion content of the striatal tissue. These results indicate that the stimulatory effect of PRL on basal DA release does not require extra-cellular calcium and the inhibitory effect on AMPH-stimulated DA release is not due to depletion of DA stores.

Central prolactin infusions stimulate maternal behavior in steroid-treated, nulliparous female rats

A series of experiments were conducted to determine whether and under what conditions central prolactin (PRL) administration would stimulate the onset of maternal behavior in female rats and to identify possible neural sites of PRL action. In each experiment ovariectomized, nulliparous rats whose endogenous PRL levels were suppressed with bromocriptine were tested for maternal behavior toward foster young. In experiments 1, 2, and 4, females were also exposed to pregnancy-like levels of progesterone (days 1-11) followed by estradiol (days 11-17). In experiment 1 infusions (days 11-13) of four doses of ovine PRL (400 ng, 2 micrograms, 10 micrograms, or 50 micrograms, but not 80 ng) into the lateral ventricle resulted in a rapid onset of maternal behavior (behavioral testing, days 12-17). The stimulatory action of these doses of PRL appears to be central, since subcutaneous injections of 50 micrograms of ovine PRL failed to affect maternal responsiveness (experiment 2). Experiment 3 indicated that the stimulatory effect of intracerebroventricularly administered PRL is steroid dependent. Infusions of either 10 micrograms of ovine PRL or 10 micrograms of rat PRL failed to induce maternal behavior in nonsteroid-treated animals. In the final experiment (no. 4) bilateral infusions of 40 ng of ovine PRL into the medial preoptic area of steroid-treated rats resulted in a pronounced stimulation of maternal behavior. These findings demonstrate a central site of PRL action in the stimulation of maternal responsiveness and point to the medial preoptic area as a key neural site for PRL regulation of maternal behavior.

Experience-hormone interactions and maternal behavior in rats

Three studies were conducted to determine the effects of reproductive condition and hormonal background on the acquisition and retention of a prior maternal experience. In the first study five experience conditions were compared. All animals gave birth and received either no postpartum contact with pups or 1/2 hr, 1 hr, 2 hr or 24 hr of pup contact and were tested for maternal behavior 10 days later. Animals receiving pregnancy and parturitional experience, but minimal social experience with young, exhibited significantly longer maternal onset latencies than did groups receiving 2 or 24 hr of prior experience; also, comparisons of 10- and 30-day retention intervals indicated that animals tested 10 days after a 24-hr experience exhibited shorter latencies than those tested 30 days later. Thus, the duration of the postpartum experience and the interval since prior experience both affect the level of maternal responsiveness shown. In the second study six groups of females were tested. Four groups were permitted one day of interaction with pups either after parturition (primiparous animals) or following pup induction procedures (nulliparous animals) and were tested for their maternal responsiveness to foster pups 25-35 days later, either on day 19 of a subsequent pregnancy or following resumption of estrous cycling. For most measures of maternal behavior there were significant main experience and test effects; experienced and pregnant animals exhibited shorter latencies to retrieve, lick and crouch over pups than did inexperienced and cycling animals, respectively. Significant interactions were also found for genital licking latency as well as for retrieval and crouch frequencies.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of maternal hormones on 'timidity' and attraction to pup-related odors in female rats

The present study was designed to determine whether changes in 'emotionality' and responses to odorants that occur in the postpartum rat are due to the same configuration of hormones that facilitate the expression of maternal behavior. Ovariectomized females were implanted with silastic capsules containing progesterone and estradiol or cholesterol for a 19-21 day period and were tested 1 or 7 days later for emergence behavior, ambulation in the open-field and responses to nesting-material containing different odorants. All females were given two tests in which clean nest-material was presented and two with lactating nest material. In comparison to cholesterol animals hormonally primed animals emerged more rapidly into the open-field, crossed more squares while in the field and spent more time around the odor stimulus. Moreover, hormonally primed animals crossed more squares in the region around the odor source when lactating nest odor was present than when it was not and, under the lactating nest odor condition, crossed more squares in the stimulus region than did any other group. This study suggests that the Bridges' regimen of progesterone and estradiol reduces general 'timidity,' reflected in open-field performance, and increases attraction to pup-related odors. These hormone-induced behavioral changes may well contribute to the heightened maternal responsiveness also produced by these hormones.

