Induction of excessive grooming in the rat by fragments of lipotropin

60 YEARS OF POMC: Lipotropin and beta-endorphin: a perspective

Many important fields of research had a humble origin. In the distant past, A J P Martin's discovery that amino acids could be separated by paper chromatography and Moore and Stein's use of columns for quantitative amino acid analysis provided the first steps towards the determination of structure in complex biologically active molecules. They opened the door to reveal the essential relationship that exists between structure and function. In molecular endocrinology, for example, striking advances have been made by chemists with their expertise in the identification of structure working with biologists who contributed valuable knowledge and experience. Advantage was gained from the convergence of different background, and it is notable that the whole is greater than the sum. In the determination of structure, it may be recalled that four of the world's great pioneers (Archibald Martin, Rodney Porter, Fred Sanger and Vincent du Vigneaud) were acknowledged for their fundamental contributions when individually they were awarded the Nobel Prize. They foresaw that the identification of structure would prove of outstanding importance in the future. Indeed, study of the structures of β-endorphin and enkephalin and the different forms of opiate activity they engender has led to a transformation in our understanding of chemical transmission in the brain.

Reward associated with singing behavior correlates with opioid-related gene expression in the medial preoptic nucleus in male European starlings

Birdsong consists of species-specific learned vocal sequences that are used primarily to attract mates and to repel competitors during the breeding season. However, many birds continue to sing at times when vocal production has no immediate or obvious impact on conspecific behavior. The mechanisms that ensure that animals produce important behaviors in contexts in which the function of these behaviors is not immediate or obvious are not known. One possibility is that animals engage in such behaviors because they are associated with pleasure. Here we examined the hypothesis that male European starlings sing outside of the breeding season in part because the act of singing in this context is facilitated and/or maintained by opioid-mediated reward. We measured song-associated reward using a conditioned place preference (CPP) test in male starlings producing fall, non-breeding season-typical song. We used quantitative real time PCR to measure expression of the enkephalin opioid precursor preproenkephalin (PENK) and mu opioid receptors (MOR) in the medial preoptic nucleus (POM; a region in which opioids are implicated in both reward and starling fall song) and additionally the song control region HVC as a control. Starlings developed a strong preference for a place that had been paired previously with the act of producing fall-typical song, indicating that fall song production was associated with a positive affective state. Both PENK and MOR mRNA expression in the POM, but not HVC, correlated positively with both individual reward state (as reflected in CPP) and undirected singing behavior. These results suggest that singing induces opioid receptor and enkephalin expression in the POM and consequent reward, and/or that opioid release in the POM induced by individual or environmental factors (e.g., the presence of food, safety of a flock or the absence of predators) induces a positive affective state which then facilitates singing behavior.

Melanocortin MC(4) receptor-mediated feeding and grooming in rodents

Decades ago it was recognized that the pharmacological profile of melanocortin ligands that stimulated grooming behavior in rats was strikingly similar to that of Xenopus laevis melanophore pigment dispersion. After cloning of the melanocortin MC1 receptor, expressed in melanocytes, and the melanocortin MC4 receptor, expressed mainly in brain, the pharmacological profiles of these receptors appeared to be very similar and it was demonstrated that these receptors mediate melanocortin-induced pigmentation and grooming respectively. Grooming is a low priority behavior that is concerned with care of body surface. Activation of central melanocortin MC4 receptors is also associated with meal termination, and continued postprandial stimulation of melanocortin MC4 receptors may stimulate natural postprandial grooming behavior as part of the behavioral satiety sequence. Indeed, melanocortins fail to suppress food intake or induce grooming behavior in melanocortin MC4 receptor-deficient rats. This review will focus on how melanocortins affect grooming behavior through the melanocortin MC4 receptor, and how melanocortin MC4 receptors mediate feeding behavior. This review also illustrates how melanocortins were the most likely candidates to mediate grooming and feeding based on the natural behaviors they induced.

Gamma-melanotropin and brain function

In view of the close structural similarity between the pro-opiocortin fragment, gamma-MSH, and ACTH/MSH-type peptides, the behavioural profile of gamma-MSH was explored. Attention was first focused on behavioural procedures in which ACTH/MSH-related neuropeptides have been found effective. It was found that gamma-MSH and ACTH-like neuropeptides had opposite effects on avoidance behaviour. In this respect the activity of gamma-MSH resembles that of opiate antagonists rather than that of beta-endorphin. Accordingly, ACTH(1-24) induced excessive grooming which is blocked by opiate antagonists and is attenuated by gamma-MSH. In addition, gamma-MSH injected into the periaqueductal grey matter of the brainstem of opiate-naive rats elicited symptoms reminiscent of those seen after opiate withdrawal. Gamma-MSH attenuated several effects of intracerebroventricularly administered beta-endorphin (e.g. antinociception, hypothermia, alpha-MSH release) and decreased the acquisition of heroin self-administration. Although gamma-MSH at rather high doses displaced naloxone from its specific binding sites in brain homogenates, it did not interfere with beta-endorphin-induced effects on in vitro muscle preparations (guinea-pig ileum; rat rectum). Interestingly, gamma-MSH induced relaxation of the rat rectum in vitro. It is postulated that gamma-MSH may attenuate beta-endorphin-induced effects by acting via gamma-MSH receptor sites (functional antagonism), although a pharmacological antagonism cannot be excluded as yet.

Peptoid-peptide hybrids as potent novel melanocortin receptor ligands

All possible peptoid-peptide hybrids of an MC4 receptor agonist were synthesized and investigated on cells expressing different melanocortin (MC) receptor subtypes and for rat grooming behavior. In general, receptor selectivity remained while affinity and potency were decreased. The length of the functional group of Trp was more important for MC3 and MC5 than for MC4 receptor binding. In general, the potency of the peptoid-peptide hybrids to increase rat excessive grooming behavior correlated well with MC4 receptor pharmacology.

