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 possible role of protein kinase C (PKC) in the cyclic AMP-dependent mechanism of action of corticotropin-releasing factor (CRF) on proopiomelanocortin cells of anterior and intermediate pituitary glands was examined after pretreatment of cells in culture with the PKC inhibitor retinal or the phorbol ester PMA, which depletes cell stores of the kinase. We found that these drugs not only abolished ACTH response to PMA and vasopressin, which both activate PKC, but unexpectably also dampened by 80-90% the stimulatory effect of CRF. Cell treatment with retinal failed to prevent CRF-induced accumulation of cyclic AMP. Retinal and PMA pretreatments of intermediate pituitary cells likewise inhibited alpha-MSH secretion stimulated by CRF. These data provide evidence to suggest that the mechanism of action of CRF on pituitary cells involves both cyclic AMP and PKC messenger systems.
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PMID:Indirect evidence that protein kinase C plays a critical role in signal transduction of both vasopressin and corticotropin-releasing factor on pituitary cells in culture. 255 Dec 65

Somatostatin, morphine, and opioids inhibit transmitter release at intact neuromuscular junctions between ciliary ganglion neurons and the choroidal smooth muscle of the chick eye. Somatostatin and morphine, however, have no effect on release from terminals on the striated muscle target of the ciliary ganglion, the iris. In neuronal terminals of both the choroid and the iris, a high-affinity Na+-dependent choline uptake-mediated ACh synthesis is present at hatching. Both tissues exhibit a basal release of 3H-ACh which is potentiated severalfold during a 5 minute incubation in 55 mM K+ Tyrodes. Fifty percent of the basal release and 100% of the stimulated release are Ca2+ dependent and probably mediated through N-like voltage-dependent Ca2+ channels. Co-incubation of the choroid with 10 microM morphine sulfate blocks approximately 90% of the stimulated release. The same effect is seen with 100 nM somatostatin, 10 microM dynorphin, and 100 microM met-enkephalin arginine phenylalanine. Preincubation of the excised choroid with pertussis toxin (200 ng/ml) reverses the inhibitory effects of both morphine and somatostatin. In contrast, 3H-ACh release from terminals in the striated iris is not affected by either morphine or somatostatin at micromolar levels. These results suggest that both opiate and somatostatin receptors are present in the choroid target and that they may act through a final common pathway to modulate ACh release via G proteins. Second messengers such as cyclic AMP or diacylglycerol do not appear to mediate these effects; neither increasing cAMP levels in terminals nor activation of protein kinase C affects evoked release or its inhibition by morphine or other neuromodulators. It is unclear whether endogenous neuromodulation occurs in this system, although somatostatin-like immunoreactivity can be demonstrated in terminals of choroid neurons.
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PMID:Opiate and peptide inhibition of transmitter release in parasympathetic nerve terminals. 256 61

Luteinizing hormone is the major regulator of Leydig cell differentiation and steroidogenic function. A number of hormones produced by the Leydig cell (e.g. estrogen, angiotensin, CRF, vasopressin) and the tubular compartment (inhibin, TGF beta), can influence both acute and long-term actions of LH. Conversely, hormones produced in the Leydig cells modulate tubular function (e.g. androgen, beta-endorphin, oxytocin). The LH stimulatory event can be negatively influenced by the action of angiotensin II through the guanyl nucleotide inhibitory unit of adenylate cyclase. We have recently discovered an action of corticotrophin releasing hormone through specific high-affinity low-capacity receptors in the Leydig cells which involves a pertussis toxin insensitive guanyl nucleotide regulatory unit with interaction between signalling pathways and resulting inhibition of LH induced cAMP generation and consequently of steroidogenesis. In contrast to other tissues the CRF receptor in the Leydig cells did not couple to Gs. CRF action is exerted through direct or indirect action of protein kinase C, at the level of the catalytic subunit of adenylate cyclase. Physiological increases in endogenous LH cause positive regulation of membrane receptors and steroidogenesis, while major elevations in circulating gonadotropin can induce down-regulation of LH receptors and desensitization of steroid responses in the adult cell. Gonadotropin-induced desensitization in adult rat tests include an estrogen mediated steroidogenic lesion of the microsomal enzymes 17 alpha-hydroxylase/17,20-desmolase. For further understanding of the regulation of this key enzyme of the androgen pathway the rat P450(17) alpha cDNA was cloned and sequenced. This cDNA expressed in COS-1 cells 17 alpha-hydroxylase/17,20-desmolase activities. From the deduced amino acid sequence, two transmembrane regions were identified, a signal peptide for insertion in the ER, and a 2nd transmembrane region separated from the first by 122 amino acids. The carboxy terminal non-transmembrane region possesses 4 hydrophobic clefts, of which cleft II would contain the putative steroid binding site for both hydroxylase and lyase activities. The rat cDNA was employed to evaluate the hormonal regulation of mRNA levels in adult and fetal Leydig cells. Low dose hCG treatment caused an early increase in mRNA levels followed by a return to control values at later times, while with higher desensitizing doses the initial increase in mRNA was followed by a marked reduction in mRNA at 24 h and a small recovery at 48 h. Fetal rat Leydig cells treated with E2 showed a 70% decrease in P450 mRNA levels, and testosterone production closely followed the changes in mRNA.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:LH action in the Leydig cell: modulation by angiotensin II and corticotropin releasing hormone, and regulation of P450(17) alpha mRNA. 269 45

