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)

It is known that the same peptide can be identified in different secretory tissues and in the central nervous system (CNS). We now provide evidence that the same peptides can be found in different organs related to the control of a single function, and speculate on the possibility that this reflects a common neuroendocrine programming. Endogenous opioid peptides (EOP) inhibit the reproductive function acting via the CNS. EOP inhibit gonadotropin secretion in rodents and humans via inhibition of GnRH release and have direct inhibitory actions at the pituitary level via specific binding sites on the gonadotrophs. However, EOP can also be synthesized in the testis and in different compartments of the male genital tract. Several findings indicate that EOP of the reproductive tract have a local, paracrine role. These include: (1) the detection of significant beta-endorphin (beta-EP) production by rat Leydig cells (Lc) in cultures; (2) the hormonal regulation of Lc beta-EP production by positive (gonadotropins) and negative (steroids, glucocorticoids, GnRH) factors; (3) the presence of opioid binding sites (Kd in the nanomolar range) in tubular homogenates and Sertoli cells (Sc) in culture of adult and immature rat testes; (4) the inhibition of basal and FSH-stimulated ABP production by Sc in culture when chronically exposed to beta-EP treatment; (5) the detection of high levels of beta-EP and met-enkephalin in human semen with values 6-12 times higher than in plasma; (6) the evidence for inhibitory functions of seminal opioids on sperm motility, vas deferens muscle contraction and partner immune system. Thus the same peptides, i.e. EOP, may control the reproductive function at multiple sites, operating as a multimessenger system in which the central and peripheral level are unified by the common chemical and inhibitory nature of the message.
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PMID:Neuroendocrine control of male reproductive function. The opioid system as a model of control at multiple sites. 264 37

Spermatogenesis and spermiogenesis are controlled by FSH and testosterone but need also the participation of several paracrine and autocrine mechanisms of regulations. The relationships between peritubular, Sertoli and Leydig cells are currently investigated. High intratesticular testosterone levels are maintained by a binding to a protein called ABP which is synthetized by Sertoli cell and regulated by pituitary FSH. Leydig cell testosterone, peritubular cell P-Mod-S (protein modulating Sertoli function) and Sertoli cell FRP (follicle regulatory protein). Accumulation of testosterone results to aromatase activity modulation. Aromatization is stimulated by FSH, activin, alpha-MSH but is inhibited by aromatase inhibitor, inhibin, FSHBI (FSH binding inhibitor). Other molecules, growing factors, mitogenic factors, energetic substrates are synthetized in the testis under the control of germ cells. Understanding of these mechanisms of intratesticular regulation will permit to discover therapies capable of correcting certain fertility dysfunctions.
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PMID:[Paracrine regulation of testicular function]. 265 82

Hormones of hypophyseal-adrenal axes were determined in 135 girls with hirsutism. On the basis of changes in the hormonal levels it was established that the syndrome of Stein-Leventhal in 62 girls (54% of the patients) was dependent on luteinizing hormone (LH) and was characterized by an increased index of LH/FSH over 3.0 as well as by an increased level of testosterone; hirsutism in 73 girls (67% of the patients) was dependent on adrenocorticotropic hormone (ACTH) and was characterized by an increased level of ACTH and cortisol secretion; in the remaining patients hirsutism was a combination of both forms of dependence on LH and ACTH and an increase of hormones of both axes was present or was idiopathic with normal hormonal plasma levels, but with increased skin conversion and metabolic testosterone clearance.
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PMID:[Hormonal aspects in the diagnosis of hirsutism]. 274 87