CNS pattern of metabolic activity during tonic pain: evidence for modulation by beta-endorphin

CNS correlates of acute prolonged pain, and the effects of partial blockade of the central beta-endorphin system, were investigated by the quantitative 2-deoxyglucose technique in unanaesthetized, freely moving rats. Experiments were performed during the second, tonic phase of the behavioural response to a prolonged chemical noxious stimulus (s.c. injection of dilute formalin into a forepaw), or after minor tissue injury (s.c. saline injection). During formalin-induced pain, local glucose utilization rates in the CNS were bilaterally increased in the grey matter of the cervical spinal cord, in spinal white matter tracts and in several supraspinal structures, including portions of the medullary reticular formation, locus coeruleus, lateral parabrachial region, anterior pretectal nucleus, the medial, lateral and posterior thalamic regions, basal ganglia, and the parietal, cingulate, frontal, insular and orbital cortical areas. Pretreatment with anti-beta-endorphin antibodies, injected i.c.v., led to increased metabolism in the tegmental nuclei, locus coeruleus, hypothalamic and thalamic structures, putamen, nucleus accumbens, diagonal band nuclei and dentate gyrus, and in portions of the parietal, cingulate, insular, frontal and orbital cortex. In formalin-injected rats, pretreated with anti-beta-endorphin, behavioural changes indicative of hyperalgesia (increased licking response) were found, which were paralleled by a significant enhancement of functional activity in the anterior pretectal nucleus and in thalamo-cortical systems. A positive correlation was found between the duration of the licking response and metabolic activity of several forebrain regions. These results provide a map of the CNS pattern of metabolic activity during tonic somatic pain, and demonstrate a modulatory role for beta-endorphin in central networks that process somatosensory inputs.

The expression of neuropeptide-induced excessive grooming behavior in dopamine D1 and D2 receptor-deficient mice

Grooming behavior in rodents has long been related to dopamine receptors in the brain. However, the relative contribution of dopamine D1-like receptors (D1 and D5) and D2-like receptors (D2, D3 and D4) in this behavior has not been established yet. Spontaneous novelty-induced grooming (as assessed with a 30-min sampling test) was reduced in knockout mice lacking the dopamine D1, receptor. Furthermore, the intracerebroventricular (i.c.v.) injection of small quantities of oxytocin, prolactin or the adrenocorticotrophic hormone 1-24 fragment, ACTH-(1-24) was followed by a diminished level of novelty-induced excessive grooming. These neuropeptides caused a sustained increase in grooming level of control animals (wild type). Interestingly, the i.c.v. injection of beta-endorphin enhanced novelty-induced grooming to a level similar in control and knockout mice. The systemic administration of the dopamine D2 receptor antagonist, sulpiride did not suppress the residual grooming activity shown by animals injected with oxytocin, prolactin or ACTH-(1-24), and did not change the behavioral expression of those injected with beta-endorphin. In contrast, the systemic administration of the opioid receptor antagonist, naloxone, totally suppressed the residual grooming activity of oxytocin-, prolactin- or ACTH-(1-24)-injected mice and of those treated with beta-endorphin. In contrast with the behavioral deficit observed in dopamine D1 receptor-deficient mice, dopamine D2 receptor-null animals showed a normal expression of spontaneous novelty-induced grooming and a high level of grooming activity induced by i.c.v. injection of oxytocin, prolactin, ACTH-(1-24) or beta-endorphin. Again, the peripheral injection of naloxone was followed by a suppression of neuropeptide-induced excessive grooming in these animals. These data suggest that dopamine D1 receptors are involved in the expression of novelty-induced grooming in mice. In contrast, dopamine D2 receptors seem not to be important for the expression of this behavior. Furthermore, neuropeptide-enhanced grooming involves dopamine D1, but not dopamine D2 receptors. However, neurotransmitters other than dopamine (e.g., endorphins) may play a supplementary role in neuropeptide-enhanced grooming in mice.

Effects of cold acclimation and central opioid processes on thermoregulation in rats

Two experiments, using centrally administered [D-Ala2-MePhe4-Gly(ol)5]enkephalin (DAMGO), a selective mu-opioid agonist, assessed the thermoregulatory consequences of cold acclimation. Experiment 1 assessed whether cold acclimation influenced DAMGO hyperthermia at room temperature. Sialo-adenectomized rats were implanted with ICV cannulae and IP Mini-Mitters. After 3 weeks of exposure to 5 degrees C (cold acclimation) or 22 degrees C (non-cold acclimation) rats were pretreated with IP naltrexone HCl (2 mg/kg b.wt.) or vehicle (0.15 M saline) and later administered a 5-microliters ICV injection of 0.15 M saline, 0.1, or 1.0 microgram DAMGO. Cold acclimation exerted little effect on core temperature but potentiated DAMGO hyperthermia in a dose-dependent, naltrexone-reversible, activity-independent manner. Experiment 2 assessed the effect these same manipulations exerted on operant escape from a convective source of mild heat (37 degrees C). Duration of heat escape increased with cold acclimation in a naltrexone-resistant manner, yet was not influenced by DAMGO in either non-cold-acclimated or cold-acclimated rats. These findings suggest that two central adaptations occur with cold acclimation: A non-mu-opioid process that increases heat sensitivity and a mu-opioid process that potentiates hyperthermia but fails to alter heat escape due to mu-opioid-mediated analgesia.

Sympathoadrenal control by paraventricular hypothalamic beta-endorphin in hypertension

The paraventricular hypothalamus regulates autonomic nerve outflow and is innervated with beta-endorphin-immunoreactive nerve terminals. This study examined the effects of beta-endorphin microinjected into the paraventricular hypothalamus on blood pressure, heart rate, and plasma catecholamine and glucose concentrations in conscious, unrestrained spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats at the age of about 9 weeks. Thirty minutes after paraventricular hypothalamic injection of [125I] beta-endorphin (3.5 micrograms), most of the recovered radioactivity was detectable within +/- 0.5 mm from the injection site in the coronal, sagittal, and horizontal planes. Unilateral paraventricular hypothalamic injections of beta-endorphin (1 and 0.1 microgram/0.1 microliter) increased blood pressure and heart rate in both strains in a dose-independent manner with significantly greater increases in SHR. Plasma catecholamine and glucose concentrations were measured 15, 30, and 60 minutes after beta-endorphin injection. Norepinephrine concentrations were not significantly altered in WKY rats but increased in SHR. Epinephrine concentrations increased in both strains with significantly greater increases in SHR. Increases in catecholamine concentrations were not dose-related. Glucose concentrations also increased in both strains with significantly greater increases in SHR only at the lower dose. Ganglionic blockade with pentolinium significantly reduced beta-endorphin-induced pressor and tachycardiac responses in SHR. Pretreatment of the paraventricular hypothalamus with naltrexone (1.1 micrograms) in SHR blocked the initial pressor and tachycardiac responses to beta-endorphin (0.1 microgram) and blunted increases in epinephrine and glucose levels. When the animals were anesthetized with alpha-chloralose 2-5 days after the study in conscious animals, there were no differences in blood pressure or heart rate between strains after beta-endorphin (0.1 microgram) injection. The results indicate that conscious SHR show enhanced cardiovascular and sympathoadrenal responses to beta-endorphin injected into the paraventricular hypothalamus, suggesting that alterations in the activity of the paraventricular hypothalamic beta-endorphin system can modulate the development of hypertension in SHR.