The effects of the protein kinase C activator, phorbol myristate acetate (PMA), on cytosolic calcium levels and adrenocorticotropin (ACTH) release from the mouse anterior pituitary tumor cell line, AtT-20, were compared to those induced by the hormone, corticotropin-releasing factor (CRF), a stimulant of cAMP-dependent protein kinase activity. Cytosolic calcium levels were measured using the fluorescence probe Quin 2. PMA induced a time- and concentration-dependent rise in cytosolic calcium levels and ACTH release from AtT-20 cells that was blocked by verapamil and nifedipine, antagonists of voltage-regulated calcium channels, and tetraethylammonium (TEA), a K+ channel antagonist. The inactive phorbol ester, 4-phorbol 12,13-didecanoate, did not alter cytosolic calcium levels or ACTH release. Several minutes after the initial stimulation of calcium influx by PMA, cytosolic calcium levels returned to basal levels despite the continued presence of the phorbol ester. A short pretreatment (2-4 min) of AtT-20 cells with PMA abolished the ability of K+, CRF, and forskolin to raise intracellular calcium levels. These findings indicate that phorbol esters induce a secondary inhibition of calcium influx after an initial stimulation. In contrast to the effects of PMA, CRF induced a sustained rise in cytosolic calcium levels and did not reduce the subsequent stimulation of calcium influx by K+ or PMA. CRF-stimulated calcium influx was blocked by verapamil but not TEA. The ability of CRF to elevate cytosolic calcium levels was mediated by cAMP-dependent protein kinase because the insertion of a synthetic peptide inhibitor of cAMP-dependent protein kinase activity into AtT-20 cells attenuated the ability of CRF and forskolin but not PMA to raise cytosolic calcium levels. The results suggest that activators of protein kinase C and cAMP-dependent protein kinase regulate intracellular calcium levels in AtT-20 cells through different mechanisms.
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PMID:Activators of protein kinase C and cyclic AMP-dependent protein kinase regulate intracellular calcium levels through distinct mechanisms in mouse anterior pituitary tumor cells. 282 94

The corticotropin (ACTH) or cholera-toxin-induced cAMP production by cultured bovine adrenal cells increased progressively between days 0 and 7 of culture. Angiotensin II (A-II), which inhibited both basal and ACTH-stimulated adenylate cyclase of crude adrenal membranes, had no effect on ACTH-induced or cholera-toxin-induced cAMP production by fresh isolated cells (day 0) but progressively potentiated the stimulatory action of both effectors from day 0----1 to day 7 of culture. In contrast, phorbol ester had a potentiating effect on fresh isolated cells. Pretreatment of cells with pertussis toxin enhanced the potentiating effect of A-II on cells between 0 and 3 days of culture, but not after 7 days. ADP-ribosylation by cholera toxin (ribosylating alpha s proteins) or pertussis toxin (alpha i proteins), of adrenal membranes prepared from fresh isolated or cultured cells revealed an increase in alpha s and a dramatic decrease in alpha i, the ratios alpha i/alpha s on days 0, 3 and 7 of culture were 4, 0.6 and 0.1 respectively. These results indicate that (a) A-II had a double effect on ACTH-induced or cholera-toxin-induced cAMP production: one inhibitory mediated by Gi, the other stimulatory mediated by protein kinase C activation; this could explain the lack of apparent effect of A-II on fresh cells; (b) the progressive decrease of alpha i might be responsible for the appearance of the potentiating effect of A-II whereas the progressive increase of alpha s could explain the enhanced responsiveness to ACTH or cholera toxin of cultured cells.
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PMID:Variations in guanine-binding proteins (Gs, Gi) in cultured bovine adrenal cells. Consequences on the effects of phorbol ester and angiotensin II on adrenocorticotropin-induced and cholera-toxin-induced cAMP production. 283 73

