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)

To study the effect of human beta-endorphin (beta h-End) on pituitary response to gonadotropin-releasing hormone (LH-RH) and thyrotropin-releasing hormone (TRH) in vitro, we used dispersed rat pituitary cells. When beta h-End (10(-7) M) was simultaneously added along with LH-RH, its stimulatory effect was blocked and naloxone (NAL, 10(-5) M) did not reverse the beta h-End inhibitory effect. NAL alone elicited an increase in LH release, but in the presence of both stimulants (LH-RH and NAL), LH secretion was lower than that observed with LH-RH alone. TRH stimulatory activity of TSH and PRL secretion was blunted by the presence of beta h-End (10(-7) M) and was not reversed by NAL (10(-5) and 10(-3) M). These data suggest that beta h-End directly blocks the LH, TSH- and PRL-secreting activity of both LH-RH and TRH at the pituitary level. This beta h-End effect is not reversed by the specific opiate receptor blocker NAL.
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PMID:Inhibitory effect of beta-endorphin on gonadotropin-releasing hormone and thyrotropin-releasing hormone releasing activity in cultured rat anterior pituitary cells. 294 10

A newly established RIA was used to measure changes in the concentration of beta-endorphin in peripheral blood and pituitary tissue from adult Soay rams living outside under natural conditions and housed indoors under artificial photoperiods. A pronounced seasonal cycle in plasma beta-endorphin immunoreactivity occurred in the outdoor animals, with low levels in spring and early summer (February-May; less than 200 pg/ml plasma) and maximal levels 10-20 times higher in late summer and autumn (July-October). Seasonal changes in plasma levels of PRL, FSH, and cortisol, testis size, and body weight were also monitored; the seasonal cycle in the levels of immunoreactive beta-endorphin occurred in parallel with the cycle in plasma FSH and body weight. There were no significant seasonal changes in plasma cortisol concentrations. Marked changes in the plasma levels of beta-endorphin were also seen in rams kept under the artificial photoperiod regimen of alternating 12- to 16-week periods of long days (16 h of light and 8 h of darkness; 16L:8D) and short days (8L:16D). Transfer from long days to short days led to a greater than 20-fold increase in the levels of beta-endorphin, reaching a maximum after 4-8 weeks; the reverse switch in photoperiod led to a rapid decrease in the levels. There was no diurnal rhythm in the plasma levels of beta-endorphin based on hourly samples collected for 24 h under long and short days. The total content of immunoreactive beta-endorphin in the pituitary gland was lower in rams under short days than under long days, converse to the pattern in the blood. Sephadex chromatography of the plasma samples revealed that most of the beta-endorphin immunoreactivity coeluted with synthetic beta-endorphin-(1-31), and a small amount of activity eluted with beta-lipotropin. The seasonal and photoperiod-induced changes were largely due to changes in the levels of beta-endorphin. Extracts of pituitary tissue revealed a large proportion of beta-lipotropin to beta-endorphin compared to plasma, with no consistent change in ratio related to the photoperiod. The overall results illustrate that there are pronounced seasonal and photoperiod-induced changes in immunoreactive plasma beta-endorphin levels in the ram. Under artificial photoperiods, long days inhibit and short days stimulate beta-endorphin secretion. Under natural conditions, the development of refractoriness to both the inhibitory effects of long days and the stimulatory effects of short days may explain the timing of the annual cycle of beta-endorphin secretion.
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PMID:Beta-endorphin secretion in rams related to season and photoperiod. 294 17

It is known that prolonged therapy with cytotoxic drugs may affect the endocrine system. The present study was carried out to establish whether administration of chemotherapeutic drugs acutely influences hypophyseal and pineal activities. Nineteen patients affected by solid tumors were included in the study, 5 of whom were treated with CMF, 4 with FEC, 4 with CEV, and 6 with CDDP. Cytotoxic drugs were intravenously administered. Venous blood samples were collected at zero time and at 30, 60, 120 and 180 min after drug administration. On a separate occasion, venous blood samples were drawn during a saline infusion only. In each sample FSH, LH, GH, PRL, TSH, cortisol, melatonin and beta-endorphin were determined by the RIA method. The only significant changes observed in this study were a rise in PRL and a decrease in beta-endorphin after CDDP administration. Melatonin was enhanced after CDDP and CMF, and cortisol decreased after CMF and FEC, but their variations were not statistically significant with respect to those seen during saline infusion.
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PMID:Acute effects of various chemotherapeutic combinations on hypophyseal and pineal hormone secretions in cancer patients. 295 96