Acute intracerebroventricular injections of the mast cell degranulator compound 48/80 and behavior in rats

The intracerebroventricular (ICV) injection of the mast cell degranulator Compound 48/80 (2.5-2.0 micrograms/kg) produced a marked behavioral syndrome in normotensive rats. The behaviors included head and body shakes, paw tremor, excessive grooming, unusual posture and gait, mild diarrhoea, piloerection, extreme agitation and irritability to touch, and a later phase of sedation. The highest doses (15 and 20 micrograms/kg) also produced catalepsy and episodes of "barrel rolling" (continuous rolling of 1-8 turns around the longitudinal axis). These behaviors were observed for approximately 15-30 min although the sedation and catalepsy were maintained for 90-120 min. A second ICV injection of the 10 micrograms/kg dose of Compound 48/80 given 2 hr after an initial injection of this dose, produced a much reduced response and the numbers of head and body shakes, and episodes of paw tremor and grooming were between 20-30% of those produced by the first injection. The reduced effect of the second injection indicates that the behavioral effects of Compound 48/80 may arise from the acute degranulation of mast cells rather than direct effects on neuronal populations or the cerebral vasculature.

Possible hyperendorphinergic pathophysiology of the Rett syndrome

The Rett syndrome is a postnatal developmental and neurological disorder seen only in girls. Many of the symptoms of this disorder, such as microcephaly, stereotypy, respiratory disturbances and seizures, are analogous to the effects of the administration of beta-endorphin or other opioids in animals. Preliminary reports of elevated beta-endorphin-like immunoreactivity in the cerebrospinal fluid of girls with the Rett syndrome, as well as improvement in some of their symptoms during the administration of the opioid antagonist naltrexone, are suggestive of endorphinergic hyperactivity. Thus, the pathophysiology of the Rett syndrome might involve excessive stimulation of opioid receptors in the central nervous system by beta-endorphin or other endogenous opioids.

Evidence that reciprocal hindlimb scratching elicited in mice by intrathecal administration of muscarinic agonists is mediated through M1 type receptors

Intrathecal (IT) administration of pilocarpine to mice produces a vigorous and dose-related reciprocal hindlimb scratching (RHS) response (ED50 = 0.6 microgram) that is potently blocked by simultaneous IT administration of atropine (ID50 = 0.002 microgram). We now report that RHS is (1) also elicited by the more selective M1 agonist McN-A-343-11 (ED50 = 11.6 micrograms), (2) blocked by the selective M1 antagonist pirenzepine (ID50 = 0.001 microgram), and (3) is not blocked by the selective M2 antagonist AF-DX 116 BS at a dose up to 100 times the ID50 dose of pirenzepine. These results extend our earlier findings and suggest that the RHS elicited in mice by IT injection of muscarinic agonists is mediated through pirenzepine-sensitive (presumably M1) receptors and that RHS may be a convenient in vivo centrally mediated M1 endpoint.

Pilocarpine-induced reciprocal hindlimb scratching in mice

Intrathecal (IT) administration of pilocarpine (0.25-2.0 micrograms) to mice produced a vigorous and dose-related reciprocal hindlimb scratching response that lasted for 10-15 minutes. Neither the intracerebroventricular administration of pilocarpine at up to 10 times the intrathecal ED90 dose nor the subcutaneous administration of 10 mg/kg pilocarpine caused as robust an effect as IT administration. The reciprocal hindlimb scratching produced by the ED90 dose of pilocarpine (2 micrograms, IT) was antagonized in a dose-related manner by simultaneous IT administration of atropine (ID50 = 0.002 micrograms), methysergide (ID50 = 1.89 micrograms), the substance P antagonist [D-Pro2,D-Trp7,9]-SP (ID50 = 4.94 micrograms), and the putative neurokinin B antagonist [D-Pro2,D-Trp6,8,Nle10]-NK (ID50 = 3.33 micrograms), but not by yohimbine (5 micrograms), phentolamine (2 micrograms), or naloxone (2.5 micrograms). These results suggest that pilocarpine-induced reciprocal hindlimb scratching is mediated spinally, that the effect is produced by an action of pilocarpine on muscarinic receptors in the spinal cord, and that neurokinin, and perhaps 5-HT, mechanisms might also be involved.

Oxytocin: an extremely potent inducer of penile erection and yawning in male rats

The intracerebroventricular (i.c.v.) injection of oxytocin, in doses ranging from 5 to 90 ng (5-90 pmol) induced penile erection and yawning in male rats. Such response was not induced by doses of the peptide higher than 100 ng, nor by equimolar doses of i.c.v. [Arg8]vasopressin, ACTH-(1-24), alpha-MSH, rat corticotropin-releasing factor (rCRF), delta sleep-inducing peptide, neurotensin or substance P. Oxytocin-induced penile erection and yawning were prevented by atropine and morphine, but not by methylatropine or the opiate antagonist naloxone. Haloperidol, a dopamine receptor antagonist, was ineffective at low doses; it partially prevented penile erection but not yawning at high doses. Since oxytocin is present not only in the neurohypophysis but also in other brain areas, our results suggest that oxytocin is implicated in the regulation of penile erection and yawning, and provide further evidence that oxytocin acts as a neuropeptide in the central nervous system.