Intraventricular administration of ACTH1-24 induces excessive grooming in the rat. Ethogram analysis shows that the peptide does not alter grooming behavior seen in a novel box, but that it prolongs the duration of the grooming bout. Extensive structure-activity studies have been performed which suggest that the active site lies in a region (5-13) of the ACTH molecule. Interestingly, the (1-24) sequence is fully active, whereas (1-10) and (11-24) alone or in combination are inactive, pointing to a specific stereoconformation necessary to induce grooming. However, despite the fact that there are ACTH-and/or alpha-MSH-containing peptidergic neurons, no conclusive evidence is available demonstrating stereospecific, saturable binding sites for these peptides in brain. The analysis of the neural substrate underlying ACTH-induced excessive grooming has been performed by means of electrolytic lesions of specific brain regions and by neuropharmacological manipulations. The data suggest that the periaqueductal gray is the primary target for ACTH and that the activity of neostriatum and accumbens, via a nigro-colliculus-periaqueductal gray pathway, modulates the display of excessive grooming. An important feature of the neural substrate is that it displays single-dose tolerance to the peptide during the first hours after the first peptide injection. It is suggested that the tolerance is a feature of an opioid receptor-containing component of the neural substrate. The molecular mechanism of action of ACTH is complex and may involve different transmembrane signal transduction systems. The peptide decreases the degree of phosphorylation of a neuron-specific, synaptic phosphoprotein B-50 by inhibition of protein kinase C. It is concluded that changes in the degree of phosphorylation of B-50 regulate the activity of the lipid kinase phosphatidylinositol 4-phosphate kinase. Therefore, the B-50 protein seems to be part of a negative feedback loop in the receptor-activated hydrolysis of phosphatidylinositol 4,5-bis-phosphate (PIP2). There is increasing evidence that the molecular mechanism by which ACTH brings about the grooming response involves a change in phosphorylation of B-50. Firstly, the structure-activity relationship of ACTH-induced excessive grooming is nearly identical to that obtained for ACTH-induced inhibition of protein kinase C.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Molecular transduction mechanisms in ACTH-induced grooming. 283 22

In this paper we provide evidence to show that the pathways by which adrenocorticotropic hormone (ACTH) and angiotensin II (AII) stimulate steroidogenesis in bovine fasciculata cells are only partially independent. Both hormones have the same intrinsic activity but a 500-fold higher dose of AII is required to achieve 50% stimulation of steroidogenesis. Whereas ACTH acts by way of cAMP, AII appears to operate through protein kinase C. The phorbol ester, 12-O-tetradecanoylphorbol-13 acetate (TPA), and the calcium ionophore, A23187, each stimulate steroidogenesis and, when added together, act synergistically. To test the relationship between the ACTH and AII pathways, we added the two hormones simultaneously and measured steroid production. When the hormones were present at submaximal concentrations, their effects were additive. At maximal doses, steroid production was 40% above that elicited by either hormone alone. In contrast to the action of AII in the glomerulosa cell where it inhibits ACTH-stimulated cAMP formation, AII causes no inhibition in the fasciculata. Cycloheximide inhibits steroidogenesis stimulated by AII or a mixture of TPA and A23187. Scatchard analysis of the binding of 125I-AII to particulates from adrenal cortical fasciculata indicates the presence of a single class of binding sites (Kd = 0.6 X 10(-8) M). Binding is not inhibited by ACTH. Biotin-containing AII analogs that bind specifically to the particulates have been evaluated as potential tools for avidin-biotin affinity chromatography of the receptor. One of these, [N epsilon-6-(biotinylamido)hexyllys1, Val5] AII, is a promising candidate for receptor isolation.
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PMID:Angiotensin stimulation of adrenal fasciculata cells. 284 22