Ovarian hormone-induced short-latency maternal behavior in ovariectomized virgin Long-Evans rats

Two ovarian hormone regimens reported to induce rapid-onset maternal behavior (MB) in maternally naive virgin, ovariectomized Sprague-Dawley (SD) albino rats (R. S. Bridges, 1984, Endocrinology 114, 930-940; A. L. Giordano, 1987, Doctoral Dissertation, Rutgers University, Newark, NJ) were assessed in Long-Evans (LE) hooded rats, a strain which tends to be less maternally responsive in various situations dissociated from parturition. The combination of sufficiently high and long-lasting treatments with estradiol (E, 10-mm Silastic capsule, sc, on Day 1) and progesterone (P, 3 x 30-mm Silastic capsules, Days 3-13) resulted in a mean MB onset latency (after pup presentation on Day 14) of 1.8 days. In contrast, no-hormone or P-only controls had latencies of about 5.5 days. However, the E + P combination was completely ineffective if the E capsule was withdrawn along with the P capsules, unlike the case for SD rats. Also in contrast to the albinos, E alone was ineffective, while E treatment following P withdrawal was only partially effective. The most efficacious regimen, which included a P treatment (injections of 4 mg/day, Days 3-12 or 3-15) known to maintain pregnancy in ovariectomized rats, resulted in mean latencies of less than or equal to 1 day; 39% overall displayed MB rapidly, i.e., retrieval within 15 min of exposure to pups and crouching by 3 hr, and 89% became maternal by the next day. With this regimen, neither duration of 4 mg/day P treatment (10 or 13 days) nor hysterectomy 2 days before testing affected MB latencies. Thus, the essential features of the previously reported ovarian hormone regimens for induction of short-latency MB are efficacious in LE rats, but the hormonal requirements in this strain seem to be more precise. Factors which might contribute to an even higher percentage maternal on the first day of pup exposure are considered.

Neural transection between preoptic area and septum inhibits maternal behavior in female and male rats

Artificially-induced maternal behavior was examined in inexperienced female and male rats following neural transection between the preoptic area and the septum. Anterior roof deafferentation (ARD) of the preoptic area (POA) was performed with an L-shaped microknife. Virgin female and male rats with or without ARD were exposed to the continuous presence of normal pups to induce maternal behavior 3 weeks after surgery. ARD resulted in a significant delay of the onset of maternal behavior in females and a lack of complete development of maternal behavior in males, compared with corresponding sham-operated and intact controls. The results indicate that neural substrates dorsal to the POA play an important role in modulating the expression of maternal behavior in the rat.

Growth hormone is secreted by ectopic pituitary grafts and stimulates maternal behavior in rats

The onset of maternal behavior at parturition in rats is hormonally regulated. Recently, we reported that treatment of behaviorally inexperienced, hypophysectomized (hypox), ovariectomized (ovx) rats with a sequential steroid treatment of progesterone (P) and estradiol (E2), and either ectopic anterior pituitary grafts or prolactin (PRL), stimulated maternal responsiveness toward foster young. That growth hormone (GH) has a number of PRL-like activities led us to ask whether the actions of PRL on maternal behavior were specific to PRL or might be shared by other PRL-like protein hormone, i.e., GH. In Experiment 1 we quantified plasma concentrations of GH and PRL by RIA in groups of hypox female rats that were ovariectomized and treated with a combination of ectopic pituitary grafts (Days 1-23) and Silastic capsules filled with P (Days 1-11) and E2 (Days 11-23). Blood samples were collected from Days 1 to 23 of treatment. Both plasma PRL and GH levels increased after grafting, initially rising 10- to 60-fold by Day 4 and gradually declining throughout the remainder of the 23-day sampling period. Throughout the 3-week period after grafting plasma GH levels were as high or higher than those of PRL. In Experiment 2 the behavioral effects of exogenously administered ovine (o)-GH were measured in groups of hypox, ovx rats that were treated with P and E2 as in Experiment 1. Experimental rats were injected twice daily with 0.25 mg oGH beginning on Day 1. Testing for maternal behavior toward foster young was conducted daily from Day 12 to Day 22. In steroid-treated rats, GH treatment stimulated a more rapid onset of maternal behavior (latencies of 3 vs greater than 10 days for vehicle-injected controls). These data indicate that GH, like PRL, is secreted by ectopic pituitary grafts and is capable of stimulating maternal behavior.

Testicular hormones reduce individual differences in the aggressive behavior of male mice: a theory of hormone action

A chronology of theoretical development in studies of the role of testicular hormones in murine aggression is presented. Evidence which brings into question the generality of current theory is reviewed, and the implications of this evidence for the direction of future research are discussed. A new method by which to characterize individual differences in aggressive behavior is described, and recent data which provide the basis for the development of a new theory are presented. It is theorized that testicular hormones reduce individual differences in the aggressive behavior of male mice, and that this behavioral "homogenization" is mediated by a testicular-hormone regulated "discrimination mechanism," possibly localized within the mouse olfactory system. The generality of this theory and the implications for other hormone/behavior systems are also discussed.