ACTH-(1-24) and alpha-MSH antagonize feeding behavior stimulated by kappa opiate agonists

ACTH-(1-24) and alpha-MSH, intracerebroventricularly (ICV) injected at the doses of 4 and 10 micrograms/animal, respectively, markedly inhibited spontaneous feeding in adult Sprague-Dawley rats, the effect remaining significant for 6-9 hours. At these same doses, ACTH-(1-24) and alpha-MSH abolished the feeding-stimulatory effect of the kappa opiate receptor agonist pentazocine, intraperitoneally (IP) injected at the dose of 10 mg/kg. The same antagonism was obtained by ICV injection of ACTH-(1-24) into rats IP treated with other kappa opiate agonists, bremazocine and tifluadom, at the doses of 1 and 5 mg/kg, respectively. These data suggest that melanocortin peptides play an inhibitory role in the complex regulation of food intake, and further support and extend the hypothesis of a melanocortin-opioid homeostatic system, its two neuropeptide components usually having opposite, mutually-balancing effects.

Character of (D-Phe-7) ACTH4-10-induced excessive grooming

Rats receiving (D-Phe-7) ACTH4-10 exhibited excessive grooming during the first half of the hour-long observation period. This resulted in total grooming scores of about one-half of those produced by the longer ACTH fragments, ACTH1-24 or ACTH1-16 NH2. The excessive grooming induced by (D-Phe-7) ACTH4-10 was due to an enhancement of duration of grooming bouts and not to an increase in the frequency of occurrence. Furthermore, the neuropeptide-induced excessive grooming was eliminated by prior treatment with naloxone.

The periaqueductal gray: a prerequisite for ACTH-induced excessive grooming

The periaqueductal gray is known to be involved in the expression of a variety of behaviours such as aggression, beta-endorphin-induced immobility and peptide-induced excessive grooming. In order to establish whether the periaqueductal gray (PAG) is indispensible for peptide-induced excessive grooming, lesions were placed in the dorsal part of this structure. Subsequently, the grooming-inducing abilities of adrenocorticotropin (ACTH), beta-endorphin and bombesin were tested. The lesioned animals did not display excessive grooming after intracerebroventricular injection of ACTH. beta-Endorphin administration into the lesioned animals resulted in an extreme display of immobility. Local injection of bombesin into the PAG resulted in reduced scratching behaviour followed by immobility. It was hypothesized that excessive grooming (elicited by ACTH) may be mediated through a non-opioid primary target site-situated in the lesioned region of the PAG-while excessive scratching and immobility (elicited by bombesin or beta-endorphin, respectively) may be mediated through an opioid primary target site (situated in the remaining part of the PAG). Furthermore, the analysis of social behaviour of lesioned animals revealed that these animals reacted towards an unfamiliar partner predominantly with freezing behaviour. The increase of beta-endorphin-induced immobility and socially induced freezing (which is morphologically very similar to beta-endorphin-induced immobility) in lesioned animals supports the hypothesis that the release of opioid peptides such as beta-endorphin in the PAG plays a role in the regulation of social behaviour.

Oxytocin potently enhances novelty-induced grooming behavior in the rat

Intracerebroventricular (i.c.v.) injection of oxytocin was followed by an enhancement of novelty-induced grooming in male and female rats. This effect was dose-dependent, in a dose range of 0.1-10 micrograms. Grooming activity of rats injected i.c.v. with 10 micrograms of oxytocin was 9-fold higher than that of saline-injected controls. The analysis of behavioral element composition revealed an increased occurrence of genital grooming in oxytocin-injected rats. A time-course study revealed a sustained increase in grooming activity of oxytocin-treated rats during 45 min of behavioral testing. Intraperitoneal (i.p.) injection of the dopamine antagonist, haloperidol, totally suppressed oxytocin-enhanced grooming. Furthermore, i.p. injection of the opiate receptor antagonist, naloxone, was followed by an attenuation but not a suppression of grooming enhanced by i.c.v. administration of oxytocin. In addition, a small but significant increase in grooming activity was observed after subcutaneous injection of oxytocin. These results suggest that oxytocin-enhanced grooming behavior involves central mechanisms, e.g. dopamine and opioid transmission in the brain.

Chronic ethanol treatment decreases specific nonopiate beta-endorphin binding to hepatic and kidney membranes and lowers plasma beta-endorphin in the rat

In a previous study we reported the presence of specific nonopiate beta-endorphin (BE) binding sites in peripheral tissues of the rat (Dave JR, Rubinstein N, Eskay RL: Evidence that beta-endorphin binds to specific receptors in rat peripheral tissue and stimulates the adenylate cyclase-adenosine 3',5'-monophosphate system. Endocrinology 117:1389-1396, 1985). The objective of this study was to determine the effect of chronic ethanol administration in vivo on specific nonopiate binding of BE in hepatic and kidney membranes. Experimental animals were exposed continuously for 14 days to ethanol vapor in an inhalation chamber at vapor levels sufficient to maintain blood ethanol levels greater than 120 mg/100 ml, whereas control animals were maintained in ethanol-free chambers. Chronic ethanol treatment decreased [125I]BE binding to hepatic and kidney membranes by approximately 35%, which was due to a decrease in the number of BE binding sites. Chronic ethanol treatment decreased immunoreactive BE in plasma by greater than 80%. In vitro exposure of hepatic and kidney membranes from control animals to ethanol resulted in a dose-related enhancement of BE binding with maximal enhancement of 50-65% being observed at 0.2% ethanol concentration. In contrast, the addition of ethanol in vitro to hepatic and kidney membranes derived from rats chronically exposed to ethanol in vivo did not affect BE binding. Our findings demonstrate that chronic alcohol exposure lowers immunoreactive BE in plasma and reduces BE binding in hepatic and kidney membranes. The observed reduction of BE binding may be due to ethanol-induced changes in membrane composition.

Changes in body temperature and metabolic rate following microinjection of Met-enkephalinamide in the preoptic/anterior hypothalamus of rats

The effects of Met-enkephalinamide (MET-ENKamide) on brain temperature (Tb) and metabolic rate (MR) were assessed following direct administration into the preoptic/anterior hypothalamus (PO/AH) of freely moving rats. Bilateral microinjections of saline or MET-ENKamide (1-25 micrograms/microliter) were delivered through cannula guide tubes previously implanted in nine animals. Thiorphan, an enkephalinase inhibitor, was microinjected into the PO/AH of two of the animals. All injections were made remotely at an ambient temperature of 22 +/- 1 degree C in a volume of 1 microliter. Measurements of Tb (via a brain-dwelling thermistor) and MR were recorded continuously. The ability of naloxone to antagonize the effects of MET-ENKamide was investigated by fashioning a double-barreled injection cannula to fit within each guide tube; 1 microliter of saline or naloxone (1-10 micrograms) was delivered bilaterally into the PO/AH followed by 1 microliter of MET-ENKamide (25 micrograms) 5-10 min later. PO/AH administration of MET-ENKamide (1-25 micrograms) produced dose-dependent increases in Tb preceded by dose-dependent increases in MR, with a characteristic time course of approximately 30 min. Naloxone antagonized the rise in Tb and MR, either partially or completely, depending on dose. When administered alone, naloxone had no effect on Tb or MR. Microinjection of thiorphan (10 micrograms) into the PO/AH evoked increases in Tb and MR that were similar to those responses induced by MET-ENKamide. These results support a role for endogenous Met-enkephalin in the regulation of Tb in the rat.