Very little has been known of the biochemical function of a human adrenocortical carcinoma cell line, SW-13. In this study, the production of several adrenal steroids and 3', 5'-cyclic adenosine monophosphate (cAMP) were investigated in this cell line. The cells were incubated in L-15 medium containing 0.1% bovine serum albumin with several reagents in an atmosphere of 5% CO2 and 95% air for 2 hours at 37 degrees C. Aldosterone (Ald), corticosterone (B), cortisol (F), dehydroepiandrosterone sulfate (DHEA-S) and cAMP were simultaneously assayed by specific radioimmunoassays in the medium and cells. Significant increases in cAMP production were observed by cholera toxin (10 ng/ml) and forskolin (10 nM), both direct stimulators of adenylate cyclase, in the cAMP concentration without an increase in the steroids. The DHEA-S concentration in the medium was significantly increased by angiotensin-II (10(-7)M), noradrenalin (3 X 10(-5) M), adrenalin (3 X 10(-5) M) or alpha-melanocyte-stimulating hormone (alpha-MSH, 10(-7) M), none of which was associated with cAMP production. Neither adrenocorticotropin (10(-10) M) nor human chorionic gonadotropin (500 mIU/ml) stimulated the release of the steroids or cAMP production. A calcium ionophore, A23187 (10(-7) M), and 12-O-tetradecanoylphorbol-13-acetate (10(-8) M), a direct stimulator of protein kinase C, stimulated the release of DHEA-S, but not those of Ald, B and F. The results suggest that SW-13 retains functioning adenylate cyclase which, however, is not linked with steroidogenesis and that DHEA-S is produced probably by the mechanisms which involve protein kinase C system or calcium ion. This report provides the first demonstration of cAMP and DHEA-S production in SW-13 and suggests that this cell line is potentially useful for investigating the mechanisms of steroidogenesis in the human adrenal cortex.
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PMID:Dehydroepiandrosterone sulfate (DHEA-S) and 3', 5'-cyclic adenosine monophosphate (cAMP) production in a cultured human adrenocortical carcinoma cell line (SW-13). 284 Feb 74

The mechanism by which Ca2+ regulates proopiomelanocortin (POMC)-derived peptide secretion and POMC mRNA levels was investigated in primary cultures of porcine intermediate lobe (IL) cells maintained in serum-free medium. POMC gene expression was evaluated by the dot blot hybridization assay with a 32P-labeled DNA probe complementary to the full-length sequence of porcine POMC mRNA. Treatment of IL cells for 24 h with the calmodulin (CAM) antagonists W7 and W13 reduced POMC mRNA levels by a maximum of 50% in a dose-dependent manner (ED50 approximately 10(-8) M). Accumulation of alpha-melanocyte-stimulating hormone (alpha-MSH) in the medium was also depressed by 50% after 8 h of treatment. The role of protein kinase C (PKC) was investigated by depleting the IL cell PKC content with phorbol ester treatment. Phorbol 12-myristate 13-acetate (PMA) at 5 X 10(-8) M induced a rapid translocation of cytoplasmic PKC activity toward the membrane. After 12 h of PMA treatment, PKC activity was undetectable in either the cytoplasmic or the particulate fractions. The same dose of PMA induced a time-dependent decrease in POMC mRNA levels (50% inhibition after 24 h). The same effect was seen with the phorbol ester phorbol 12,13-dibutyrate at 5 X 10(-8) M, whereas the inactive phorbol ester 4 alpha-phorbol at 5 X 10(-8) M was without effect after 24 h of treatment. PMA treatment had a biphasic effect on alpha-MSH secretion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ca2+ regulates hormone secretion and proopiomelanocortin gene expression in melanotrope cells via the calmodulin and the protein kinase C pathways. 292 1

The purpose of the present study was to investigate the effects of activation of different second messenger systems on protein phosphorylation in pituitary corticotrophic tumor cells (AtT-20/D16-16). Using two-dimensional gel analysis of cytosolic extracts from AtT-20 cells, several phosphoproteins exhibited alterations in 32P incorporation in response to stimulation of the cells with either forskolin--an activator of adenylate cyclase--or 12-O-tetradecanoyl phorbol-13-acetate (TPA)--a tumor promoting phorbol ester linked to protein kinase C activation. Alterations in phosphorylation levels were seen for phosphoproteins of the following apparent molecular weights and pIs: 87 kDa (pI 4.4-4.6), 67 kDa (pI 4.7-4.9), 43 kDa (pI 4.8-5.0), 39 kDa (pI 4.9-5.1), 33 kDa (pI 4.8-5.0), 19.5 kDa (pI 5.7-5.9), 19 kDa (pI 5.8-6.0), 16 kDa (pI 5.2-5.4) and 14 kDa (pI 5.1-5.3). For individual phosphoproteins, 32P incorporation varied over time and was also modulated by concentrations of Ca2+ and Mg2+ in the incubation medium. Treatment of the cells with forskolin led to statistically significant changes in the phosphorylation states of the 19.5 and 14 kDa proteins. Treatment of the cells with TPA also produced statistically significant changes in the 19.5 and 14 kDa proteins but, in addition, the 87 kDa, the 39 kDa and the 16 kDa phosphoproteins also exhibited significant changes. Alterations in the phosphorylation states of the 19.5 and the 14 kDa proteins were significantly correlated with alterations in beta-endorphin release from the cells. The primary finding of the present study was that activation of distinct second messenger systems can lead to alterations in the phosphorylation states of both shared and distinct phosphoproteins.
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PMID:Activation of distinct second messenger systems in anterior pituitary corticotrophic tumor cells alters the phosphorylation states of both shared and distinct cytosolic proteins. 295 57

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