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 site of action in the steroidogenic pathway of aldosterone stimulating factor (ASF), isolated from human urine, was studied in collagenase-dispersed rabbit adrenal capsular cells and compared with those of beta-lipotropin (beta-LPH), angiotensin II (A II) and adrenocorticotropic hormone (ACTH). When incubated with adrenal cell suspension at 37 degrees C for 2 hours, ASF, beta-LPH and ACTH induced dose-related increases in aldosterone production. ASF was less potent (ED50 = 10(-9) M) than ACTH but was more potent than beta-LPH. When ASF was added to the incubation with low dose of A II or ACTH, its effect on aldosterone production was additive, while no additional effect of ASF on aldosterone production was obtained in the presence of high dose of A II or ACTH. ASF increased the conversion of corticosterone to aldosterone like ACTH and beta-LPH. We have reported that ASF is a true aldosterone secretagogue and readily distinguishable from ACTH, A II and beta-LPH. The present study suggests ASF shares a common rate-limiting final pathway of steroidogenesis, which may be the step between corticosterone to aldosterone, with ACTH, A II and beta-LPH.
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PMID:Regulation of aldosterone secretion by a new aldosterone stimulating factor. 628 86

The effects of beta-endorphin (lipotropin 61-91) and related naturally-occurring peptides upon acetylcholinesterase activity in rat hind-limb muscles was investigated. beta-endorphin weakly inhibited the activity in a plasma membrane-enriched fraction. The inhibition by beta-endorphin of the membrane-associated acetylcholinesterase was less marked when the fractions were prepared from muscles which had been denervated 4-6 days previously. The membrane-associated acetylcholinesterase was solubilised from normal muscle preparations and separated by sucrose density gradient centrifugation into three major peaks (16S, 10S and 4S). beta-Endorphin inhibited the activity in the 16S peak but not that in the 10S and 4S peaks, whilst tensilon, a competitive inhibitor of acetylcholinesterase, inhibited the activity of all three peaks. beta-Endorphin inhibited the activity in the 16S peak but not that in the 10S and 4S peaks, whilst tensilon, a competitive inhibitor of acetylcholinesterase, inhibited the activity of all three peaks. beta-Endorphin inhibited the 16S activity in a concentration-dependent manner and its action was partly prevented if naloxone was added simultaneously. Purified natural porcine and bovine beta-endorphin were equipotent in terms of effective concentration range but the maximum inhibition was greater with the bovine peptide. beta-Lipotropin was approximately 4 times less potent than beta-endorphin, whilst C-fragment (lipotropin 61-87) was 100 times less potent. Prolonged treatment with collagenase did not reduce the catalytic activity of 16S acetylcholinesterase, but it was no longer susceptible to the inhibitory action of beta-endorphin. Kinetic studies indicated a complex type of inhibition by beta-endorphin (hyperbolic Lineweaver-Burke plot). Methionine enkephalin inhibited acetylcholinesterase in a weakly non-competitive manner and its action was not abolished if the enzyme was predigested with collagenase. beta-Endorphin produces a novel form of inhibition of acetylcholinesterase, acting only on the 16S (A12 or 'motor endplate-specific') form of the enzyme. The findings are discussed in the light of evidence that beta-endorphin-related immunoreactivity is expressed in motor nerve axons in the immature rat.
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PMID:Selective inhibition of 'motor endplate-specific' acetylcholinesterase by beta-endorphin and related peptides. 628 23

This study investigates the role of the developing diencephalic floor or mesenchymal tissue in the differentiation of ACTH-producing cells. The adenohypophysial primordia of fetal rats on days 12.5 and 13.5 of gestation were treated with collagenase; some primordia were allowed to retain an association with the brain and mesenchyme, but in others the brain and/or mesenchyme were removed. These different combinations of tissues were cultured and examined by immunohistochemical techniques using antisera against pACTH and synthetic alpha-MSH. Removal of mesenchyme alone had little effect on the development of ACTH cells as compared to primordia maintained with brain and mesenchyme. In contrast, removal of the brain with or without mesenchyme on day 12.5 resulted in a marked decrease of ACTH cells accompanied by a mal-growth of adenohypophysial tissue. Such changes were slight when the brain was separated from day 13.5 primordia. Immunoreactive alpha-MSH cells were sparse or absent in all cases. These results suggest that in fetal rats the developing diencephalic floor is essential for differentiation of ACTH cells before day 13.5 of gestation whereas mesenchyme has no apparent effect.
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PMID:Effects of brain and mesenchyme upon the cytogenesis of rat adenohypophysis in vitro. I. Differentiation of adrenocorticotropes. 629 31