Antagonism of behavioral effects of bromocriptine by prolactin in female cats

The effects of the dopaminergic agonist bromocriptine (BC) and exogenously administered prolactin (PRL) on the spontaneous behavior of female cats were investigated. The objective was to test whether BC-induced behavioral effects may be antagonized by PRL. BC (6 mg/kg ip) administration induced abnormal behaviors such as limb flicks, abortive grooms, head/body shakes, and hallucinatory-like behavior/escape as well as excessive grooming. PRL (5 mg/kg ip) administration induced biphasic changes in grooming. The first change was an increase in grooming frequency averaging 256% of baseline control values and lasting for 1 h. This change was followed by reductions in grooming of 75 and 82.5% below baseline during Hours 2 and 3 postinjection, respectively. Combined BC and PRL treatment antagonized the frequency of BC-induced motor effects such as limb flicks, abortive grooms, and head/body shakes. Limb flicks occurred nine times more often 2 h after BC alone than after BC and PRL. The combined treatment also antagonized the excessive grooming observed after separate administrations of BC and PRL. The observed interactions between PRL and BC behavioral effects support the notion that PRL may be an important modulator of dopamine-dependent motor behavior in female cats.

Hormonal influences on the duration of postpartum maternal responsiveness in the rat

These studies investigated the role of gestational hormones in controlling the duration of the postpartum period of elevated maternal responsiveness in rats. In the first study, females had pregnancies terminated by Caesarean section, and had ovaries removed on day 16 or 22 of pregnancy. Removal of the ovaries did not prevent the sustaining of an elevated maternal responsiveness for 7 days after pregnancy termination on either day. In the second study, changes in concentrations of estrogen and progesterone during pregnancy, and following parturition, were determined by radioimmunoassay. Levels of these hormones postpartum were found to decline to virgin levels by 7 days postpartum and could not therefore explain the elevated maternal behavior seen at this time. In the third study, ovariectomized virgins were given a pregnancy-mimicking schedule of estradiol and progesterone, with and without prolactin, and were tested for maternal behavior 2 and 7 days later. A 22-day estradiol-progesterone schedule induced rapid maternal behavior within 2 days, but did not sustain it for 7 days. Adding prolactin to the 22-day estradiol-progesterone schedule sustained some components of maternal behavior, notably nest-building and retrieval, but not maternal behavior as a whole.

Experience with pups sustains maternal responding in postpartum rats

In these studies, we investigated the sustaining of postpartum maternal responsiveness through pup experience. In the first study, females were tested for maternal behavior at various times after pregnancy termination by Caesarean section (CS) at term. The females remained rapidly responsive to young for 7 days after pregnancy termination, but were no more responsive than virgins after 10 days. In the second study, females were allowed varying times of complete access to pups, beginning 24 hours after CS, and were tested for maternal behavior 10 days later. Females who retrieved and cared for pups for 30 minutes during exposure, remained rapidly maternal 10 days after CS; those who were allowed only 15 minutes of caring for pups did not. In the third study, females received 24 hours of exposure to distal sensory stimuli from pups, beginning 24 hours after CS. The proportion of females who became maternal within 24 hours of the beginning of maternal testing, 10 days after CS, was greater than that among females who received no exposure to pups.

Affect and nurturance: mechanisms mediating maternal behavior in two female mammals

This review will discuss hormonal and psychological factors involved in the initiation and maintenance of maternal behavior during the postpartum period in rat and human mothers. Research on primiparous rats suggests that among the ways hormones act to promote maternal responsiveness are by increasing the mother's attraction to odors of young pups, decreasing her natural neophobia and fearfulness, and increasing the ease with which experiences obtained during initial mother-young contacts are retained. Long-term maintenance of elevated maternal responsiveness in the rat is not directly under hormonal control but instead depends on a minimal period of direct interaction with young during the early postpartum. In human first-time mothers, the onset of maternal responsiveness is also directly affected by their mood state as well as their attraction to infants; these factors are, in turn, influenced by the amount of prior experience women have had caring for young. While the role of hormones in mediating maternal behavior in women is still unclear, initial results indicate they may facilitate responsiveness during the puerperium.

The importance of vaginal-cervical stimulation for maternal behaviour in the rat

Non-parturient female rats were primed with oestrogen and given 5 minutes of vaginal-cervical stimulation before foster pups were introduced to them. Virgin and multiparous Wistar rats were used and half the females were ovariectomised. Half of each group was given vaginal-cervical stimulation and the other half was handled for the same time period. An animal was designated "maternal" if it showed all components of maternal behaviour (i.e., retrieving, licking, and crouching). A group of normal, parturient females was observed to compare their normal maternal behaviour with that of experimental animals. Significantly more intact multiparous females showed immediate maternal behaviour after stimulation (75%) than after handling (30%, p less than 0.04). However, virgin females showed no maternal behaviour in response to vaginal-cervical stimulation. This study shows that sensory input from the vagina plays an important role in the immediate induction of maternal behaviour, but this effect is synergistic with that of hormones and experience.

