Ingestive responses to administration of stress hormones in baboons.

Experimental stress and the administration of the stress hormone ACTH have been reported to stimulate sodium appetite in many nonprimate species. Experiments were conducted to determine whether prolonged intracerebroventricular infusions of the neuropeptides corticotropin-releasing factor (CRF) and urocortin (Ucn), or systemic administration of ACTH, affected ingestive behaviors in a nonhuman primate, the baboon. Intracerebroventricular infusions of CRF or Ucn significantly decreased daily food intake. The decrease with Ucn continued into the postinfusion period. These infusions did not alter daily water intake. Daily voluntary intake of 300 mM NaCl solution was not increased, and there was evidence of reductions on days 2-4 of the infusions. Intramuscular injections of porcine ACTH or synthetic ACTH (Synacthen) for 5 days did not affect daily NaCl intake, although the doses were sufficient to increase cortisol secretion and arterial blood pressure. Sodium depletion by 3 days of furosemide injections did induce a characteristic sodium appetite in the same baboons. These results demonstrate the anorexigenic action of CRF and Ucn in this primate. Also, CRF, Ucn, and ACTH did not stimulate sodium appetite at the doses used.

Structure and biological activity of gonadotropin-releasing hormone isoforms isolated from rat and hamster brains.

Rat and hamster brain tissues were used to investigate the possible existence of a follicle stimulating hormone (FSH)-releasing factor with similar characteristics to the lamprey gonadotropin-releasing hormone III (lGnRH-III) form proposed in previous reports. The present studies involved isolation and purification of the molecule by high-performance liquid chromatography (HPLC), identification by radioimmunoassay, sequence analysis by automated Edman degradation, mass spectrometry and examination of biological activity. Hypothalamic extracts from both species contained an HPLC fraction that was immunoreactive to GnRH and coeluted with lGnRH-III and 9-hydroxyproline mGnRH ([Hyp(9)]GnRH). Determination of primary structure from purified total brain material demonstrated that the isolated molecule was [Hyp(9)]GnRH. This is the first report showing the presence of the posttranslationally modified form already known as [Hyp(9)]GnRH by primary sequence analysis. The biological activity of distinct GnRH peptides was also tested in vitro for gonadotropin release using rat pituitary primary cell cultures. The results showed that [Hyp(9)]GnRH stimulated both luteinizing hormone and FSH release, as already reported, whereas lGnRH-III had no action on the secretion of either gonadotropin.

GnRH antagonists: a new generation of long acting analogues incorporating p-ureido-phenylalanines at positions 5 and 6.