While there have been several studies on the actions of opioid peptides on adrenocortical steroidogenesis, the results of these studies have failed to resolve the question as to whether these peptides exert a direct action on the adrenal cortex. The present studies were designed to address this question directly, using collagenase-dispersed rat zona glomerulosa and zonae fasciculata/reticularis cells incubated in vitro. The results obtained clearly show that the opioid peptides tested (beta-endorphin, Leu-enkephalin, Met-enkephalin, and its long-acting analogue, DALA) all exerted a significant stimulatory effect on aldosterone secretion by zona glomerulosa cells and all, except Leu-enkephalin, stimulated corticosterone secretion by inner zone cells. The response was shown to be inhibited by naloxone. There did not appear to be a significant interaction between the effects of ACTH and the opioid peptides on adrenocortical cells. Studies using specific agonists for opioid receptor subtypes (DAMGO, DPDPE and U-50488H, specific for mu, delta and kappa receptors respectively) showed that the effect of opioid peptides on the zona glomerulosa appeared to be mediated exclusively by mu receptors while the response of inner zone cells was mediated by both mu and, to a lesser extent, kappa receptors. Finally, studies on the second messenger systems activated by the opioid peptides and the receptor agonists showed that these peptides act to increase labelling of inositol trisphosphate, and strongly suggest that, in the rat adrenal cortex, both mu and kappa opioid receptors are linked to the activation of phospholipase C.
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PMID:Action of opioid peptides on the rat adrenal cortex: stimulation of steroid secretion through a specific mu opioid receptor. 773 74

The neuropeptides are involved in the immune response and in hormonal homeostasis. In this review, we analyse the interactions between the cytokine, the neuropeptide and the hormonal networks in rheumatoid arthritis (RA). We first consider pituitary-adrenal axis dysfunction in RA. An inappropriate response to cortisol in chronic inflammation has been reported, i.e., a decrease of the corticotropin-releasing-hormone (CRH) secretion by the hypothalamus. In contrast, the immunostimulant hormone prolactin (PRL) is upregulated. PRL is released by the pituitary after stimulation by neuropeptides [serotonin, thyroid-releasing-hormone (TRH), or vasoactive-intestinal-peptide (VIP)], and is down-regulated by pro-inflammatory cytokines (IL-1, IL-6). The decreased testosterone concentration observed in male RA patients is associated with HLA B 15. Thus, an altered sex hormone status and a genetic predisposition are related to HLA antigens, and increase the subject's susceptibility to the development of RA. The terminal C fibres release neurotransmitters such as substance P, neurokinin A and calcitonin-gene-related-peptide (CGRP) within the joints, and contribute to local inflammation, synoviocyte proliferation and collagenase production. The parasympathetic system may attenuate the immune response through the neuropeptide VIP. In contrast, the beta 2 adrenergic fibres of the sympathetic nervous system increase joints degradation in RA. This review presents the currently extensive knowledge regarding the immune-neuro-hormonal network, and its implication in the pathogenesis of RA.
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PMID:Modulation of the immune response by the neuro-endocrine axis in rheumatoid arthritis. 795 11

After postnatal day 1 (d1), the hypothalamo-pituitary-adrenal axis of neonatal rats becomes less responsive to certain stimuli for up to 2 weeks. The present study was designed to quantify the development of adrenocortical cell responsiveness to its normal secretagogue, adrenocorticotropic hormone (ACTH), and to better localize intracellular sites of adrenal cell hyporesponsivity. Maximum steroidogenic responses of collagenase-dispersed adrenocortical cells (using two isolation methods) to ACTH varied significantly in the order adult > d1 > d10. The response pattern to dibutyryl cAMP ((Bu)2cAMP) was identical to that observed for ACTH (adult > d1 > d10), suggesting that neonatal adrenal responsiveness is limited by a site distal to cAMP formation. Sensitivity (EC50) of adult cells to ACTH was approximately 3-fold greater than in neonatal cells, but there was no age-dependent shift in sensitivity to (Bu)2cAMP. 20 alpha-Hydroxycholesterol (20 alpha-OHCHOL), a membrane permeable analog of cholesterol, also failed to normalize the d10 adrenal response to ACTH. This result indicates that one site of refractoriness is apparently distal to cholesterol transport, and strongly suggests possible differential cytochrome P450 enzyme expression or activity in neonatal rat adrenal cells. Finally, although stimulated secretion was lower in neonatal cells, basal corticosterone secretion was significantly greater in neonatal adrenals, suggesting that constitutive activity of neonatal adrenal cells is high compared to that of adult cells.
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PMID:Steroidogenesis in isolated adrenocortical cells during development in rats. 838 18

