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)

alpha-Adrenergic receptors are present on the plasma membrane of normal anterior pituitary cells and alpha-adrenergic agonists may play a role in the secretion of corticotropin (ACTH) and thyrotropin (TSH). However, alpha-adrenergic involvement in prolactin (PRL) secretion is uncertain. We have therefore examined this question in the PRL-secreting clonal rat pituitary tumor-derived GH4C1 cells. Norepinephrine (NE), an alpha-adrenergic agonist, had no effect on basal PRL secretion but abolished thyrotropin-releasing hormone (TRH)-induced PRL secretion in a dose-dependent manner (EC50 100 nM). NE also significantly suppressed the TRH-stimulated rise in [Ca2+]i. Phentolamine (PA), a non-selective alpha-adrenergic antagonist, reversed the inhibitory effect of NE on both the TRH-stimulated PRL secretion and [Ca2+]i rise. NE did not inhibit the rise in PRL secretion or [Ca2+]i induced by depolarizing 30 mM K+, 30% hyposmolarity or BAY K-8644, a specific L-type Ca2+ channel agonist. The inhibitory effect of NE on TRH-induced PRL and [Ca2+]i changes was also present when Ca2+ influx was prevented by removing medium Ca2+ or by blocking L-type Ca2+ channels with 2 microM nifedipine. The TRH-stimulated first-phase rise in [Ca2+]i in GH4C1 cells is believed to result primarily from release of sequestered Ca2+ from an intracellular pool through the activation of inositol 1,4,5-trisphosphate (IP3) and this [Ca2+]i spike stimulates PRL secretion. Our data thus suggest that GH4C1 cells have alpha-adrenergic receptors and that alpha-adrenergic agonists either suppress IP3 generation or block IP3 release of sequestered intracellular Ca2+.
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PMID:Alpha-adrenergic inhibition of thyrotropin-releasing hormone-induced prolactin secretion in GH4C1 cells is associated with a depressed rise in intracellular Ca2+. 128 Feb 33

Previous work has shown that corticotropin (ACTH) and angiotensin-II (A-II), in addition to their acute steroidogenic effects, exert long-term influences on adrenal cell differentiated function, stimulatory or inhibitory, respectively. Certain nuclear proto-oncogenes have been implicated in the regulation of gene expression in many cell systems. We have investigated the effects of ACTH and A-II on the levels of c-fos, c-jun, and jun-B messenger RNAs (mRNAs), in bovine and ovine (OAC) adrenal fasciculata cells. In both cell types ACTH produced time- (maximum at 1 h) and dose-dependent (ED50 congruent to 10(-12) M) increase in c-fos (2- to 4-fold) and jun-B (10- to 20-fold) mRNA levels but did not affect c-jun. The concentrations required to induce half-maximal mRNA accumulation and cortisol production were similar. A-II also produced a dose-dependent increase in c-fos and jun-B mRNAs but also in c-jun in both cell types, despite the fact that OAC are resistant to the steroidogenic action of the hormone. The stimulatory effects of A-II on c-fos mRNA were higher than those produced by ACTH, whereas the effects on jun-B were similar but ACTH abolished (OAC) or decreased (bovine adrenal fasciculata cells) the stimulatory effects of A-II on c-jun mRNA. The effects of ACTH and A-II on cortisol production and proto-oncogene mRNAs were in part mimicked by 8 Bromo-cAMP and the phorbol ester phorbol-12-myristate-13 acetate plus calcium ionophore A23187, respectively. In the presence of cycloheximide, which blocks the steroidogenic effects of both hormones, proto-oncogene mRNAs were superinduced by both hormones. This result, together with the fact that dexamethasone failed to affect the mRNA levels suggests that the stimulatory effects of ACTH and A-II on proto-oncogene expression were not related to an autocrine/intracrine action of cortisol. Taken together, these findings show that the proto-oncogene mRNAs in normal adrenal cells are regulated by ACTH and A-II, acting through different intracellular pathways. They also demonstrate differential responsiveness of the Jun family to both hormones. Thus, the opposite long-term action of ACTH and A-II on adrenal cell differentiated function could be mediated by its different initial effects on proto-oncogene expression, in particular in the members of the Jun family.
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PMID:Regulation of c-fos, c-jun and jun-B messenger ribonucleic acids by angiotensin-II and corticotropin in ovine and bovine adrenocortical cells. 131 Dec 31

