UNIPROT:P01189 - FACTA Search

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of bombesin and other unrelated oligopeptides on hormonal changes induced by stress were studied in conscious adult male rats. Restraint in the cold for 1 h increased plasma corticosterone and PRL levels and decreased GH values but had no effect on LH levels. Bombesin (5 microgram), given intracerebroventricularly (ivt) before stress, inhibited the PRL rise without affecting corticosterone, GH, or LH response. A complete blockade of PRL rise was observed with doses of bombesin ranging from 5 microgram to 100 ng ivt, regardless of the duration (15, 30, 45, or 60 min) or the nature (cold exposure or restraint at room temperature) of the stressor agents. Bombesin was 10(3) more potent as a PRL inhibitor when given ivt than when given iv, and its ivt effect was not reversed by naloxone (1 or 10 mg/kg). Among other unrelated peptides tested (beta-endorphin, neurotensin, substance P, and TRH; 5 microgram ivt), only neurotensin decreased plasma PRL levels in rats subjected to restraint in the cold for 1 h. These results show that in conscious male rats, centrally administered bombesin has a very potent and long acting inhibitory effect on PRL release induced by acute stress. Since a bombesin-like peptide has been found in rat brain, its physiological role in PRL regulation remains to be elucidated.
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PMID:Effects of neuropeptides on adenohypophyseal hormone response to acute stress in male rats. 10 88

The adenylate cyclase responses of the human GH or ACTH producing pituitary adenomas and ectopic ACTH producing tumors to TRH, LH-RH, biogenic amines, peptides hormones, PGE1 and rat median eminence extract (MEE) have been examined. Out of 4 GH producing pituitary adenomas obtained from patients with active acromegaly at hypophysectomy two were stimulated by TRH, two by LH-RH, three by norepinephrine, one by dopamine, four by PGE1 and none by serotonin. Glucagon stimulated the adenylate cyclase in one of three and MEE in both of two tested. The positive responses of paradoxical GH release after TRH and/or LH-RH before surgery in these patients coincidentally related to the response of adenylate cyclase of each pituitary adenoma. There seems, however, to be no consistent correlation between the adenylate cyclase responses to biogenic amines and the GH release after L-Dopa or 5-hydroxytroptophan tested. The adenylate cyclase of a pituitary adenoma from case of Cushing's disease was stimulated by LH-RH, norepinephrine glucagon and MEE but not by TRH. Plasma levels of ACTH, beta-MSH and cortisol increased after LH-RH but not after TRH in this patient before hypophysectomy. The adenylate cyclase of two ectopic ACTH producing tumors (gastric carcinoid and malignant thymoma) was activated by TRH, LH-RH, norepinephrine, epinephrine, serotonin, PGE1 and MEE. These results indicate the presence of multiple hormone receptors in GH or ACTH producing pituitary adenomas and ectopic ACTH producing tumors, and suggest that the paradoxical GH or ACTH release after TRH and/or LH-RH injection in acromegaly and Cushing's syndrome might be caused by an alteration of the cellular membrane receptors of the pituitary adenomas.
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PMID:Adenylate cyclase of GH and ACTH producing tumors of human: activation by non-specific hormones and other bioactive substances. 19 Feb 56

Using high-performance liquid chromatography (HPLC) in combination with radioimmunoassay, three forms of alpha-MSH (des-acetyl, mono-acetyl and di-acetyl alpha-MSH) were separated and identified in tilapia neurointermediate lobes and plasma, and in medium from lobes superfused in vitro. The presence of acetylated forms in lobe extracts indicated that the peptides are acetylated intracellularly. Di-acetyl alpha-MSH was, especially in comparison with monoacetyl alpha-MSH, relatively more abundant in lobe extracts than in plasma. This suggests that the three forms of alpha-MSH are not released according to their relative intracellular abundances. The possibility of regulation of this differential release by dopamine and TRH was investigated, using a microsuperfusion system. Dopamine was a potent inhibitor of alpha-MSH release, but did not modulate the relative abundance of the different forms of alpha-MSH released from the MSH cells. TRH was a potent stimulator of alpha-MSH release. It enhanced in vitro the release of di-acetyl alpha-MSH more than the release of mono-acetyl alpha-MSH. Thus tilapia may be able to modulate not only the quantitative but also the qualitative signal from the MSH cells. This might enhance the flexibility of the animals to respond to environmental challenges.
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PMID:Regulation of differential release of alpha-melanocyte-stimulating hormone forms from the pituitary of a teleost fish, Oreochromis mossambicus. 164 62