This study investigated the direct effects of hydrocortisone (HS), corticotropin-releasing factor (CRF), and adrenocorticotropin (ACTH) on basal and gonadotropin-releasing hormone (GnRH)-stimulated secretion of follicle-stimulating hormone (FSH) from dispersed pig pituitary cells in vitro. Pig pituitaries were dispersed into cells with collagenase, DNAase, and hyaluronidase and then cultured in McCoy's 5a medium containing horse serum (10%) and fetal calf serum (2.5%) pretreated with dextran-coated charcoal for 3 days. Cells were preincubated with steroids, CRF, or ACTH before GnRH was added. HS did not affect basal FSH secretion after 72 h of incubation. Treatment of pituitary cells with increasing concentrations (0.001-800 micrograms/ml) of HS for 72 h resulted in a dose-dependent decrease in GnRH-stimulated FSH release. HS pretreatment did not cause a change in cellular FSH content. Increasing duration (6-72 h) of treatment with HS (200 micrograms/ml) led to a time-dependent decrease in GnRH-stimulated FSH release, achieving statistical significance by 12 h. Porcine ACTH had no influence on basal and GnRH-stimulated FSH secretion. CRF decreased GnRH-stimulated FSH secretion in a dose-dependent manner, and the inhibitory effect required preincubation (6-18 h) with CRF. HS inhibited the FSH secretory responses to phospholipase C, melittin, and 8-bromo-cAMP but did not affect the response to 1,2-dioctanoyl-sn-glycerol and ionophore A23187. These results indicate that both cortisol and CRF can act directly on pig pituitary to inhibit FSH responsiveness to GnRH.
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PMID:Actions of corticotropin-releasing factor or cortisol on follicle-stimulating hormone secretion by isolated pig pituitary cells. 839 May 96

Group B streptococci were recently reported to possess a cell-associated collagenase. Although the enzyme hydrolyzed the synthetic collagen-like substrate N-(3-[2-furyl]acryloyl)-Leu-Gly-Pro-Ala, we found that neither the highly purified enzyme nor crude group B streptococcal cell lysate solubilized a film of reconstituted rat tail collagen, an activity regarded as obligatory for a true collagenase. We cloned and sequenced the gene for the enzyme (pepB). The deduced amino acid sequence showed 66.4% identity to the PepF oligopeptidase from Lactococcus lactis, a member of the M3 or thimet family of zinc metallopeptidases. The group B streptococcal enzyme also showed oligopeptidase activity and degraded a variety of small bioactive peptides, including bradykinin, neurotensin, and peptide fragments of substance P and adrenocorticotropin.
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PMID:Characterization of PepB, a group B streptococcal oligopeptidase. 875 83

Unsaturated long chain fatty acids modulate hormone secretion from a variety of endocrine glands, including the adrenal cortex. Oleic acid and linoleic acid have been shown to stimulate production of glucocorticoids in the absence of adrenocorticotropic hormone, but at a high concentration appeared to inhibit the action of this hormone. In the present study, the concentration dependence of the inhibitory actions of these two fatty acids was tested in collagenase-dispersed rat adrenal fasciculata cells, and the effects of both lipids on cAMP production were also determined. Adrenocorticotropic hormone stimulated steroid production from isolated cells approximately ten-fold above unstimulated cells. Oleic and linoleic acid significantly inhibited the response to this hormone by 44% and 54%, respectively. The half-maximally effective inhibitory concentration of both lipids was between 75-100 microM. A maximal concentration of adrenocorticotropic hormone increased cAMP secretion 138-fold above unstimulated cells. Oleic and linoleic acids inhibited the increase in cAMP secretion by 47% and 33%, respectively. It is concluded that pathophysiological concentrations of unsaturated fatty acids inhibit the action of adrenocorticotropic hormone on the adrenal gland, and that the mechanism of action of the lipids may be partly via inhibition of cAMP production.
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PMID:Fatty acids inhibit adrenocorticotropin-induced adrenal steroidogenesis. 954 89

Opioid peptides are negative regulators of cell proliferation in several organs including the uterus. In the present study, the ontogeny of the direct inhibitory action of opioid peptides on the proliferation of cultured rat uterine cells was investigated. Uteri of 7, 14, 21, 28, 35 and 60-day-old rats were removed in a sterile way. Tissue blocks were dispersed by limited digestions with trypsin and collagenase. Cells were cultured in enriched Dulbecco's modified Eagle's medium (DMEM). Treatments were present during the entire culture period. Cell densities of the monolayers were determined by counting the cells following trypsinization and trypan blue exclusion. Rat uterine mixed cell cultures grew to confluence within 10 days. The average population doubling time gradually increased with the age of animals. Epidermal growth factor (EGF) increased cell densities of cultures from all age groups. The oestradiol (E2)-responsiveness appeared at 21 days of age. The effect of [D-Met2-Pro5]-enkephalinamide (ENK) was biphasic. ENK and [Met5]-enkephalin (OGF) decreased cell densities of both unstimulated and EGF-stimulated cultures from 7-day-old rats to the same extent. ENK failed to act in 14-day-old animals. From 21 days of age on, the E2- or EGF-stimulated proliferation was inhibited only by ENK and DAMGO, while 30 nm DPDPE, Dynorhin-A, OGF, [Leu5]-enkephalin, beta-endorphin, and morphiceptin were ineffective. The half-inhibitory concentration of ENK was 0.3 nm. The effects of ENK were prevented by concomitant treatment with naloxone. Our novel data demonstrate two different phases of the inhibitory action of opioid peptides on rat uterine cell proliferation during ontogeny with an insensitive interval in between.
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PMID:Developmental changes in the inhibition of cultured rat uterine cell proliferation by opioid peptides. 1281 31

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