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 pituitary-hypothalamo-pineal complex involving MSH, MIF-I and melatonin has been strongly emphasized in the adaptive mechanism of the animal. A series of experiments was conducted to investigate the effects of alpha-MSH, MIF-I and melatonin on novelty-induced defecation, step-down activity, plasma 11-OHCS levels and whole brain DA and NE concentrations over days of novelty X drug treatment. alpha-MSH consistently enhanced and sustained novelty-induced defecation, increased plasma 11-OHCS levels in the resting intact rats and in the novelty exposed hypophysectomized (hypox) rats, and decreased brain DA and NE levels in intact, hypox and sham-hypox rats. MSH did not increase plasma 11-OHCS in intact and sham-hypox rats during exposure to novelty. MIF-I significantly habituated novelty-induced defecation and increased brain DA and NE levels over 5 days of drug X novelty treatment. Melatonin, on the other hand, inhibited novelty-induced defecation, decreased plasma 11-OHCS and increased brain DA level over 5 days of melatonin X novelty treatment. MSH, MIF-I or melatonin did not show any significant effect on the step-down activity of the rats. The results suggest the possibility that central CAs may be implicated in the behavioral changes observed after alpha-MSH, MIF-I and melatonin administration and in the interaction of the pituitary-hypothalamo-pineal complex involving MSH, MIF-I and melatonin.
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PMID:alpha-MSH, MIF-I and melatonin: effects on novelty-induced defecation, plasma 11-OHCS and central catecholamines in rats. 611 65

The effect of alpha-MSH on coat color was examined in viable yellow mice (C3H/He-A*vy). These mice normally grow a coat of darkly pigmented hair at puberty. This darkening effect was also evident in hair that grew in a region that had been plucked at 13 days of age. Administration of alpha-MSH increased the darkness of this hair and the hair which grew naturally in an unplucked area. However, the natural coat darkening that occurred at puberty was not associated with an increase in plasma immunoreactive alpha-MSH levels. Moreover, although bromocryptine, a dopamine agonist that inhibits alpha-MSH release from the pituitary reduced the darkness of the coat that grew after plucking the reduction in coat darkening was unrelated to changes in plasma alpha-MSH. Nevertheless, this effect of bromocryptine was reversed when alpha-MSH was administered together with the drug. Apomorphine had no effect on coat darkening and produced only a slight decrease in plasma alpha-MSH. Melatonin reduced coat darkening slightly but, like apomorphine, had little effect on plasma alpha-MSH concentrations. Although alpha-MSH may have a physiological role in coat darkening in the C3H/He-A*vy mouse at puberty the response seems to be unrelated to an increase in circulating alpha-MSH. Thus, other factors, such as changes in melanocyte sensitivity to alpha-MSH or inhibitory mechanisms that prevent coat darkening during prepubertal and adult life may be involved in regulation of coat color in the viable yellow mouse.
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PMID:Alpha-MSH and coat color changes in the mouse. 653 Dec 69

In short-term (48 hr) culture hair follicles of the Siberian hamster retain both tyrosinase activity and the capacity to produce melanin. The addition of melatonin to such cultures at concentrations between 10-6 M and 10-10 M brings about a dose-related inhibition of melanogenesis but tyrosinase activity is unaffected. The use of a series of melatonin analogues and blockers suggests that the hair follicle melanocytes possess melatonin receptors, although their location remains to be determined. Melatonin also inhibits the increase in melanogenesis brought about by alpha-melanocyte-stimulating hormone (MSH) but again it has no effect upon the increased levels of tyrosinase which accompany this MSH response. It is suggested that melatonin inhibits melanogenesis through a mechanism which operates at some post-tyrosinase step in the melanin biosynthetic pathway.
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PMID:Post-tyrosinase inhibition of melanogenesis by melatonin in hair follicles in vitro. 676 70

The present study shows tha alpha-MSH facilitates the acquisition and delays the extinction of a Passive Avoidance Response (PAR) in the hypox animals. MSH exacerbates PA-induced defecation in both hypox and sham-hypox animals. Hypox and sham-hypox animals treated with MSH do not differ on PAR or on PA-induced defecation. Melatonin, on the other hand, has no significant effect on PAR in hypox rats, but retards acquisition and facilitates extinction of the PAR in sham-hypox rats. Melatonin also inhibits PA-induced defecation in sham-hypox rats. Sham-hypox and hypox rats treated with Melatonin do not differ on PAR learning, retention (Extinction) and PA-induced defecation. MSH and Melatonin also seem to have opposite effects on plasma 11-OHCS levels measured at the end of PAR extinction. MSH increases plasma 11-OHCS in hypox rats, whereas Melatonin decreases plasma 11-OHCS in sham-hypox rats. Melatonin does not lower further the very low level of plasma 11-OHCS in hypox rats.
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PMID:Effects of alpha-MSH and melatonin on passive avoidance and on PA-induced defecation and plasma 11-OHCS in hypophysectomized rats. 724 13