Circulating beta-endorphin (beta EP) and beta-lipotropin (beta LPH) concentrations increase after the administration of acetylcholine or serotonin agonist drugs. In this study we examined the effect of dopamine receptor agonists and/or antagonists on plasma beta EP, beta LPH, cortisol, and PRL levels in normal subjects. Neither direct dopamine (DA) agonist drugs, DA (1 microgram/kg min for 120 min), bromocriptine (2.5 mg po), L-dopa (500 mg po) or an indirect DA agonist, nomifensine (200 mg po), significantly altered plasma beta EP and beta LPH levels. The administration of metoclopramide, a DA antagonist (10 mg iv), significantly increased plasma beta EP, beta LPH, PRL, and cortisol levels. This effect was completely reversed by pretreatment with L-dopa (500 mg po) and only partially antagonized by DA infusion. Domperidone (10 mg iv), a DA antagonist which does not cross the blood brain barrier, increased only plasma beta EP levels, an effect inhibited both by L-dopa and DA. After dexamethasone (2 mg/day for 2 days) domperidone still increased plasma beta EP and PRL levels. The concomitant increase of beta EP, beta LPH, and cortisol after metoclopramide suggests that endogenous DA inhibits the secretion of proopiomelanocortin-related peptides. Moreover, since domperidone increases only beta EP and this effect is not altered by dexamethasone, there may be a corticotropin-releasing hormone-independent source of circulating beta EP in humans, which is inhibited by DA.
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PMID:Evidences for a dopamine-regulated peripheral source of circulating beta-endorphin. 296 16

Endogenous opioid peptides have been shown to be involved in the regulation of tumour growth. At present, however, no data are available about the secretion of opioid peptides in cancer patients. To draw some preliminary conclusions on opioid brain function in human neoplasms, we evaluated hypophyseal hormone responses to the administration of a met-enkephalin analogue, FK 33-824. The study included 14 patients affected by early or advanced neoplastic disease, 12 healthy subjects and 7 patients with a chronic medical illness other than cancer. FK 33-824 was given intravenously at a dose of 0.3 mg. Venous blood samples were collected at zero time, and 30, 60 and 120 min after drug administration. In each sample, PRL, GH, LH, cortisol and beta-endorphin levels were measured by RIA. In all normal subjects and in patients with non-neoplastic chronic illness, FK 33-824 induced a rise in PRL and GH levels, and a decrease in LH, cortisol and beta-endorphin. A normal endocrine response to FK 33-824 was seen in our cancer patient only, while in the other cases with tumour no hormonal changes or a paradoxical response were seen after FK 33-824. Based on the fact that an abnormal endocrine response to FK 33-824 has been described in hypothalamic-pituitary disorders, in which anomalous brain opioid activity has been demonstrated, these results suggest the existence of an altered function of the opioid system in cancer patients, the clinical importance of which remains to be determined.
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PMID:Evidence for altered opioid activity in patients with cancer. 296 62

Endogenous opioid peptides have been seen to play a role in regulating immunity and tumor growth. This study was carried out to investigate opioid activity in human cancer. We evaluated by radioimmunoassay beta-endorphin plasma levels on blood samples collected at 9.00 a.m. from 121 cancer patients and 42 healthy subjects. In 22 cancer patients and in 12 controls, beta-endorphin circadian rhythm was also investigated. Finally, in 14 cancer patients and in 10 controls GH, PRL, FSH, LH and cortisol serum levels were measured after the administration of a metenkephalin analogue, FK 33-824 (0.3 mg i.v.). No significant differences were seen in beta-endorphin mean levels between cancer patients and normal subjects. Moreover, no differences were found between patients with or without metastases, nor between those with or without chronic pain. beta-Endorphin circadian rhythm appeared to be altered in 16/22 cancer patients, and anomalous hormonal responses to FK 33-824 were seen in 13/14 patients. This study shows an altered opioid activity in human neoplasms, whose clinical significance remains to be determined.
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PMID:Alteration of opioid peptide circadian rhythm in cancer patients. 296 39

The inhibitory effect of beta-endorphin (EP) or other opioids on TSH secretion is, in contrast to their stimulating properties on PRL release, still a matter of debate. In the present study a dose of 1 microgram beta-EP injected intracerebroventricularly (IVT) in unstressed conscious male rats, though highly effective on PRL release, did not affect basal TSH levels, nor the TRH-induced TSH secretion. The previously reported inhibition of TSH release by opioids may therefore be an effect only seen when pharmacological doses are used.
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PMID:The effect of beta-endorphin on basal and TRH-stimulated TSH release in conscious male rats. 297 64