The relationship of endogenous ACTH levels to visual-attentional functioning in patients with congenital adrenal hyperplasia

The within subject experimental approach of either doubling cortisone medication dose or withdrawing steroid treatment for 36 hr preceding behavioral testing was found to induce corresponding significantly elevated or suppressed plasma ACTH levels, as measured by radioimmunoassay, in six of eight adults diagnosed as having congenital adrenal hyperplasia (CAH). During the session characterized by elevated ACTH levels, the CAH patients exhibited significantly reduced median reaction times on the Sternberg Item Recognition Task. Their response pattern was suggestive of facilitated visual attentional functioning and/or overt motor response capacity rather than alteration of simple cognitive processing. Moreover, Sternberg performance was significantly correlated with endogenous ACTH levels but not with levels of plasma cortisol or cortisone replacement medication. This enhancement of performance paralleled a previous finding of improved performance on the Sternberg paradigm by normal adults following exogenous administration of ACTH 4-10 (Ward et al., 1979). Further analysis of the Sternberg performance suggests that other variables such as mineralocorticoid treatment, type of CAH impairment, and sex may act to moderate the degree of ACTH-related facilitation on this task. Performance on other visual and verbal attention and memory tasks, found earlier to be sensitive indices of exogenous administration of ACTH 4-10 and related fragments, was not significantly altered by manipulation of endogenous ACTH levels in these CAH patients.

Electroencephalographic spreading depression and concomitant behavioral changes induced by intrahippocampal injections of ACTH1-24 and D-Ala2-Met-enkephalinamide in the rat

ACTH1-24 (0.5 or 10 micrograms = 0.17 or 3.45 nmol) and D-Ala2-Met-enkephalinamide (DAME; 10 micrograms = 17.05 nmol) were injected unilaterally into the hippocampus of freely moving rats to examine their effects on EEG activity, DC potentials and behavior. In 85% of the rats DAME elicited spreading depression (SD) with epileptiform discharges preceding and following the wave of SD. The following behavioral changes were recorded. DAME- and KCl-induced SD were accompanied by an increase in locomotor activity and wet-dog shaking behavior, which occurred only during the period of SD. After a wave of SD induced by DAME a biphasic pattern of activity, consisting of an initial depression in locomotion followed by hyperactivity, appeared in 59% of the rats. ACTH1-24 elicited SD in 13% of the rats tested. Neither the dosage of ACTH1-24 nor the strain of rats influenced the occurrence of SD and the incidence of ACTH-induced grooming behavior. SD induced by KCl also resulted in excessive grooming comparable to that induced by ACTH1-24. In the case of KCl-induced SD, grooming began directly after the injection of KCl and was frequently interrupted by short periods of locomotion. ACTH-induced grooming had a later onset and episodes of stretching and yawning were observed. It can be concluded that the behavioral effects of the injection of DAME are unspecific responses to SD and seizure activity. However, ACTH-induced grooming is not solely a byproduct of SD, since it occurred also in the absence of SD.

Maternal plasma concentrations of beta-lipotrophin, beta-endorphin and gamma-lipotrophin throughout pregnancy

Plasma beta-LPH, beta-EP and gamma-LPH concentrations were measured by radioimmunoassay in 10 pregnant women from 12 weeks gestation until term and in nine women in the early follicular phase of the cycle. There was a progressive and significant rise in the concentration of all three peptides throughout pregnancy and by 32 weeks the concentrations of beta-LPH and beta-EP were greater than the corresponding concentrations in the follicular phase: gamma-LPH was greater than in the follicular phase by the end of pregnancy in those women who were delivered after 40 weeks. The ratio of beta-LPH to gamma-LPH did not change significantly throughout pregnancy, but there was a progressive fall in the beta-LPH/beta-EP ratio. The possible presence of a 'big LPH' to explain this finding is discussed.

Effect of phosphoramidon - a selective enkephalinase inhibitor - on nociception and behaviour

Phosphoramidon (100-350 micrograms i.c.v.), a selective enkephalinase inhibitor, induced in the rat a decrease of nociception to pressure stimulation without evident respiratory depression. In addition, intensive behavioural changes such as grooming (licking the fur, face washing and scratching), mounting behaviour and wet dog shakes were observed. Naltrexone pretreatment (1 mg/kg i.p.) caused a significant decrease in the phosphoramidon-induced nociception and behavioural changes. Puromycin (30 micrograms i.c.v. or 7.5 mg/kg i.p.) caused no changes in nociception or behaviour.

Peptide-induced excessive grooming in the rat: the role of opiate receptors

We have investigated the possibility that opiate peptides induce excessive grooming behavior in the rat via a direct action on an opiate receptor by comparing the opiate agonist dynorphin(1-13) with its non-opioid fragment des-tyrosine1-dynorphin(1-13) (dT-Dyn). We have shown that both peptides are capable of inducing grooming and that this behavior can be suppressed by pretreatment with naloxone. Analysis of the grooming pattern revealed that the response induced by dT-Dyn is qualitatively similar to that induced by ACTH(1-24) and dynorphin(1-13). Cross-tolerance was demonstrated among the various peptides. We conclude that peptide-opiate receptor interaction is not the primary event in the induction of grooming and that the opiate receptor(s) involved are located at another site underlying peptide-induced grooming.