The adrenal cortex contains a kallikrein-like enzyme that may lead to bradykinin (BK) formation. This study was designed to determine whether BK acts on adrenocortical cells to stimulate steroid secretion. BK, Lys-BK, a specific BK 2 (B2) receptor agonist, and desArg9-BK, a specific BK 1 (B1) receptor agonist, all stimulated aldosterone secretion from cultured bovine adrenal zona glomerulosa cells. BK and Lys-BK were equipotent (EC50 = 2 x 10(-9) M), whereas desArg9-BK was 1000-fold less potent. The maximal effects of BK and BK analogs were comparable to the maximal effects of adrenocorticotropin or angiotensin II. A B2, but not a B1, receptor antagonist inhibited BK-stimulated aldosterone release. Verapamil and N,N-diethylamino-octyl-3,4,5-trimethoxybenzoate, which reduce intracellular calcium concentrations, reduced BK-stimulated aldosterone secretion. Although BK stimulated both prostacyclin and aldosterone production, indomethacin abolished prostacyclin production without affecting aldosterone secretion. In cultured adrenal fasciculata cells, high concentrations of BK stimulated cortisol release, but B1 or B2 receptor agonists were not effective. BK-stimulated cortisol secretion was reduced by N,N-diethylamino-octyl-3,4,5-trimethoxybenzoate but not by indomethacin. In summary, BK stimulates aldosterone release from cultured adrenal glomerulosa cells via high affinity B2 receptors. The effect is calcium-dependent and independent of prostaglandins. BK also increases cortisol release; however, this stimulation requires high concentrations of BK and may be mediated by an unknown receptor or by a receptor-independent mechanism.
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PMID:Bradykinin stimulates aldosterone release from cultured bovine adrenocortical cells through bradykinin B2 receptors. 131 40

The two fundamental parameters of corticotropin (ACTH) secretion are the number of secreting corticotropes and the amount of ACTH secreted by each cell. We have measured these parameters in rat corticotropes in response to increasing concentrations of corticotropin-releasing factor (CRF) or arginine vasopressin (AVP). Increasing concentrations of AVP stimulated more corticotropes to secrete, while the amount of ACTH each cell secreted remained relatively fixed (nongraded secretory response). Conversely, increasing concentrations of CRF stimulated more ACTH secretion per cell (graded secretory response), while the number of secretory cells remained relatively constant. When viewed from the perspective of a single corticotrope, it was clear that CRF and AVP induced completely distinct specific responses. We have previously shown, and provide further evidence here, that secretory responses to CRF or AVP occur in the same cell. It is therefore apparent that a single corticotrope is able to generate either a graded, or a nongraded secretory response. We have also considered the potential intracellular changes that must direct graded or nongraded secretion. It is generally accepted that CRF stimulates activation of adenylate cyclase, whereas AVP activates phosphoinositidase in pituitary corticotropes. Our findings, and others surveyed here, suggest that the activation of adenylate cyclase results in graded secretion, while the activation of phosphoinositidase induces the nongraded secretion. Graded or nongraded secretion may therefore be linked to specific second messengers. It is hypothesized that the inositol 1,4,5-trisphosphate-mediated release of an intracellular Ca2+ store constitutes a mechanism whereby phosphoinositidase-coupled hormones set in motion the nongraded secretory response. These findings suggest novel functions for individual second messengers.
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PMID:Corticotropin-releasing factor, but not arginine vasopressin, stimulates concentration-dependent increases in ACTH secretion from a single corticotrope. Implications for intracellular signals in stimulus-secretion coupling. 131 23