Lewis (LEW/N) and Fischer (F344/N) rats are histocompatible inbred strains characterized, respectively, by susceptibility and resistance to inflammatory disease. The susceptibility of LEW/N rats to inflammation has been associated with deficient corticotropin-releasing hormone (CRH), ACTH, and corticosterone responses to inflammatory stimuli, specifically attributed to a global impairment in hypothalamic CRH neuron function. In contrast to the LEW/N rats, F344/N rats demonstrate an intact hypothalamic-pituitary-adrenal (HPA) axis. Melatonin, a neurohormone initially isolated in the pineal gland, has been implicated with inhibition of the HPA axis. To investigate melatonin synthesis and secretion in LEW/N and F344/N rats, we examined the diurnal activity of pineal arylalkylamine N-acetyltransferase (NAT1), the rate-limiting enzyme in melatonin biosynthesis, which demonstrates circadian rhythmicity, as well as the diurnal levels of serum melatonin, in both strains. Arylamine N-acetyltransferase (NAT2), a related enzyme activity, thought not to be regulated in a circadian manner, was examined as a control of NAT1 activity. Pineal NAT1 activity peak was observed later and reached significantly higher levels in LEW/N than in F344/N rats. Serum melatonin levels reflected the circadian pattern of the NAT1 activity, without, however, showing any quantitative differences between the two strains. Time-course of pineal NAT1 activity response to beta-adrenergic stimulation was parallel in the two rat strains, whereas the magnitude of the response as greater in LEW/N than in F344/N rats. No circadian or major quantitative differences in NAT2 activity were found between the two strains. Size-exclusion HPLC chromatograms of NAT1 activity revealed similar patterns in both rat strains.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differences in arylalkylamine N-acetyltransferase activity between inflammatory disease-susceptible Lewis and -resistant Fischer rats. 756 41

Melatonin is a weak dose-independent lightening agonist in fish skin, a moderate dose-dependent lightening agonist in toad skin and a potent lightening agent in frog and lizard skins (reversing in a dose-dependent manner the darkening caused by alpha-melanocyte-stimulating hormone). In frog skins, previous exposure to melatonin reduced further lightening actions of the indoleamine, and in toad skins, increasing concentrations of melatonin elicited decreasing lightening responses, suggesting an autodesensitizing action of the hormone. Various concentrations of melatonin diminished the responses to the lightening agonist melanin-concentrating hormone (MCH) in fish skins and to the darkening agonists alpha-MSH in toad, frog and lizard skins and isoproterenol in frog skins. In vitro inhibitory actions of melatonin are mimicked in the absence of the hormone in skin preparations from toads kept in continuous darkness for 48 hr. The lipophylic nature of the indoleamine associated with the results herein described suggests intracellular actions of melatonin on vertebrate pigment cells.
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PMID:Melatonin desensitizing effects on the in vitro responses to MCH, alpha-MSH, isoproterenol and melatonin in pigment cells of a fish (S. marmoratus), a toad (B. ictericus), a frog (R. pipiens), and a lizard (A. carolinensis), exposed to varying photoperiodic regimens. 782 22

Changes in central neurotransmission and in hypothalamo-pituitary function occur in both ethanol (ETOH) intake and withdrawal. Melatonin (MLT) secretion is regulated by the noradrenergic system, which is activated upon ETOH withdrawal. Experimental evidence exist that pineal gland may have a role in ETOH intake and preference in rats. Twenty-four hour urinary excretion of MLT was found to be increased during ETOH intake in chronic alcoholics. In this study we have determined 24h plasma levels of MLT and cortisol in 8 chronic alcoholic males hospitalized for a detoxication program and in 8 healthy controls. The study was performed just after admission, on the first day of ETOH withdrawal and after 14 days of controlled abstinence. Circadian periodicity has been evaluated by the cosinor method. The initial determinations corresponded to the acute withdrawal phase. Twenty-four hour plasma MLT mean levels on acute withdrawal were higher than after 14 days abstinence and than those found in controls. Large interindividual differences prevented the detection of statistical significance. The cosinor analysis disclosed the loss of circadian periodicity in the acute withdrawal. Significant 24h periodicity was restored after 14 days abstinence. Cortisol levels were significantly higher than those found on day 14 and in healthy controls. Twenty-four hour periodicity was maintained in both alcoholics series. A delay in cortisol acrophase occurred in acute withdrawal. The effects of Corticotropin Releasing Hormone infusion on cortisol secretion were significantly enhanced in the acute withdrawal phase in comparison with those occurring when patients were retested and with healthy controls.
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PMID:Melatonin and cortisol circadian secretion during ethanol withdrawal in chronic alcoholics. 792 29