Thymopoietin and thymopentin are well characterized polypeptides influencing immunoregulation by several mechanisms. Proposed as a therapy in diseases with major immune abnormalities such as rheumatoid arthritis, thymopentin improved within 2 weeks some clinical parameters as pain and joint swelling. The hypothesis that this spectacular effect could be mediated through interactions with anti-inflammatory (ACTH) and pain relieving (beta-endorphin) hormones producing cells was tested on the rat isolated pituitary cell model. Thymopentin and thymopoietin can enhance in vitro the levels of ACTH, beta-endorphin and beta-lipotropin in a time- and dose-dependent fashion for physiological concentrations ranging from 10(-12) to 10(-8) mol/l. The action on pituitary cells was restricted to those molecules as no changes occurred in LH, FSH, GH, TSH and PRL levels, after otherwise identical experimental conditions.
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PMID:Thymopoietin and thymopentin enhance the levels of ACTH, beta-endorphin and beta-lipotropin from rat pituitary cells in vitro. 282 Jan 73

Inhibin, a hormone produced by Sertoli cells in response to FSH, regulates androgen production in nearby Leydig cells. Beta-endorphin synthesized by Leydig cells under LH control is also known to regulate Sertoli function. To delineate whether beta-endorphin might constitute part of a short loop regulatory system between these two testicular cells, the effect of this opiate on inhibin secretion was examined. Beta-endorphin alone did not alter basal inhibin accumulation in primary Sertoli cell-enriched cultures, however it did significantly reduce FSH-induced inhibin production and adenylyl cyclase activity but had no effect on forskolin-stimulated inhibin accumulation or adenylyl cyclase activity. Other opioid peptides (ACTH, dMSH, methionine-enkephalin) were without effect. These observations suggest that beta-endorphin regulates inhibin secretion by inhibiting FSH receptor coupling to adenylyl cyclase.
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PMID:Beta-endorphin regulation of FSH-stimulated inhibin production is a component of a short loop system in testis. 282 89

Report is made of a mature retroperitoneal teratoma in a 32-year-old man. Investigation of the tumor revealed cells immunoreactive for ACTH, Met-enkephalin, beta-LPH, serotonin, FSH, BPP, S100, Neuron-specific-enolase. These cells were mainly present in the glandular epithelium, lining the cysts of the tumor. Ultrastructurally, neuro-secretory granules were demonstrated in the cytoplasm of the tumoral endocrine cells. At no time did the patient display endocrine symptoms.
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PMID:Immunocytochemical and ultrastructural findings in a mature retroperitoneal teratoma. 283 Jun 4

It is well established that beta-endorphin has a regulatory influence on the reproductive function at the level of the hypothalamic-pituitary axis. However, recent immunohistochemical evidence demonstrated that beta-endorphin is also present in the Leydig cells of fetal, neonatal and adult mice and hamsters. In addition, beta-endorphin synthesis was localized in the Leydig cells of adult rats, leading to the hypothesis of a direct function of the peptide in the reproductive organs. Our interest was to investigate the role of beta-endorphin at testicular level. We have demonstrated the presence of high-affinity opioid binding sites (Kd in the nanomolar range) in tubular homogenates and Sertoli cells in culture of adult (50 days) and immature (18 days post-natal) rat testes. Also, chronic beta-endorphin treatment of the Sertoli cells significantly inhibited basal and FSH-stimulated androgen-binding protein production, this effect being prevented by the universal opiate antagonist naloxone. No opiate binding was observed on Leydig cell cultures. Furthermore, we have demonstrated that acute or chronic beta-endorphin treatment does not affect testosterone production by Leydig cells in vitro, consistent with the absence of receptors on these cells. On the other hand, fetal Leydig cells (21 days fetal life) in culture produced considerable amounts of beta-endorphin. Also, fetal Leydig cells represented a preferred in vitro system to study beta-endorphin release since in adult cell culture a marked degradation of the peptide was detected (greater than 50%). beta-endorphin accumulation for 3 and 5 days was markedly increased by inhibitors of steroid biosynthesis (1.5-fold); a significant reduction by GnRH at both days (by 50-30%) was observed, while by dexamethasone the reduction was only noted after 5 days of treatment (by 50%). Acute stimulation (3 h) of control cells with hCG enhanced by 10-12-fold the beta-endorphin secretion. The hormone stimulation of beta-endorphin production was not mediated by testosterone. On the contrary, inhibition of Leydig cells steroid biosynthesis markedly increased basal and hCG-stimulated beta-endorphin production (150-200%), suggesting autocrine negative modulation of Leydig cell beta-endorphin by androgen and/or its metabolites. In contrast, dexamethasone reduced basal and hCG-stimulated beta-endorphin production (by 50%). Altogether these findings indicate that beta-endorphin produced within the Leydig cells may behave as a paracrine inhibitor of the Sertoli cell function and demonstrate that the peptide production is under direct control by gonadotropins and is modulated by steroids.
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PMID:Hormonal regulation of beta-endorphin in the testis. 283 95