Maternal behavior in cyclic and androgenized female rats: role of ovarian hormones

A comparative study on the induction of maternal behavior (MB) in response to pups was carried out in cyclic and androgenized rats. Moreover, the effects of exposure to ovarian hormones on the induction of MB in response to pups were studied in cyclic and androgenized rats. A high percentage of androgenized and proestrus rats displayed MB after 48 hr of exposure to pups (87.9% and 87.5% respectively). Diestrus day-1 rats were significantly less maternal (37.5%). Ovariectomy did not impair MB in androgenized rats. High serum progesterone levels induced in androgenized rats by treatment with 10 I.U. of HCG (40 hours before pup presentation) or with progesterone silastic implants prevented the onset of MB. Ovariectomy performed 8 hours before HCG administration restored MB. When behavioral testing began 72 hours after HCG treatment, 75% of the rats were maternal 12 hr after exposure to pups. This rapid onset of MB in proestrus and androgenized rats appeared to be estrogen dependent. The presence of progesterone inhibited the maternal response of androgenized rats.

Prolactin stimulation of maternal behavior in female rats

Inexperienced, hypophysectomized female rats treated with steroids were used in experiments to investigate the roles of the pituitary gland and prolactin in the expression of maternal behavior. Administration of ovine prolactin or treatment with ectopic pituitary grafts, which release prolactin into the circulation, stimulated maternal care in these females toward rat young. Steroid treatment alone, while stimulating maternal behavior in rats with intact pituitary glands, did not facilitate maternal responsiveness in hypophysectomized females. These findings indicate a stimulatory behavioral role for pituitary prolactin in the establishment of maternal care and suggest that exposure to prolactin during pregnancy helps to stimulate the immediate onset of maternal behavior at parturition.

The role of progesterone in pregnancy-induced aggression in mice

A series of six experiments was performed in order to explore the potential involvement of progesterone (P) in pregnancy-induced aggression (PIA) displayed by Rockland-Swiss mice toward adult male intruders. In Experiment 1, circulating levels of P and aggression were low on gestation Days 6 and 10 while both the behavior and the steroid reached peak levels by gestation Day 14. By gestation Day 18 (the day prior to parturition), serum P was at its lowest level yet aggressive behavior was still intense. Also, individual differences in the display of fighting behavior by pregnant females were not related to circulating P. Experiments 2 and 3 showed that supplemental P treatment to early pregnant female mice did not advance the onset of aggression. Experiment 4 showed that P treatment promoted the onset and elevated the incidence of aggression in virgin mice, but only in those females with intact ovaries. Experiment 5 showed that the aggressive behavior of P-stimulated virgin females was qualitatively and quantitatively different from that exhibited by pregnant mice in that the former exhibited fewer attacks and lunges than the latter. Finally, Experiment 6 showed that the removal of P from aggressive, P-stimulated virgins dramatically attenuated levels of the behavior. This contrasts sharply with the continued fighting behavior observed in late pregnant P-deficient mice. Thus, although P augments aggression in female mice it apparently is not a sufficient stimulus for producing pregnancy-like aggressive behavior.

Behavioral effects of progestin in the brain

In this article we review research on the role of progestins in the regulation of estrous responsiveness in female rats. Estrous responsiveness normally results from a synergistic action of estradiol (E2) and progesterone (P). E2 primes the system but normally does not result in estrous behavior. The full expression of estrous responsiveness results from the action of P on the E2-primed system. It has been demonstrated with implants of dilute E2 (1 part E2: 250 parts cholesterol) that the site of E2 priming is the ventromedial nucleus of the hypothalamus (VMN). In females primed with systemically administered E2, P also acts on the VMN to facilitate full estrous responsiveness. It has been shown in addition that estrous responsiveness results from sequential application of E2 and P to the VMN but not to other areas of the brain. The VMN is also the site at which P produces sequential inhibition of estrous responsiveness. The time course of P action in facilitating full estrous responsiveness is about two hours, regardless of whether the hormone is administered intracerebrally or intravenously. The duration of estrous responsiveness is directly correlated with the length of time P is in contact with brain tissue. Experiments with the protein synthesis inhibitor anisomycin are consistent with the view that P acts in the VMN by way of a protein synthetic mechanism to facilitate estrous behavior; however, other mechanisms must be considered as alternatives. Finally, we address the question of whether estrogenic priming depends upon induction of progestin receptors in the VMN. Results indicate that estrogenic priming of estrous responsiveness may occur without concomitant induction of progestin receptors.