The pineal hormone melatonin modulates the brain benzodiazepine binding sites and its circadian rhythm. In the present study the effects of intracerebroventricular (i.c.v.) administration of naloxone (10-20 ng), alone or in association with melatonin and/or beta-endorphin, on [3H]flunitrazepam ([3H]FNZ) binding to the rat cerebral cortex of hypophysectomized rats was investigated. Melatonin (10-20 ng), beta-endorphin (10-20 ng), and melatonin + beta-endorphin (10-20 ng of each compound) all increased [3H]FNZ binding to a similar extent and in a dose-related manner. The effects of melatonin (10 ng) on [3H]FNZ binding were prevented by simultaneous injection with the specific opioid antagonist naloxone. Naloxone also blocks, although to a lesser extent, the effects of beta-endorphin and of melatonin + beta-endorphin injections. Moreover, naloxone blocks the hypophysectomy-dependent increase in [3H]FNZ binding. These results implicate the modulation of melatonin-dependent changes on brain benzodiazepine receptors by opioid peptides.
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PMID:Intracerebroventricular injection of naloxone blocks melatonin-dependent brain [3H]flunitrazepam binding. 839 64

Effects of melatonin on hypothalamic neurotransmitters in male mice were studied. Exogenous melatonin administered intraperitoneally significantly increased (p < 0.05) hypothalamic concentrations of aspartic acid and gamma-aminobutyric acid by over 29 and 50% respectively. Conversely, hypothalamic beta-endorphin concentration was significantly decreased (p < 0.05) 30 min after melatonin administration with doses between 5- and 100 micrograms/kg. Similarly, melatonin, at a concentration of 100 micrograms/kg, decreased (p < 0.05) the serotonin level in mouse hypothalamus by 46%. Melatonin, however, did not affect the concentration of hypothalamic glutamic acid over a dose range of 0.5-300 micrograms melatonin/kg. Our findings suggested that actions of pineal melatonin in animals such as inhibition on serum corticosterone levels might be mediated by the potentiation of activities of hypothalamic neurons containing gamma-aminobutyric acid and aspartic acid or by the inhibition of the beta-endorphin and serotonin hypothalamic neurons. The neurons containing glutamic acid in the hypothalamus were, however, not influenced by melatonin. Our results are in line with the suggestion that melatonin actions on adrenal corticosterone release or other endocrine secretions may be mediated by way of its actions on hypothalamic neurotransmitter activities.
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PMID:Effects of melatonin on hypothalamic gamma-aminobutyric acid, aspartic acid, glutamic acid, beta-endorphin and serotonin levels in male mice. 872 Jun 89

Melatonin is a skin lightening agonist of the toad Bufo ictericus. The hormone also exhibits an autodesensitizing action as well as an inhibitory activity on the darkening response to alpha-MSH. In an attempt to pharmacologically characterize the melatonin receptor of the toad pigment cells, serotonin and N-acetylserotonin (intermediate products of melatonin biosynthesis) biological activities were compared to melatonin effects. Serotonin (6.4 x 10(-5) to 10(-9) M) exhibited no lightening or inhibitory activity on MSH-elicited darkening responses or melatonin-elicited lightening responses. N-acetylserotonin, although less potent than melatonin, elicited a significant lightening response on previously MSH-darkened skins. Previous exposure of the skins with N-acetylserotonin reduced both MSH-induced darkening and melatonin-induced lightening in MSH-darkened skins. These results suggest a competitive inhibition of melatonin by N-acetylserotonin and indicate that melatonin receptors in B. ictericus pigment cells may be similar to ML-1 type found in chicken retina.
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PMID:Serotonin and N-acetylserotonin effects on pigment cells of the toad Bufo ictericus: pharmacological characterization of melatonin receptors. 881 70

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