A series of antagonists of gonadotropin-releasing hormone (GnRH) of the general formula Ac-D2Nal-D4Cpa-D3Pal-Ser-4Aph/4Amf(P)-D4Aph/D4Amf(Q)-Leu-ILys-Pro-DAla-NH2 was synthesized, characterized, and screened for duration of inhibition of luteinizing hormone release in a castrated male rat assay. Selected analogues were tested in a reporter gene assay (IC50 and pA2) and an in vitro histamine release assay. P and Q contain urea/carbamoyl functionalities designed to increase potential intra- and intermolecular hydrogen bonding opportunities for structural stabilization and peptide/receptor interactions, respectively. These substitutions resulted in analogues with increased hydrophilicity and a lesser propensity to form gels in aqueous solution than azaline B [Ac-D2Nal-D4Cpa-D3Pal-Ser-4Aph(Atz)-D4Aph(Atz)-Leu-ILys-Pro-DAla-NH2 with Atz = 3'-amino-1H-1',2',4'-triazol-5'-yl, 5], and in some cases they resulted in a significant increase in duration of action after subcutaneous (s.c.) administration. Ac-D2Nal-D4Cpa-D3Pal-Ser-4Aph(L-hydroorotyl)-D4Aph(carbamoyl)-Leu-ILys-Pro-DAla-NH2 (acetate salt is FE200486) (31) and eight other congeners (20, 35, 37, 39, 41, 45-47) were identified that exhibited significantly longer duration of action than acyline [Ac-D2Nal-D4Cpa-D3Pal-Ser-4Aph(Ac)-D4Aph(Ac)-Leu-ILys-Pro-DAla-NH2] (6) when administered subcutaneously in castrated male rats at a dose of 50 microg in 100 microL of phosphate buffer. No correlation was found between retention times on a C18 reverse phase column using a triethylammonium phosphate buffer at pH 7.0 (a measure of hydrophilicity) or affinity in an in vitro human GnRH report gene assay (pA2) and duration of action. FE200486 was selected for preclinical studies, and some of its properties were compared to those of other clinical candidates. In the intact rat, ganirelix, abarelix, azaline B, and FE200486 inhibited plasma testosterone for 1, 1, 14, and 57 days, respectively, at 2 mg/kg s.c. in 5% mannitol (injection volume = 20 microL). Based on the information that 31, 33, 35 and 37 were significantly shorter acting than acyline or azaline B after intravenous administration (100 microg/rat), we surmised that the very long duration of action of the related FE200486 (for example) was likely due to unique physicochemical properties such as solubility in aqueous milieu, comparatively low propensity to form gels, and ability to diffuse at high concentrations in a manner similar to that described for slow release formulations of peptides. Indeed, in rats injected s.c. with FE200486 (2 mg/kg), plasmatic concentrations of FE200486 remained above 5 ng/mL until day 41, and the time after which they dropped below 3 ng/mL and plasma LH levels started rising until full recovery was reached at day 84 with levels of FE200486 hovering around 1 ng/mL. Additionally, FE200486 was less potent at releasing histamine from isolated rat mast cells than any of the GnRH antagonists presently described in preclinical reports.

Inactivation of a serotonin-gated ion channel by a polypeptide toxin from marine snails.

The venom of predatory marine snails is a rich source of natural products that act on specific receptors and ion channels within the mammalian nervous system. A 41-amino acid peptide, final sigma-conotoxin GVIIIA, was purified on the basis of its ability to inactivate the 5-HT3 receptor, an excitatory serotonin-gated ion channel. final sigma-Conotoxin contains a brominated tryptophan residue, which may be important for peptide activity because the endogenous ligand for the 5-HT3 receptor is a hydroxylated derivative of tryptophan. final sigma-Conotoxin inactivates the 5-HT3 receptor through competitive antagonism and is a highly selective inhibitor of this receptor. Serotonin receptors can now be included among the molecular targets of natural polypeptide neurotoxins.

CRF/NPY interactions: a potential role in sleep dysregulation in depression and anxiety.

Neuropeptide Y (NPY) has neuromodulatory actions on multiple brain functions including endocrine, behavioral, and circadian processes and has been implicated in the pathophysiology of both anxiety and depression. Behavioral studies suggest that NPY is a potent anxiolytic, whereas CRF is anxiogenic, thus it seems that a balance of these two peptides may exert important influences on behavioral state regulation. However, little is known about how the NPY/CRF balance affects general arousal, attention, and/or sleep states. The present study evaluated the effects of CRF alone, and co-administered with NPY, on spontaneous brain activity as well as on auditory processing using electrophysiological measures. Electroencephalographic (EEG) and event-related potentials (ERPs) were obtained in rats following intracerebroventricular administration of CRF (0.5 microgram) and CRF (0.5 microgram)/NPY (5.0 or 15 micrograms). Auditory processing, as assessed by ERPs, was affected most significantly in the frontal cortex where CRF produced increases in the N1 and P3 components of the ERP, and NPY/CRF co-administration produced significant decreases. These data are consistent with a role for CRF in hyperarousal, and further suggest that NPY may be capable of reversing such states. Administration of CRF also produced a significant increase in the time to sleep onset and a decrease in the amount of time spent in non-rapid eye movement (NREM) sleep as quantified by scoring the EEG paper records. Co-administration of NPY with CRF reversed the effects of CRF on sleep duration and sleep onset in a dose-dependent fashion. Spectral analysis revealed that CRF produced quantitative changes in the EEG that were similar to what has previously been reported. CRF-induced increases in fast frequency activity were found to be reversed by co-administration of NPY. Taken together these data suggest that "dysregulation" of sleep and arousal states in depression and anxiety may be consistent with an upset of the balance between hypothalamic neuropeptide systems.