Naltrexone-sensitive behavioral actions of the ACTH 4-9 analog (Org 2766)

The effects of the ACTH 4-9 analog (Org 2766) and the COOH-terminal tripeptide of Org 2766 (Phe-D-Lys-Phe; PDLP) on retrieval of one-trial learning passive avoidance behavior were compared with those of beta-endorphin, [Met5]-enkephalin, [D-Ala2,Met5]-enkephalin, des-Tyr1-[Met5]-enkephalin and des-enkephalin-gamma-endorphin (DE gamma E). Amounts of intracerebroventricularly administered Org 2766, PDLP, [Met5]-enkephalin, [D-Ala2,Met5]-enkephalin and DE gamma E, which induced a comparable attenuation of passive avoidance behavior were determined. Pretreatment with the opiate antagonist naltrexone prevented the attenuating effect of these peptides on passive avoidance behavior except that of DE gamma E. The attenuating effect of Org 2766 and of [Met5]-enkephalin was reversed to facilitation of passive avoidance behavior in the presence of naltrexone. Subcutaneous treatment with Org 2766 and [D-Phe7]-ACTH 4-10 decreased electrical self-stimulation behavior elicited from the medial septal area. Naltrexone prevented the inhibitory effect of Org 2766 on this behavior, but not that of [D-Phe7]-ACTH 4-10. Although the attenuating effect of PDLP on passive avoidance behavior was not reduced by pretreatment with [Met5]-enkephalin- or beta-endorphin-antiserum, and PDLP induced neither analgesia nor excessive grooming, the data suggest that the inhibitory effect of Org 2766 and PDLP on passive avoidance behavior and electrical self-stimulation are mediated by endorphin systems in the brain.

ACTH-(1-24) and RX 336-M induce excessive grooming in rats through different mechanisms

ACTH-(1-24) (0.03-6 micrograms i.c.v.) and RX 336-M (7,8-dihydro-5',6'-dimethylcyclohex-5'-eno-1',2',8',14 codeinone) (1.5-6 mg/kg i.p.) induce dose-related excessive grooming and 'wet-dog' shaking in rats. In the present study, the grooming associated with these compounds was compared and analyzed pharmacologically. Grooming caused by RX 336-M and by ACTH-(1-24) was antagonized when rats were pretreated with comparable doses of morphine (0.5-4 mg/kg s.c.), however, only ACTH-(1-24)-induced grooming was attenuated by naloxone (1 and 10 mg/kg s.c.). ICI 154,129 (N,N-bisallyl-Tyr-Gly-Gly-psi-(CH2S)-Phe-Leu-OH) (30 mg/kg s.c.), a selective delta-opiate receptor antagonist, was ineffective against both ACTH-(1-24) and RX 336-M. Although haloperidol is known to antagonize grooming elicited by ACTH-(1-24) (e.g., Wiegant et al., 1977, European J. Pharmacol. 41, 343), even a high dose of this neuroleptic agent (5 mg/kg s.c.) only partially attenuated grooming caused by RX 336-M. Tolerance developed to the grooming elicited by RX 336-M, and by ACTH-(1-24), but there was no cross-tolerance. Both agents were active in genetically hypotrichotic rats; and, again in such animals, even after numbing the area caudal to the shoulders with lidocaine. Given the divergent results with naloxone, and, possibly, with haloperidol, and the lack of cross-tolerance, we conclude that the excessive grooming induced in rats by ACTH-(1-24) and by RX 336-M is mediated by different mechanisms.

Anxiolytics block excessive grooming behavior induced by ACTH1-24 and bombesin

Diazepam and meprobamate significantly attenuated the increases in grooming behavior induced by peptides. Significant increases in total grooming frequency over a thirty minute observation period were produced by intraventricular administration of 1 microgram ACTH1-24 and by 1 microgram bombesin to awake rats. Diazepam 1 mg/kg IP blocked the peptide-induced increases in grooming. Non-sedating doses of diazepam also completely reversed the grooming seen when rats were placed in a novel environment. The functional antagonism between anxiolytics and stress-related peptides supports the concept of interacting brain mechanisms mediating stress and anxiety.

Effects of beta-endorphin and its fragments on inhibitory avoidance behavior in rats

The effects on retrieval of a one-trial learning inhibitory avoidance response of beta-endorphin, alpha-endorphin, and gamma-endorphin, given prior to test have been studied in rats. beta-Endorphin (beta-LPH 61-91) in a relatively low dose (1.56 micrograms sc. or 50 ng icv.) facilitated inhibitory avoidance behavior, while a higher dose (10 micrograms sc. or 100 ng icv.) caused bimodal changes (facilitation in 50% of the animals and attenuation in another 40%. Peripheral injection of gamma-endorphin attenuated inhibitory avoidance behaviour in a dose-dependent manner. The C-terminus of beta-endorphin (beta-LPH 78-91) was ineffective. alpha-Endorphin facilitated inhibitory avoidance behavior in a dose dependent manner. Naltrexone pretreatment antagonized the bimodal effect of beta-endorphin: following pretreatment with the opiate antagonist the low latency component disappeared, but the facilitatory effect of the neuropeptide remained the same. It is suggested that beta-endorphin carries more than one bit of behavioral information. Inherent activities either related or unrelated to naltrexone-sensitive opiate as well as biotransformation into alpha- and gamma-endorphin may contribute to the multiple behavioral effects of this neuropeptide.

ACTH1-39 but not naltrexone produces biphasic effects on locomotor activity

Two experiments were conducted in order to investigate the effects of chronic ACTH and naltrexone treatment on motor activity in an open-field. In the first experiment, Wistar rats received two daily injections of either ACTH1-39-saline, naltrexone-saline, ACTH1-39-naltrexone or saline-saline for 24 consecutive days. Immediately following injections, motor activity was measured every fourth day. The results indicated that ACTH and naltrexone each had depressive effects on motor activity that did not dissipate over 24 days. In the second experiment, the procedure was similar to the first except that motor activity was measured at five hours postinjection. The results revealed that naltrexone by itself or in combination with ACTH had no observable effect on motor activity. ACTH was observed to have a stimulatory effect on motor activity that decreased over days and was not naltrexone reversible. The results are discussed in terms of different mechanisms underlying the effects of ACTH and naltrexone.