EGTA abolished corticotropin (ACTH)-stimulated adenylate cyclase in rat adipocyte membranes. In contrast, the potency of guanosine triphosphate (GTP) stimulation of adenylate cyclase activated with ACTH was greater in the presence of Ca2+ (1 mmol/L). EGTA (1 mmol/L) powerfully inhibited ACTH-stimulated [3H]guanosine diphosphate (GDP) release from membranes prelabeled with [3H]GTP in the presence of isoproterenol (ISO) or ACTH, whereas Ca2+ significantly increased it. In contrast, neither EGTA nor Ca2+ affected ISO-stimulated [3H]GDP release. These data clearly show that Ca2+ is necessary for the binding of ACTH to its receptor, and that Ca2+ stimulates the interaction of the ACTH-occupied receptor with GTP-binding proteins.
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PMID:Ca2+ potentiates corticotropin-induced, but not isoproterenol-induced, [3H]guanosine diphosphate release in rat adipocyte membranes. 131 87

The mouse anterior pituitary-derived cell line AtT-20 has been widely used to study the biosynthesis and secretion of peptide hormones, such as ACTH, and peptide-processing enzymes, such as carboxypeptidase-E (CPE). Although AtT-20 cells do not express dynorphin (Dyn), previous studies using gene transfer have revealed that these cells are capable of processing pro-Dyn into peptides such as Dyn-B-13. A Dyn-converting enzyme (DCE) has been identified in AtT-20 cells; this enzyme processes Dyn-B-29 to Dyn-B-13. By several criteria, the enzyme activity secreted from AtT-20 cells is similar to the previously characterized enzyme activity in rat brain and bovine pituitary. In AtT-20 cells, the DCE activity and CPE activity are localized to a similar secretory compartment. Upon stimulation with a beta-adrenergic agonist, a phorbol ester, a calcium ionophore, or forskolin, the secretion of DCE activity was increased; this rise was parallel to the secretion of CPE activity and ACTH. These data suggest that DCE activity is in the regulated pathway of secretion. In AtT-20 cells treated with glucocorticoid for up to 7 days, cellular levels of beta-endorphin decreased to half the control levels. In contrast, the levels of DCE activity did not decline in response to this treatment, suggesting that the enzyme activity was not coregulated with the endogenous hormone. Taken together, the data presented here support a role for DCE in posttranslational processing of regulatory peptides.
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PMID:Secretion and regulation of a neuropeptide-processing enzyme by AtT-20 cells. 132 23

Glucocorticoids inhibit stimulus-evoked ACTH secretion by the rapid induction of new protein(s) that suppress intracellular free calcium signals. The present study examined whether the calcium receptor protein, calmodulin, is induced by glucocorticoids in the mouse pituitary corticotrope tumor (AtT20 D16:16) cell line. Treatment of AtT20 D16:16 cells with the synthetic glucocorticoid dexamethasone markedly (up to 10-fold) increased the level of a single (approximately 1.6kb) calmodulin mRNA 90 min after the application of steroid. Puromycin applied 15 min before and during dexamethasone treatment blocked the induction of this mRNA, suggesting that additional glucocorticoid induced transcription factor proteins may be required for enhanced calmodulin gene transcription. A two-fold increase in the intensity of an approximately 18K immunoreactive calmodulin protein band was detected by immunoblotting at 90 min after dexamethasone administration. Corticotropin releasing factor, added for 30 min at the start of steroid treatment, prevented the increase of calmodulin mRNA, as well as the suppression of corticotropin releasing factor-evoked ACTH release caused by dexamethasone. These data suggest that calmodulin may be involved in the early phase of glucocorticoid inhibition of pituitary ACTH release.
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PMID:Early glucocorticoid induction of calmodulin and its suppression by corticotropin-releasing factor in pituitary corticotrope tumor (AtT20) cells. 133 64