Importance of pituitary and brain receptors for corticotrophin-releasing factor in modulating alcohol-induced ACTH secretion in the rat.

Alcohol (EtOH) releases ACTH through mechanisms that ultimately depend on the presence of endogenous corticotropin-releasing factor (CRF), but we still do not know where alcohol acts within the hypothalamic-pituitary-adrenal (HPA) axis. The present study was designed to determine the respective importance of the activation of pituitary and/or hypothalamic CRF receptors in mediating the stimulatory effect of EtOH on ACTH secretion. We used two CRF antagonists: (1) alpha-helical CRF9-41 (alpha-hel ant.), which is very effective in interfering with biological responses mediated by brain CRF receptors, but relatively impotent in blocking pituitary CRF receptors; and (2) astressin, {cyclo(30-33)[DPhe12,Nle21,38,Glu30,Lys33]r/h CRF12.41}, a member of the newest generation of antagonists capable of significantly blocking both brain and pituitary CRF receptors. The role of pituitary CRF receptors was shown by the ability of i.v. injected astressin, at doses shown to completely block CRF-induced ACTH release, to significantly (P < 0.01) reduce the ACTH response to EtOH (1.5 or 3 g/kg, i.p.). The importance of hypothalamic CRF receptors was tested by injecting alpha-hel ant. intracerebroventricularly (i.c.v.). We reasoned that if this antagonist leaked to the pituitary following administration into the ventricle, it would not be able to act directly on the corticotrophs. The ACTH response to EtOH was modestly and not significantly (P > 0.05) blunted by i.c.v. alpha-hel ant. Similarly, the stimulatory effect of alcohol on hypothalamic neuronal activation, measured by increases in the immediate early gene NGFI-B mRNA levels, was only slightly altered by blockade of hypothalamic CRF receptors. Collectively, these results suggest that during acute alcohol treatment, few brain pathways mediating the stimulatory effect of EtOH on ACTH release depend on the activation of CRF synapses. The induction of immediate early gene transcripts by alcohol similarly relies on hypothalamic circuits that stimulate CRF neurons relatively independently of the activation of CRF receptors. In contrast, functional pituitary CRF receptors are essential for the ACTH response to the drug.

Metabolic and behavioral effects of high-dose, exogenous testosterone in healthy men.

In addition to their use as replacement therapy for hypogonadal males, androgens, particularly testosterone (T), are being explored as potential hormonal male contraceptive agents, alone or in combination with other compounds. Androgens have regulatory effects on a variety of physiological systems in addition to gonadotropin secretion and spermatogenesis. Therefore, as hormonal contraceptive regiments that alter serum T levels are explored, it is important to evaluate their effects on these aspects of normal male physiology. The effects of exogenous T on suppression of spermatogenesis in 19 healthy men were recently compared, using a T dosage of 200 mg im/week for 20 weeks. Before treatment, the men were evaluated during a 3-month pretreatment period, and after treatment, they were followed for 4-6 months or until their sperm counts normalized. Because of the lack of information regarding the effects of exogenous T on nonreproductive physiology, we examined the effects of high-dose T on plasma lipids, calcium metabolism, and sexual behavior in our subjects. Mean serum T and estradiol levels increased significantly during the treatment period. Plasma high-density lipoprotein (HDL) cholesterol levels decreased significantly within the first month and remained suppressed during the duration of T administration. At the end of the treatment period, mean plasma HDL cholesterol had decreased by 13 +/- 2% (P < 0.05); plasma levels of HDL2, HDL3, and apoprotein AI also decreased significantly; mean levels of low density lipoprotein cholesterol and triglycerides were unchanged. After 1 month of the recovery period, plasma HDL levels had returned to the baseline range. Serum calcium levels decreased slightly during treatment; this decrease was statistically significant. Urinary calcium excretion did not change. Mean levels of serum intact PTH increased by 84 +/- 17% (P < 0.05) during T administration; in contrast, 25-hydroxyvitamin D levels decreased by 16 +/- 4% (P < 0.05), and 1,25-dihydroxyvitamin D levels did not change significantly. All markers of calcium metabolism returned to baseline during the posttreatment period. Little change was found in self-reported sexual and aggressive behaviors during the study. There was a trend toward increased arousal and spontaneous erections during T administration, but this did not reach statistical significance. Frequency of sexual intercourse, masturbation, and kissing and fondling did not change, nor was the subjects' satisfaction in their relationships affected by T administration. Mean body weight increased by 4.0 +/- 0.5 kg. Approximately half the men noted mild acne. Body weight and acne symptoms returned to baseline during the recovery period.(ABSTRACT TRUNCATED AT 400 WORDS)