Synaptic mechanism of methionine-enkephalin uptake

The actions of classical neurotransmitters at the synapse are rapidly terminated either by re-uptake or by enzymatic degradation. Enkephalins, like other neurotransmitters, have been demonstrated to be degraded by active proteinases present in the brain. However, it has been generally assumed that an uptake process is not operant for met-enkephalin. To confirm or disprove this assumption, we examined the problem of met-enkephalin uptake in rat brain synaptosomes. Male rat brains were collected in ice-cold sucrose (0.32M) and homogenized, and by differential centrifugation we prepared P2 pellet. The pellet was then incubated with 3H-met-enkephalin, the reaction terminated by dilution, and the reaction mixture filtered under vacuum. (1) Lysing the synaptosomes in ice cold water before or after incubation with met-enkephalin separates out the synaptic vesicles. The post-incubation lysis showed a market amount of radioactivity in the supernatant which contained the vesicles. The vesicles may thus be the sites of accumulation of met-enkephalin. Pre-incubation lysis produced markedly less accumulation of radioactivity. (2) Ca++ at various concentrations was found to be an activator of met-enkephalin uptake. (3) The rate of accumulation of met-enkephalin was found to be temperature sensitive; 37 degrees greater than 25 degrees greater than 0 degrees. (4) The degree of uptake varied with different concentrations of met-enkephalin and with time. That it is the met-enkephalin taken up and not the degraded fraction was confirmed by RIA of the material extracted from the synaptosomes. The evidence provided here suggests that there is an uptake system for met-enkephalin.

Polyphosphoinositide metabolism in rat brain: effects of neuropeptides, neurotransmitters and cyclic nucleotides

This study describes effects of various peptides, neurotransmitters and cyclic nucleotides on brain polyphosphoinositide metabolism in vitro. The interconversion of the polyanionic inositol phospholipids was studied by incubation of a lysed crude mitochondrial/synaptosomal fraction with [gamma-32P]-ATP. The reference peptide ACTH1-24 stimulated the formation of radiolabelled phosphatidylinositol 4,5-diphosphate (TPI) and inhibited that of phosphatidic acid (PA). Substance P inhibited both TPI and PA labelling, whereas beta-endorphin inhibited that of PA without any effect on TPI. Morphine had no effect at any concentration tested, whereas high concentrations of naloxone inhibited the labelling of both PA and TPI. Naloxone did not counteract the effects of ACTH1-24. The other peptides tested (lysine 8-vasopressin and angiotensin II) were without any effect. Under the conditions used, adrenaline, noradrenaline and acetylcholine did not affect the labelling of the (poly)phosphoinositides. Both dopamine and serotonin, however, dose-dependently inhibited the formation of radiolabelled TPI and PA. Low concentrations of cAMP stimulated TPI, but higher concentrations had an overall inhibitory effect on the labelling of TPI, PA and especially phosphatidylinositol 4-phosphate (DPI). The cyclic nucleotide did not mediate or counteract the effects of ACTH, and cGMP was without any effect. These results are discussed in the light of current ideas on the mechanism of action of neuropeptides.

Dopamine involvement in ACTH-induced grooming behavior

Low doses of dopamine agonists and antagonists were tested for their effects on the excessive grooming behavior induced by intracerebroventricular (ICV) injections of ACTH1-24. Grooming scores were significantly depressed at doses of haloperidol, metoclopramide, pimozide, and butaclamol that did not decrease locomotor activity. In fact at two doses of haloperidol (0.067 and 0.10 mg/kg), grooming scores were decreased while locomotor activity was increased significantly. Metoclopramide increased grooming scores at a dose reported to block presynaptic dopamine receptors. Apomorphine potentiated the grooming induced by low doses of ACTH. These data support the hypothesis that dopaminergic neurotransmission is necessary for the display of ACTH-induced grooming behavior.

Bacitracin produces analgesia by increasing brain immunoreactive beta-endorphin (beta-E) content

The effects of protease inhibitor bacitracin on brain beta-endorphin content and analgesia, were examined in vivo. Male Sprague-Dawley rats were injected with bacitracin intracerebroventricularly and sacrificed by microwave irradiation 15 and 30 min after injection. Brain beta-endorphin levels were 27% higher in bacitracin treated rats than in controls. A second group of bacitracin injected rats was subjected to continuous intermittent 55 degrees C hot plate exposure. Bacitracin-injected rats exhibited total analgesia 15 min after bacitracin injection. At 30 min, this analgesic effect subsided. Control rats exhibited no analgesia. Bacitracin induced analgesia was naloxone reversible at a low dose of naloxone (1 mg/kg). At a higher dose of naloxone (10mg/kg), bacitracin induced analgesia was only partially antagonized. These results suggest that bacitracin induced analgesia might be due to the elevated levels of brain beta-endorphin caused by a decrease in its breakdown by bacitracin.

A study of the shaking and grooming induced by RX 336-M in rats

Several endogenous peptides and experimental agents induce "wet-dog" shakes and excessive grooming after acute administration to rats, but quantitative information on a possible relationship between the two behaviors is lacking. RX 336-M (7,8-dihydro-5'-6'-dimethylcyclohex-5'-eno-1',8',14 codeinone) is a novel compound which elicits dose-related shaking and grooming in the rat. We have measured and compared the shaking and grooming induced by several doses of RX 336-M (1.5-12 mg/kg, IP) in male Sprague Dawley rats at various stages of maturation. Analysis of the correlation between the number of "wet-dog" shakes and the frequency of grooming episodes indicates that a relationship may exist between the shaking and grooming. The excessive grooming induced by RX 336-M may be a mechanism by which the rat's state of arousal (raised by the shaking) is lowered and homeostasis is maintained.

A peptide-containing fraction of plasma from schizophrenic patients which binds to opiate receptors and induces hyper-reactivity in rats

A serum fraction from schizophrenic patients has been investigated for its effect on opiate receptor sites and on behaviour in rats. Serum from schizophrenic patients was ultrafiltered and fractionated on DEAE-Sephadex A-25. The concentration of peptide material eluting under 0.1 M HCl (fraction I) was further purified on Sephadex-G10 and four major peaks were identified (fractions II to V). When injected intracerebroventricularly in rats, fraction II produced a characteristic behavioural syndrome, which included hyperactivity associated with hyperemotionality. The effects were long lasting, bouts of hyperemotionality accompanied by analgesia were recorded over a two-week period. The same fraction from control non-patients produced a transient and much reduced, but qualitatively similar response. There was evidence that fraction III was also active. An in vitro opiate receptor binding test showed that fraction II from schizophrenic patients inhibited [3H]naloxone binding.