Atrial natriuretic peptide (ANP) inhibits aldosterone secretion evoked by its physiological secretagogues by a mechanism(s) likely to involve intracellular messengers. When one examines the results of various investigations so far, this premise, although not definitive yet, seems to be supported. Therefore a brief perspective on the cellular messengers of the various secretagogues is provided before the inquiry into the possible mechanism of action of ANP. The receptors of ANP in the adrenal cells have been identified and characterized. ANP inhibits adenylate cyclase in various tissues through an inhibitory G protein, which appears to explain in part the inhibitory effect of ANP on adrenocorticotropin-induced aldosterone secretion. However, there could be other possible effects of ANP as discussed. ANP probably inhibits aldosterone secretion evoked by angiotensin II and potassium by interfering with the appropriate changes in calcium flux and cell calcium concentration, concomitants of stimulation by these secretagogues. The potential modes of these effects are probed. The role of guanosine 3',5'-cyclic monophosphate, which is increased by receptor activation of guanylate cyclase by ANP and is thought to play a major role in the biological effects of ANP in some other tissues, remains controversial in the aldosterone-lowering effect of ANP, and this is also discussed extensively in this review.
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PMID:Atrial natriuretic peptide-induced inhibition of aldosterone secretion: a quest for mediator(s) 135 32

Tetanus toxin (100 nM) when preincubated with guinea pig cerebrocortical synaptosomes for 45 min reduces the final extent of the KCl-evoked, Ca(2+)-dependent, glutamate transmitter release to 30% of non-intoxicated controls. Similarly, 100 nM Botulinum neurotoxins, types A and B, preincubated for 90 min inhibit release to 45-60% of non-intoxicated controls. The toxins preferentially attenuate a slow phase of KCl-evoked glutamate release which may be associated with synaptic vesicle mobilization. Tetanus toxin additionally inhibits the release of aspartate, gamma-aminobutyric acid and met-enkephalin from the same preparation. Since amino acids and neuropeptides are released by distinct mechanisms, this indicates that the toxin affects a step common to both exocytotic pathways. When Ba2+ (which does not interact with calmodulin) is substituted for Ca2+, the control KCl-evoked release of each transmitter is unaffected and tetanus toxin is still inhibitory. Taken together these results implicate a calmodulin-independent locus (or loci) of action common to small- and large-dense-core vesicles and associated with vesicle transport.
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PMID:Tetanus toxin and botulinum toxins type A and B inhibit glutamate, gamma-aminobutyric acid, aspartate, and met-enkephalin release from synaptosomes. Clues to the locus of action. 135 88

The effects of beta-endorphin, Met-enkephalin, dynorphin and SKF 10047 on the constancy of the isometric developed tension (IDT) of the spontaneous contractions of uterine strips isolated from ovariectomized rats were explored. beta-endorphin (10(-6) M) was the only opioid that depressed significantly uterine constancy of IDT in a concentration dependent fashion. Naloxone, neither at 10(-8) M nor at 10(-6) M, altered the negative inotropic influence of beta-endorphin. Moreover, the basal synthesis and outputs of some prostaglandins (PGE1, PGE2 and PGF2 alpha) from rat uteri and the effect of beta-endorphin (10(-6) M), were determined. It was found that the basal synthesis and release of PGs in uteri were significantly inhibited by this endogenous opioid. The effects of beta-endorphin (10(-8), 10(-6) and 10(-5) M) on the basal; and oxytocin or A23187, induced 45Ca2+ uptake, as well as the influence of naloxone were also studied. beta-endorphin at three of the concentrations tested decreased basal uterine 45Ca2+ uptake and this action was not prevented by naloxone (10(-8) M). The presence of oxytocin and of A23187 augmented significantly 45Ca2+ uptake, an effect that was antagonized by beta-endorphin (10(-6) M). The possible role of beta-endorphin in uterine functioning via the modulation of uterine PG synthesis and Ca2+ uptake is discussed.
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PMID:Effects of beta-endorphin on spontaneous uterine contractions. Prostaglandins production and 45Ca2+ uptake in uterine strips from ovariectomized rats. 135 70

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