Neuropeptide Y administered chronically into the lateral ventricle profoundly inhibits both the gonadotropic and the somatotropic axis in intact adult female rats.

Neuropeptide Y (NPY) is known to be involved in the central regulation of appetite, sexual behavior, and reproductive functions. Whereas central administration of NPY strongly stimulates feeding in satiated animals, diet restriction produces overexpression of NPY in the arcuate and paraventricular nuclei that might reflect behavioral adaptations to shortage of food. Previous studies indicated that central administration of NPY resulted in controversial actions on LH secretion, either stimulatory or inhibitory. In order to analyze the chronic effect on pituitary function of centrally administered NPY, stainless steel cannulae were implanted in the right lateral ventricles of intact 45-day-old Sprague-Dawley female rats. Ten days later, Alzet osmotic minipumps filled with saline or different concentrations of NPY adjusted to deliver 3, 6, 12, or 18 micrograms/day were connected to the intracerebroventricular (icv) cannulae, implanted sc dorsally, and the effects of these treatments evaluated after 7 days. Chronic icv infusion of NPY produced the expected dose-related increase in food intake [25.3 +/- 0.8 g/day (basal) to 47.9 +/- 4.3 g/day (highest NPY dose)] and body wt gain (3.7 +/- 0.4-11.5 +/- 1.4 g/day). Basal insulinemia was highly correlated to the increase in food intake. This orexigenic action of NPY was accompanied by a drastic dose-related decrease in pituitary wt (14.0 +/- 0.5-8.3 +/- 0.3 mg), pituitary concentration of GnRH receptors, a known marker of the activity of the hypothalamo-pituitary gonadal axis (15.2 +/- 1.7-5.2 +/- 0.5 fmol/mg), and ovarian wt (84.0 +/- 4.2-49 +/- 6.7 mg). Ovulation was impaired in NPY-treated animals as seen by daily inspection of vaginal smears. A sharp dose-dependent decrease in plasma levels of insulin-like growth factor I was also observed [934 +/- 64 ng/ml (basal) to 385 +/- 26 ng/ml (highest NPY dose)], probably secondary to a decrease in GH secretion. Whereas these data confirm the central action of NPY to stimulate appetite in satiated animals, they provide the first demonstration that chronic icv administration of NPY unequivocally inhibits gonadotropin secretion and sexual function in intact female rats. These data also confirm that NPY can suppress GH secretion and other anabolic hormones. In conclusion, these results may indicate a physiological role of NPY as an integrator of different adaptive behaviors in periods of unfavorable metabolic conditions such as diet restriction, extending its action to inhibition of sexual functions and anabolic processes.

Isolation and characterization of hypothalamic growth-hormone releasing factor from common carp, Cyprinus carpio.