1. In rats, recovery of sensory-motor function following a crush lesion of the sciatic or tibial nerve was monitored by measuring foot reflex withdrawal from a local noxious stimulation of the foot sole. 2. Putative neurotrophic compounds were tested on this functional recovery model: melanocortins (peptides derived from ACTH (corticotropin) and alpha-MSH (melanotropin], gangliosides and nimodipine were effective whereas isaxonine and TRH (thyrotropin releasing hormone) were not. 3. Structure-activity studies with melanocortins revealed a similar effectiveness of alpha-MSH, [N-Leu4, D-Phe7]-alpha-MSH, desacetyl-alpha-MSH and the ACTH analogue ORG 2766, questioning the validity of the previously suggested notion that the melanotrophic properties of these peptides are responsible for their neurotrophic effect. 4. As recovery of function after peripheral nerve damage follows a similar time course in hypophysectomized (five days post operation) and sham-operated rats, effective melanocortin therapy does not mimic an endogenous peptide signal in the repair process from pituitary origin. 5. Subcutaneous treatment with ORG 2766 (7.5 micrograms kg-1 48 h-1) facilitates recovery of function following peripheral nerve damage in young (6-7 weeks old), mature (5 month old) and old (20 month old) rats. 6. In view of the diversity in structure of the effective neurotrophic factors and the complexity of nerve repair, the present data support the notion that peripheral nerve repair may be facilitated by different humoral factors likely to be active on different aspects of the recovery process.
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PMID:Putative neurotrophic factors and functional recovery from peripheral nerve damage in the rat. 167 80

There was no apparent difference in the regional distribution of neuropeptides in the brain of male and female rats. The highest levels of immunoreactive leu-enkephalin, TRH, substance P and somatostatin were found in the hypothalamus, while the striatum and the cerebral cortex had the highest concentrations of met-enkephalin and cholecystokinin respectively. The lowest concentrations of these were found in the cerebellum. Enkephalins (cerebral cortex), substance P (cerebral cortex and brain stem), and somatostatin (brain stem and striatum) showed higher level in the female while enkephalin and substance P contents in the anterior pituitary were higher in the male.
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PMID:The regional distribution of thyrotropin releasing hormone, leu-enkephalin, met-enkephalin, substance P, somatostatin and cholecystokinin in the rat brain and pituitary. 171 78