Altered behavioral responsivity to morphine during the periadolescent period in rats

The results of previous studies have suggested that periadolescent rats are differentially affected by catecholaminergic agents, when compared with younger or adult animals. Since dopamine-opiate interactions have been demonstrated in rats, the present study was conducted to evaluate the behavioral responsivity of periadolescent and adult rats following doses of morphine ranging from 1 to 10 mg/kg i.p. The responses measured included matrix crossings, rearing, grooming, auto-directed stereotyped behavior and gnawing, and were recorded continuously from 30 to 90 min post-injection. When indicated, scores on each measure were transformed to control for differences observed in the baseline (saline) groups. Analyses of all measures revealed a significant effect of morphine dose, although the shape of the dose-response curve differed for individual responses. In addition, those measures which might be considered locomotor responses (matrix crossing, rearing), as well as grooming, revealed significant main or interactive effects of age. In contrast, those measures characterized as stereotyped behaviors (auto-directed stereotyped behavior and gnawing) revealed no differential effect in periadolescent animals relative to adults. Since locomotor responses and stereotyped behavior have been suggested by previous research to be mediated by the mesolimbic and extrapyramidal dopamine systems, respectively, these results further support the previously suggested hypothesis of the delayed ontogeny of mesolimbic relative to extrapyramidal dopamine pathways.

Behavioral effects of bombesin administration in rats

Bombesin (BBS, 0.1-4.0 micrograms) administered to the lateral cerebral ventricle (IVT) of rats decreased food intake and feeding behavior. Grooming behavior increased and resting behavior decreased as doses greater than or equal to 0.01 microgram. IVT BBS (4.0 micrograms) caused greater suppression of food-deprivation-induced food intake and feeding behavior than the same dose and volume administered intraperitoneally (IP). After IVT BBS, rats displayed more grooming and less resting than normal, but after IP BBS, rats displayed a normal frequency of grooming and more resting. IVT BBS (greater than or equal to 0.01 microgram) also decreased drinking behavior, and drinking-associated feeding, and suppressed (greater than or equal to 0.1 microgram) water-deprivation-induced water intake. When neither food nor water was present, non-deprived rats displayed increased grooming and decreased resting after IVT BBS (1.0 microgram). The results show that IVT BBS inhibits feeding markedly, but the inhibition of feeding by IVT BBS does not resemble normal satiety or the effect of IP BBS because the central inhibition of feeding is always accompanied by excessive grooming and little resting. Furthermore, since IVT BBS decreases drinking at a dose lower than that required to reduce food intake, and IP BBS does not, the specific satiety effect of IP BBS on feeding cannot be mediated solely by increasing bombesin in the cerebrospinal fluid.

A quantitative analysis of the shaking behavior induced in rats by beta-endorphin and [D-Ala2, Met5]enkephalinamide

beta-Endorphin (5-80 microgram) or [D-Ala2,Met5]enkephalinamide (DALA) (5-40 microgram) was administered intracerebroventricularly to rats. With both opioid peptides, there was no direct relationship between log dose and mean number of wet-dog shakes (WDS) that occurred during the following 15 min. When the results were analyzed quantitatively, the dose of DALA that caused 50% of the rats to shake at least twice was 8.6 microgram (4.9-15 microgram). beta-Endorphin had such poor efficacy that an ED 50 could not be obtained. Morphine (1 and 5 mg/kg, s.c.) antagonized shaking caused by the optimal dose of DALA (20 microgram). Naloxone (0.1-10 mg/kg, s.c.) attenuated both DALA- and beta-endorphin-induced WDS in a dose-related manner. This latter result differentiates shaking associated with opioid peptides from that caused by thyrotropin releasing hormone (TRH), another endogenous stimulant of WDS in rats. There was no cross-tolerance between RX 336-M (7,8-dihydro-5',6'-dimethylcyclohex-5'-eno-1',2',8',14 codeinone), a novel shake inducing agent, and beta-endorphin. This finding again differentiates beta-endorphin-induced shaking from that caused by TRH and also from that associated with several exogenous stimulants of WDS.

Modulation of brain polyphosphoinositide metabolism by ACTH and beta-endorphin: structure-activity studies

This study describes effects of ACTH1-24 and beta-endorphin on brain polyphosphoinositide metabolism in vitro. The interconversion of these polyanionic phospholipids was studied by incubation of a lysed synaptosomal fraction with [gamma-32P]ATP. Of the membrane phospholipids only PA, DPI and TPI became labeled. The reference peptide ACTH1-24 stimulated the formation of TPI and inhibited the production of PA. For effects on TPI formation both the sequences ACTH5-7 and ACTH10-16 were needed. Effects on PA formation required the sequences ACTH7-10 and ACTH10-16. The basic amino acids in ACTH10-16 seemed to be of crucial importance for the peptide effects. A stimulatory effect on DPI was visible when ACTH was shortened from the N-terminus, and the essential information was in ACTH7-10. beta-endorphin inhibited PA formation and this effect was abolished by C-terminal shortening to gamma-endorphin. Other fragments of the C-terminus of beta-LPH, including the enkephalins, were ineffective. It is concluded that the structure-activity relationship on TPI/PA formation correlates with a similar relationship obtained on excessive grooming behavior in vivo. A possible correlation between the effects on polyPI metabolism and opiate-like effects, and effects on extinction of active avoidance behavior in vivo is discussed.

Prolactin induces grooming in the rat: possible involvement of nigrostriatal dopaminergic system

The possibility that Prolactin-induced grooming involves the nigrostriatal dopaminergic system was studied. Intracerebroventricular injection of rat Prolactin (PRL) in an amount of 10 micrograms induced grooming in male rats, and neostriatal injection of haloperidol (1 microgram/1 microliter) markedly suppressed this effect. Local administration of 6-OHDA in the substantia nigra also abolished the influence of intracerebroventricularly administered PRL. Bilateral injections of PRL (10 micrograms/l microliters) in the neostriatum failed to induce grooming, whereas bilateral injections of peptide into the substantia nigra (1 microgram/0.5 micrograms) elicited the behavioral response. It is probable that PRL induces grooming in the rat by interacting with the nigrostriatal dopaminergic transmission through an action on the cell bodies rather than in presynaptic terminals or at the postsynaptic level of this system.