A growth hormone-releasing factor (GRF)-like peptide was isolated from the hypothalamus of common carp, Cyprinus carpio, by acid extraction, gel filtration chromatography, immunoaffinity chromatography using antiserum directed against rat GRF, and multiple steps of HPLC using octadecyl columns. Based on Edman degradation and peptide mapping, this teleost GRF was established to be a 45-residue peptide with the following primary structure: His-Ala-Asp-Gly-Met-Phe-Asn-Lys-Ala-Tyr-Arg-Lys-Ala-Leu-Gly-Gln-Leu-Ser- Ala-Arg - Lys-Tyr-Leu-His-Thr-Leu-Met-Ala-Lys-Arg-Val-Gly-Gly-Gly-Ser-Met-Ile-Glu- Asp-Asp-Asn-Glu-Pro-Leu-Ser. Carp GRF is closely related structurally to peptides of the glucagon-secretin superfamily, and more particularly to mammalian vasoactive intestinal peptide (VIP) precursors and the N-terminal portion of mammalian GRFs. A synthetic replicate of this peptide is highly potent [50% effective dose (ED50) approximately 0.08 nM] in stimulating GH release from cultured goldfish pituitary glands and in elevating serum GH levels 30 min after injection (0.1 micrograms/g) in goldfish.

Treatment with conotoxin, an 'N-type' calcium channel blocker, in neuronal hypoxic-ischemic injury.

Therapeutic efficacy of calcium channel blockers in stroke remains controversial, but previously used agents bind almost exclusively to L-type calcium channels. The newly-discovered N-type calcium channel is specific to neurons, and therapy involving blockade of this site has not been previously attempted. We assessed the neuroprotective effect of omega-conotoxin GVIA (CgTx), a blocker of N-type calcium channels, using both in vitro hypoxic injury to rat cortical neurons and an in vivo model of reversible spinal cord ischemia in the rabbit. In cell cultures, CgTx inhibited hypoxia-induced 45Ca accumulation and neuronal injury minimally, compared to the NMDA antagonist ketamine. In vivo, the duration of spinal cord ischemia which produced permanent paraplegia in 50% of control animals (ET50) was 24.0 +/- 2.6 min. Animals treated 2 h prior to ischemia with 0.5 nmol CgTx in the subarachnoid space had an ET50 of 26.9 +/- 1.8 min (P = 0.36). Animals treated 24 h prior to ischemia (all had persistent systemic tremor) had a ET50 of 28.9 +/- 1.8 min (P = 0.13). We conclude that pharmacologic modulation of the N-type calcium channel does not provide a significant protective effect against neuronal hypoxic-ischemic injury.

Characterization of melanin-concentrating hormone from rat hypothalamus.

A melanin-concentrating hormone (MCH)-like peptide was isolated from rat hypothalamus by acid extraction, gel filtration chromatography, immunoaffinity chromatography using antiserum directed against salmon MCH, and two steps of HPLC using octadecyl columns. Several zones of immunoreactivity were isolated, and Edman degradation in a gas phase sequencer indicated that the amino acid sequence of all zones was identical. Rat hypothalamic MCH is a nonadecapeptide which differs from salmon MCH by an N-terminal extension of two amino acids and four additional substitutions. Rat MCH has the following primary structure: Asp-Phe-Asp-Met-Leu-Arg-Cys-Met-Leu-Gly-Arg-Val-Tyr-Arg-Pro-Cys-Trp-Gln- Val.

Oxytocin mediates the hypothalamic action of vasoactive intestinal peptide to stimulate prolactin secretion.