Two amenorrheic women presenting clinical signs of adrenal insufficiency were shown to have isolated corticotropin deficiency (ICD). LH and FSH were normally responsive to GnRH. The occurrence of this disease during the postpartum and the presence of autoantibodies against corticotropic cells in one case may indicate that ICD was a sequela of an autoimmune hypophysitis. The presence of amenorrhea, while the gonadotroph was not damaged, and the reappearance of ovulatory menstrual cycles under the sole effect of hydrocortisone replacement therapy suggest that cortisol deficiency may by itself alter the gonadal function.
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PMID:Recovery of ovulatory menstrual cycles under hydrocortisone in two amenorrheic women with isolated corticotropin deficiency. 284 Mar 82

An immunocytochemical study was performed by the indirect peroxidase method on the pituitary tumour of 37 patients with clinical and biological signs of silent adenoma. Antisera were used against human PRL, human GH, ACTH1-24, human ACTH17-39, alpha-melanocyte stimulating hormone (alpha-MSH), human beta-endorphin, alpha-subunit of hCG (hCG-alpha), and beta-subunits of human LH (LH-beta), human FSH (FSH-beta) and human TSH (TSH-beta). Immunostaining in at least 5% of the tumour cell population, with one or more antisera, was present in 13 cases; hCG-alpha immunostaining was the one most frequently observed. Combined immunostaining was found in 7 cases. Exclusive immunostaining was present in 6 cases: 4 with hCG-alpha, 1 with ACTH1-24 and 1 with TSH-beta. It is concluded that a significant number of silent pituitary adenomas show a certain secretory pattern of pituitary hormones or subunits of glycoprotein hormones as revealed by the immunocytochemistry.
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PMID:The immunocytochemical heterogeneity of silent pituitary adenomas. 284 Jul 93

Pre-operative bilateral simultaneous inferior petrosal sinus sampling with assessment of ACTH levels in the left and right sinuses and the periphery was performed in 9 patients with pituitary dependent Cushing's disease who were subsequently found at surgery to have basophil microadenomata. The novel observation of this study was the pattern of secretion of other pituitary hormones so that significant inter-sinus gradients greater than or equal to 1.4:1 were seen for beta-endorphin (2.8 +/- 1.3, mean +/- SEM), PRL (4.2 +/- 1.3) and GH (6.9 +/- 2.4) as well as for ACTH (5.1 +/- 1.1). There was no inter-sinus gradient for LH, FSH and TSH. In these 9 patients with adenomata, the correlations between the inter-sinus gradients for ACTH and beta-endorphin were r = 0.95 (P less than 0.01), ACTH and PRL r = 0.90 (P less than 0.01) and for ACTH and GH r = 0.89 (P less than 0.05). This close association between the gradients for ACTH and other anterior pituitary hormones could be due either to co-secretion of beta-endorphin, PRL and GH by the ACTH-producing pituitary adenomata or to a paracrine effect of beta-endorphin from the tumours on adjacent pituitary tissue. By reflecting the central pituitary hormone milieu, petrosal sinus sampling can give information about pituitary function unobtainable from peripheral hormone levels.
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PMID:Multiple pituitary hormone gradients from inferior petrosal sinus sampling in Cushing's disease. 284 95

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