It was previously shown in this laboratory that high affinity binding of [125I]ACTH-(1-24) to membranes from rat brain was inhibited by vasoactive intestinal polypeptide (VIP), GH-releasing factor (GRF), and dynorphin (DYN), but not by other peptides tested. We now show that these peptides compete for [125I]VIP binding in brain and for [125I]ACTH-(1-24) binding in adrenal cortex and promote steroidogenesis. The high affinity sites for [125I]ACTH-(1-24) in the rat brain and bovine adrenal had Kd values of 0.51 +/- 0.41 and 3.9 +/- 1.3 nM, respectively; and the Ki values for VIP were 5.4 +/- 4.2 and 1.4 +/- 0.51 nM, respectively. In rat brain and bovine adrenal the high affinity site for [125I]VIP had Kd values of 2.9 +/- 1.7 and 0.5 +/- 0.8 nM, respectively, and Ki values for ACTH of 23.6 +/- 14.0 and 22.2 +/- 33.0 nM, respectively. In brain, DYN and GRF inhibited binding of [125I]VIP with Ki values of 49 and 30 nM, respectively. Cortisol secretion from isolated bovine adrenal cortical cells was significantly stimulated by 10(-10) M ACTH, VIP, DYN, or GRF, and a maximal response occurred for each at 10(-8) M. However, maximal cortisol production in response to VIP, DYN, or GRF was only about half that by ACTH-(1-24). The combination of ACTH-(1-24) and VIP, each at 10(-10) M, was additive in stimulating cortisol production, whereas each at 10(-8) M caused no greater response than ACTH alone. There was an additive steroidogenic effect of VIP plus ACTH-(1-10), but not VIP plus ACTH-(11-24). Specific binding of [125I]ACTH-(11-24) in adrenal membranes was inhibited by unlabeled ACTH-(11-24), ACTH-(1-24), VIP, GRF, and DYN, but not by ACTH-(1-10), peptide T, TRH, alpha MSH, or beta-endorphin; there was no specific binding of [125I]ACTH-(1-10). Functional studies and binding data, in conjunction with the existence of homologous amino acid sequences, indicate that VIP, GRF, and DYN interact at a subpopulation of ACTH receptors that recognizes a moiety within the 11-24 sequence of the ACTH molecule.
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PMID:Adrenocorticotropin, vasoactive intestinal polypeptide, growth hormone-releasing factor, and dynorphin compete for common receptors in brain and adrenal. 196 78

The finding of endocrine gland lesions at pathological examination in AIDS and reports of several cases of endocrine disease in patients with this syndrome have prompted us to study endocrine functions in 63 patients (51 men, 12 women) with HIV-1 infection. According to the Center for Disease Control (CDC) classification system, 13 of these patients were stage CDC II, 27 stage CDC III and 23 stage CDC IV. We explored the adrenocortical function (ACTH, immediate tetracosactrin test) and the thyroid function (free T3 and T4 levels, TRH on TSH test) in all 63 patients. The hypothalamic-pituitary-gonadal axis (testosterone levels, LHRH test) and prolactin secretion (THR test) were explored in the 51 men. The results obtained showed early peripheral testicular insufficiency at stage CDC II and early pituitary gland abnormalities with hypersecretion of ACTH and prolactin also at stage CDC II. On the other hand, adrenocortical and pituitary abnormalities were not frequently found. The physiopathology of the endocrine abnormalities observed in HIV-1-infected patients remains unclear, but one may suspect that it involves interleukin-1 since this protein factor has recently been shown to stimulate the corticotropin-releasing hormone secretion and to act directly on the glycoprotein capsule of the virus (gp 120) whose structure is similar to that of some neurohormones.
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PMID:[Endocrine abnormalities in HIV infections]. 216 75

Previous studies have demonstrated that TRH is a potent stimulator of alpha-MSH secretion from frog pituitary melanotrophs. In order to determine the intracellular events responsible for TRH-evoked alpha-MSH release, we have investigated the effect of TRH on polyphosphoinositide breakdown in frog pars intermedia. Neurointermediate lobes were labelled to isotopic equilibrium with myo-[3H]inositol. TRH stimulated the rate of incorporation of [3H]inositol into the phospholipid fraction. The effect of TRH was concentration-dependent; half-maximal stimulation of alpha-MSH release and inositol incorporation occurred at 12 and 28 nmol TRH/l respectively. In prelabelled neurointermediate lobes, lithium (10 mmol/l) enhanced the radioactivity in inositol monophosphate, bisphosphate (IP2) and trisphosphate (IP3). LiCl (10 mmol/l) induced a 38% inhibition of alpha-MSH release from perifused neurointermediate lobes but did not impair TRH-induced alpha-MSH secretion. In the presence of LiCl, TRH (1 mumol/l) induced a transient increase of the radioactivity in IP3, which was evident by 30 s and maximal by 1 min (+100%). TRH treatment also increased the radioactivity in IP2, which reached a plateau after 5 min (+100%). The increase in radioactivity in IP3 induced by TRH was closely paralleled by a rapid loss of [3H]phosphatidylinositol bisphosphate (PIP2), which was maximal by 1 min (-70%). These results indicate that, in frog pars intermedia, TRH-evoked alpha-MSH secretion is coupled to breakdown of PIP2. The data suggest that, in amphibian melanotrophs, as previously shown in GH3 tumour cells and in rat pituitary mammotrophs, TRH causes rapid stimulation of polyphosphoinositide-hydrolysing phospholipase C.
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PMID:Thyrotrophin-releasing hormone stimulates polyphosphoinositide metabolism in the frog neurointermediate lobe. 217 40