The ability of centrally administered vasoactive intestinal peptide (VIP) to stimulate PRL secretion when injected intracerebroventricularly could be due to leakage to the pituitary, where it is known to exert direct PRL-releasing activity, or to a hypothalamic action on its own release or that of another possible PRL-releasing factor. When 3 micrograms VIP were injected into the third ventricle of conscious ovariectomized rats, a significant (P less than 0.005) and transient elevation of plasma oxytocin (OT) levels was observed. When OVX rats were injected iv with 1 ml anti-OT serum 30 min before the central administration of 3 micrograms VIP, the PRL surge seen after VIP injection in normal rabbit serum-treated controls was completely absent. The PRL surge seen after central VIP administration was not significantly altered by iv saline infusion (1 ml over 30 min) or by infusion of a VIP antagonist [D-4-Cl-Phe6,Leu17]VIP at a dose of 0.5 microgram/kg.min in 1 ml saline for 30 min before the VIP injection. This was not due to the inability of the VIP antagonist to block the PRL-releasing factor activity of VIP, since it significantly antagonized that action both in vitro and in vivo in the suckling stimulation paradigm. However, the PRL surge was completely absent in ovariectomized rats pretreated by iv infusion of an OT antagonist, [deamino Cys1,D-Trp2,Val4,Orn8]OT, at a similar dose. This recruitment of OT by VIP indicates that it may act at more than one locus within the hypothalamo-pituitary axis to insure the coordinated control of PRL secretion.

The effect of intravenous, subcutaneous, and intranasal GH-RH analog, [Nle27]GHRH(1-29)-NH2, on growth hormone secretion in normal men: dose-response relationships.

A 29 amino acid analog of growth hormone releasing hormone (GH-RH)-40 was given intravenously, subcutaneously, and intranasally to normal men to determine its effectiveness in stimulating growth hormone (GH) release. The GH-RH analog, [Nle27]GH-RH(1-29)-NH2, is an amidated 29 amino acid peptide that has one amino acid substitution at position 27. This peptide stimulates GH secretion when given by the intravenous, subcutaneous, and intranasal routes without adverse effect. The degree of GH stimulation was variable among subjects and the greatest amount of stimulation occurred with the highest doses. GH stimulation occurred in a dose-responsive manner after all three routes of administration. A tenfold higher subcutaneous dose was required to stimulate a comparable amount of GH secretion as compared with intravenous administration, and a thirtyfold higher intranasal than intravenous dose was required to stimulate approximately one fifth the amount of GH release. For comparison, one dose of GH-RH-40, 1 microgram/kg, was administered intravenously. GH secretion after 1 microgram/kg GH-RH-40 and 1 microgram/kg Nle27 GH-RH was comparable between the two groups of subjects. Stimulation of GH secretion by Nle27 GH-RH occurred within 5 minutes of intravenous and within 10 minutes of subcutaneous and intranasal administration; peak GH levels were observed within 30 minutes. GH levels declined and returned to near baseline levels 2 hours after administration of the analog.(ABSTRACT TRUNCATED AT 250 WORDS)

Growth hormone releasing factor and somatomedin C production: extrahypothalamic localization and possible functional significance.

Growth hormone-releasing factor (GRF) is found in the highest concentration (albeit lower compared to other hypothalamic regulatory hormones) in the hypothalamus. There is mounting evidence that GRF-like immunoreactivity is found in other sites in the CNS and in the periphery. The role of GRF, other than to stimulate growth hormone secretion by the somatotroph, is unknown. In addition generation of IGF-1 in response to GRF appears to be dependent on an intact pituitary.

The distribution of growth-hormone-releasing factor (GRF) immunoreactivity in the central nervous system of the rat: an immunohistochemical study using antisera directed against rat hypothalamic GRF.