Administration of opioid receptor antagonists was utilized to determine the opioid receptor type involved in the suppression of LH release by beta-endorphin (beta-END). Long-term (three to four weeks) ovariectomized rats with chronic third ventricular cannulae were fitted with jugular catheters and received treatment with vehicle or one of three opioid antagonists. The delta antagonist ICI 154, 129, but not the mu1 or mu antagonists naloxazone or beta-funaltrexamine, respectively, blocked the suppressive effect of beta-END on plasma LH levels and transiently but significantly increased LH levels above preinfusion value. None of the antagonists significantly reduced the beta-END-induced release of PRL. These results provide evidence that the inhibitory effect of beta-END on LH release may be mediated by delta receptors.
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PMID:Possible delta receptor mediation of the effect of beta-endorphin on luteinizing hormone (LH) release, but not on prolactin (PRL) release, in the ovariectomized rat. 298 Oct 76

Sex steroids may modulate the secretion of beta-endorphin (beta-EP). Naloxone (Nal), an opioid antagonist, has been used as a probe of central opioid activity. Nal-evoked responses of PRL and LH were evaluated in the midluteal (ML) and late follicular (LF) phases of ovulatory women (Pre) and compared to responses of oophorectomized women before and after the administration of conjugated estrogens (CE) and again after CE and progestin administration. In the ML and LF phases, serum LH increased significantly (P less than 0.05 and P less than 0.01, respectively) during Nal infusion for 4 h, while PRL did not change. In oophorectomized women, there were no significant changes in LH or PRL during Nal infusion. After 3 weeks of CE treatment (1.25 mg daily), LH increased during Nal infusion (P less than 0.05), as did PRL (P less than 0.01). After treatment with CE and medroxyprogesterone acetate (MPA), LH and PRL both increased (P less than 0.05 and P less than 0.01, respectively). The area under the LH curve during Nal infusion after CE and MPA treatment was greater than that after CE alone. Both of these responses were comparable to those of the LF and ML phases of Pre women. During Nal infusion, LH pulse frequency increased in the ML compared to the LF phase of the cycle and, in oophorectomized women, was greater after CE and CE with MPA treatment compared to pretreatment values (P less than 0.05). LH amplitudes during Nal infusion were highest in the ML phase and after CE and MPA treatment in oophorectomized women, and these LH amplitudes were similar. No correlation was found between peripheral plasma beta-EP and Nal-evoked LH responses. No differences were evident in plasma beta-EP levels between Pre and oophorectomized women. In conclusion, 1) endogenous opioid activity is low in oophorectomized women; 2) treatment with estrogen increases opioid activity, and the addition of a progestin increases this activity further; and 3) these data support the contention that sex steroids exert a profound influence on endogenous opioid activity.
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PMID:The effects of estrogen and progestin on endogenous opioid activity in oophorectomized women. 298 Oct 84

The role of endogenous opioid peptides (EOP) in the neuroendocrine control of primate gonadotropin and PRL secretion was studied in nonrestrained adult male rhesus monkeys. Morphine (0.5-1.0 mg/kg) was used as the prototype opiate, beta-endorphin (beta-END; 10-20 micrograms/kg) and [D-Ala2,D-Leu5] enkephalin (DADLE; 5-20 micrograms/kg) were used as representatives of EOP, and naloxone (0.5-2.0 mg/kg) was used as an opiate receptor blocker. Drugs were administered and blood was collected (at 20-min intervals for 4 h) through an indwelling jugular catheter. LH and PRL levels were measured in plasma by RIA. Intravenous administration of morphine (1.0 mg/kg) and DADLE (10 micrograms/kg) produced decreases in LH levels of 64% and 40%, respectively. These decreases occurred within 1 h after drug injections and lasted for approximately 3 h. beta-END had no effect on LH levels. Naloxone, at all doses studied, significantly increased LH levels (5- to 8-fold). The LH rises occurred within 20 min and lasted for up to 2 h. Both morphine and beta-END produced immediate increases in PRL, which remained elevated for 3 h. DADLE did not alter PRL levels. Naloxone (1.0 and 2.0 mg/kg) decreased PRL concentrations (45% and 60%, respectively). Pretreatment with morphine or DADLE did not alter the LH response to GnRH (100 micrograms) stimulation, indicating a hypothalamic site of action for the opioid inhibition of LH release. Naloxone administration reversed the inhibitory effects of morphine and DADLE on LH. The stimulatory effect of morphine on PRL levels was also reversed by naloxone. These studies further define the postulated physiological role of EOP in primate reproductive neuroendocrinology. Based on receptor selectivities of these opioid agonists, the inhibition of LH may be mediated by delta-receptors, whereas PRL release appears to be mu-mediated.
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PMID:Opioid effects on plasma concentrations of luteinizing hormone and prolactin in the adult male rhesus monkey. 298 Dec 42

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