The existence of a short-loop feedback inhibition of pituitary ACTH release by administration of beta-endorphin was postulated. However, data on the effect of peripherally administered beta-endorphin in humans are highly controversial. We infused human synthetic beta-endorphin at a constant rate of 1 microgram.kg-1.min-1 or normal saline to 7 normal volunteers for 90 min. Thirty min after starting the beta-endorphin or placebo infusion, releasing hormones were injected as a bolus iv (oCRH and GHRH 1 microgram/kg, GnRH 100 micrograms, TRH 200 micrograms) and blood was drawn for measurements of beta-endorphin immunoreactivity, all other pituitary hormones, and cortisol. Infusion of beta-endorphin resulted in high beta-endorphin plasma levels with a rapid decrease after the infusion was stopped. During the control infusion, beta-endorphin plasma levels rose in response to CRH. Plasma ACTH and serum cortisol levels in response to the releasing hormone were not different in subjects infused with beta-endorphin or placebo. The PRL response to TRH was significantly higher after beta-endorphin than after placebo (area under the stimulation curve 1209 +/- 183 vs 834 +/- 104 micrograms.l-1.h). There was no difference in the response of all other hormones measured. Our data on ACTH and cortisol secretion do not support the concept of a short-loop negative feedback of beta-endorphin acting at the site of the pituitary.
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PMID:Infusion of beta-endorphin has no suppressive effect on the releasing hormone-stimulated pituitary-adrenal-axis of normal human subjects. 217 40

Histamine (HA), which acts as a neurotransmitter in the central nervous system, participates in the neuroendocrine regulation of prolactin (PRL) secretion. HA has a predominant stimulatory effect which is mediated via H2-receptors following central administration and via H1-receptors following systemic infusion of the amine. In addition, HA seems to exert a minor inhibitory effect on PRL secretion, an effect unmasked only during blockade of the receptor mediating the stimulatory effect. Following central administration the inhibitory effect is mediated via H1-receptors, while following systemic administration this effect is mediated via H2-receptors. In accordance with these findings, the H2-receptor antagonist cimetidine (CIM) has an inhibitory (following central administration) or stimulatory (following systemic administration) effect on PRL secretion. However, high doses of CIM possess an additional PRL stimulatory action not related to blockade of H2-receptors. This non-specific action is not exerted by the chemically different H2-receptor antagonist ranitidine. Since HA has no effect directly at the pituitary level, the actions of the amine may occur at different sites within the hypothalamus by an effect on hypothalamic transmitters regulating PRL secretion. Dopaminergic as well as serotoninergic neurons are involved in the mediation of the action of HA, since the dopamine (DA) concentration in the pituitary portal vessels is decreased by central or systemic infusion of HA, and since blockade of DA synthesis and of DA or serotonin (5-HT) receptors inhibit or prevent the PRL stimulatory action of HA infused centrally or systemically. However, other factors regulating PRL secretion (e.g. beta-endorphin, vasoactive intestinal peptide, vasopressin or TRH) may be involved in the mediation of the PRL response to HA. In men the effects of HA on PRL secretion are similar to the effects in male rats. Systemic infusion of HA stimulates PRL secretion via H1-receptors and inhibits PRL secretion via H2-receptors. The PRL-stimulatory effect of HA is caused by an inhibition of the dopaminergic system, while the PRL-inhibitory effect of HA may involve other transmitters than DA. In contrast to its stimulatory effect in men, HA had no effect on basal PRL secretion in women, but enhanced the PRL response to TRH. In rats or in humans the PRL stimulatory effect of HA is not caused by the cardiovascular actions of the amine.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Histaminergic regulation of prolactin secretion. 218 99

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