Immunohistochemical methods have been used to chart the distribution of rat hypothalamic growth-hormone-releasing factor (rhGRF) immunoreactivity in the brains of normal and colchicine-treated adult albino rats. The results suggest the existence of at least two distinct rhGRF-containing systems: one responsible for delivery of the peptide to portal vessels in the median eminence, and one whose relationship, if any, to hypophysiotropic function is less direct. A dense plexus of rhGRF-stained fibers was found throughout the external lamina of the median eminence that is the route by which the peptide is delivered to the anterior pituitary. This projection appears to arise primarily from a group of rhGRF-immunoreactive neurons centered in the arcuate nucleus. Some 1,000-1,500 rhGRF-positive neurons were counted on each side of the brain in rats pretreated with colchicine. Colocalization studies, using a sequential double staining technique, indicated that a subset of rhGRF-immunoreactive neurons in the arcuate region contain neurotensin immunoreactivity. No evidence was obtained for colocalization of rhGRF with either of two pro-opiomelanocortin-derived peptides (alpha-melanocyte-stimulating hormone, adrenocorticotropic hormone (1-24)) in individual neurons in the arcuate nucleus. Much smaller groups of neurons were localized in the parvicellular division of the paraventricular nucleus of the hypothalamus and in the dorsomedial nucleus, and it is unclear whether they contribute to the plexus of rhGRF-stained fibers in the median eminence. The only other region in the rat brain in which rhGRF-stained cells were found reliably was in the area that roughly encapsulates the caudal aspect of the ventromedial nucleus of the hypothalamus. Because cells in this region are not known to project to the median eminence, they may be assumed to contribute to the extrahypophysiotropic rhGRF-stained projections outlined below. From the level of the arcuate and ventromedial nuclei, rhGRF-immunoreactive fibers could be traced along the base of the brain and through the periventricular system to discrete terminal fields limited almost exclusively to the hypothalamus and adjoining parts of the basal telencephalon. All parts of the periventricular region of the hypothalamus receive an input, including the preoptic and anterior parts in which somatostatin-containing neurons that project to the median eminence are clustered. Other prominent terminal fields were localized in discrete parts of the dorsomedial, paraventricular, suprachiasmatic, and premammillary nuclei, and in the medial preoptic and lateral hypothalamic areas.(ABSTRACT TRUNCATED AT 400 WORDS)

Stimulation of food intake in rats by centrally administered hypothalamic growth hormone-releasing factor.

Hypothalamic growth hormone-releasing factors (GRFs) have been purified recently from human pancreatic (hp) tumours and from rat hypothalamus (rh). GRF peptides have strong homology with peptides of the glucagon, vasoactive intestinal polypeptide and PHI-27 family. Aside from their potent actions on release of somatotropin, no other biological actions of GRFs have been reported. GRF has been localized in neurones bordering the ventromedial hypothalamic nucleus, a region associated frequently with experimental analysis of feeding behaviour. We now report that intracerebroventricularly (i.c.v.)-administered rhGRF and hpGRF(1-40) in doses of 0.2, 2.0 and 20.0 pmol, produced an increase in food intake in hungry rats. This effect seemed to be specific to GRF as i.c.v. injections of a structurally related but physiologically inactive peptide in the same doses had no effect on feeding. In addition, peripheral injections of rhGRF or growth hormone had no effect on food intake, suggesting that the present effects may be mediated centrally. Injections (i.c.v.) of rhGRF (0.2, 2.0 and 20.0 pmol) had no effect on general activity, suggesting that GRF does not produce nonspecific arousal.

A radioimmunoassay specific for [Gln8]LH-RH: application in the confirmation of the structure of chicken hypothalamic luteinizing hormone-releasing hormone.

In the first report on the chemical structure of a nonmammalian LH-RH, chicken hypothalamic LH-RH was demonstrated to be [Gln8]LH-RH [2-4]. However, these studies and subsequent reports [7,8] did not totally exclude the possibility of a reverse sequence of the two amino acids Leu-Gln. In view of the recently described structure of salmon brain LH-RH as [Trp7,Leu8]LH-RH [9], we undertook to confirm our earlier conclusion that chicken LH-RH is [Gln8]LH-RH and not [Gln7, Leu8]LH-RH. The immunologic, chromatographic and biological properties of natural chicken hypothalamic LH-RH were compared with those of the two synthetic peptides, [Gln8]LH-RH and [Gln7,Leu8]LH-RH. A radioimmunoassay highly specific for [Gln8]LH-RH was developed. Natural chicken LH-RH cross-reacted fully with the antiserum which requires the COOH-terminal Gln8 to Gly10-NH2 for binding, while [Gln7,Leu8]LH-RH showed less than 0.1% cross-reaction. On a high resolution reverse phase high performance liquid chromatography system, natural chicken LH-RH co-eluted with [Gln8]LH-RH and was well separated from [Gln7,Leu8]LH-RH. In a chicken anterior pituitary cell bioassay, natural chicken LH-RH and [Gln8]LH-RH were equipotent in stimulating luteinizing hormone release, while the relative potency of [Gln7,Leu8]LH-RH was 4.4%. These data, in particular the use of a specific [Gln8]LH-RH antiserum, provide conclusive evidence that chicken LH-RH is [Gln8]LH-RH.

Corticotropin-releasing factor is a potent inhibitor of sexual receptivity in the female rat.

Corticotropin-releasing factor (CRF), the recently characterized and synthesized 41-amino acid polypeptide isolated from ovine hypothalami, has been shown to be a potent stimulator of adenohypophyseal beta-endorphin and corticotropin (ACTH) secretion both in vitro and in vivo. In common with other regulatory peptides, CRF has also been demonstrated to possess extra-hypophysiotropic roles. Indeed, intracerebroventricularly (i.c.v.) administered CRF elicits several endocrine and behavioural responses compatible with the concept that this peptide could be a key signal in coordinating the organism's endocrine and behavioural responses to stressful and other adaptive stimuli. We now provide the first evidence for neurally placed CRF in the control of a specific hormone-dependent behavioural response and unequivocally demonstrate an extremely potent suppressive effect of CRF on sexual behaviour in the female rat when microinfused into the arcuate-ventromedial area of the hypothalamus (ARC-VMH) and the mesencephalic central grey (MCG).

Sequence analysis of rat hypothalamic corticotropin-releasing factor with the o-phthalaldehyde strategy.

Sequence analysis was performed on a 41-residue polypeptide that has been identified as the predominant form of high intrinsic corticotropin-releasing activity of rat hypothalamus. The sequence of residues 1-39 of this corticotropin-releasing factor (CRF) was determined by Edman degradation of a partially purified peptide in a highly sensitive spinning cup sequencer after selective blocking of CRF or its main contaminant with o-phthalaldehyde. This approach was validated by peptide mapping of CRF of a highly purified preparation. Peptide mapping was accomplished with reverse-phase high-pressure liquid chromatography of CRF fragments obtained by digestion with clostripain. The identities of the fragments cleaved from CRF were established by chromatographic comparison with synthetic peptides, amino acid analysis, and Edman degradation. On the basis of these experiments, the primary structure of rat hypothalamic CRF was established to be H-Ser-Glu-Glu-Pro-Pro-Ile-Ser-Leu-Asp-Leu-Thr-Phe-His-Leu- Leu-Arg-Glu-Val-Leu-Glu-Met-Ala-Arg-Ala-Glu-Gln-Leu-Ala-Gln-Gln-Ala-His-Ser-Asn - Arg-Lys-Leu-Met-Glu-Ile-Ile-NH2. It is expected that the o-phthalaldehyde strategy will facilitate the sequence analysis of partially purified peptides containing proline residues.

Characterization of rat hypothalamic corticotropin-releasing factor.

A polypeptide was purified from rat hypothalamic extracts on the basis of its high intrinsic activity to release corticotropin (ACTH) from cultured rat anterior pituitary cells and its immunoactivity in a radioimmunoassay directed against the NH2 terminus (residues 4-20) of ovine hypothalamic corticotropin-releasing factor (CRF). Based on Edman degradation, peptide mapping, and amino acid analysis, the primary structure of this rat CRF was established to be: H-Ser-Glu-Glu-Pro-Pro-Ile-Ser-Leu-Asp-Leu-Thr-Phe-His-Leu-Leu-Arg-Glu-Val-Leu-Glu-Met-Ala-Arg-Ala-Glu-Gln-Leu-Ala-Gln-Gln-Ala-His-Ser-Asn-Arg-Lys-Leu-Met-Glu-Ile-Ile-NH2. The hypophysiotropic potency of synthetic rat CRF did not deviate significantly from the potencies of the isolated native peptide or of synthetic ovine CRF. The close structural relationship between rat and ovine hypothalamic CRF is indicated by an 83% sequence homology.