Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of protein kinase C (PKC) on vasopressin (VP) action was investigated by inhibition of endogenous PKC using prolonged incubation of the cells with phorbol ester, and by direct measurement of PKC activity in pituitary cells. Preincubation of the cells for 6 h with 100 nM TPA at 37 C resulted in a 90% decrease in total PKC activity. In the PKC-depleted cells, cAMP responses to stimulation with 100 nM CRF for 30 min were normal, but the potentiating effects of VP and PMA on CRF-stimulated cAMP production were abolished. The stimulation of ACTH secretion by VP and PMA alone was also abolished in PKC- depleted cells. PKC activity in cytosolic and detergent-solubilized membrane fractions from enriched pituitary corticotrophs obtained by centrifugal elutriation, was directly measured by enzymatic assays and by immunoblotting techniques. Basal PKC activity was higher in the cytosol than in the membranes (8.43 +/- 0.47 and 1.93 +/- 0.11 pmol 32P incorporated/10 min, respectively). After incubation of the cells with VP for 15 min or [3H] phorbol-12-myristate-13-acetate (PMA) for 30 min, PKC activity in cytosol was decreased by 40% and 89%, respectively, while the activity in the membrane was increased by 138% and 405%, respectively. Such VP- and PMA-induced translocation of PKC was also observed when the enzyme content in the cytosol and the membranes was measured by immunoblotting using a specific anti-PKC antibody and [125I]protein A. Autoradiographic analysis of immunoblots revealed an 80 kilodalton band characteristic of PKC, with OD higher in the cytosolic than in the membrane fractions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein kinase C mediates the effect of vasopressin in pituitary corticotrophs. 256 Aug 4

Acute and chronic renal failure are clinical states associated with secondary hyperparathyroidism and increased catabolism. It has been suggested that elevated proteolytic activity is present in the blood in these clinical states. It is, theoretically, possible that the excess blood levels of parathyroid hormone (PTH) in patients with these disorders stimulate release of proteases, since this latter process is calcium dependent and PTH enhances entry of calcium into cells. The present study examined the effect of PTH and its amino- and carboxyterminal fragments on elastase release from polymorphonuclear leucocytes (PMNL), and evaluated the mechanisms underlying such an action. 1-84 PTH stimulated elastase release from PMNL in a dose-dependent and time-dependent manner. This effect of the hormone was abolished by its inactivation as well as by the presence of EDTA. Verapamil, trifluoperazine and W-7 reduced but did not abolish the 1-84 PTH-induced stimulation of elastase release from PMNL. Phorbol ester (PMA) also stimulated elastase release but both PTH or PMA-induced elastase release was blunted by staurosporin, an inhibitor of protein kinase C. The 19-84 carboxyterminal PTH also produced significant stimulation of elastase release from PMNL but the amino-terminal 1-34 PTH or other peptide hormones (insulin, calcitonin, and ACTH) had no stimulatory effect on elastase release.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of parathyroid hormone on elastase release from human polymorphonuclear leucocytes. 261 95

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

ACTH1-24 stimulated the parenchymal cells in cultures of rat adrenal cortex in serum-free synthetic HiWoBa 2000 medium to replicate DNA, enter mitosis and divide. But ACTH's principal mediator, cyclic AMP, was not a complete mitogen: the adenylate cyclase-stimulating cholera toxin and dibutyryl cyclic AMP stimulated parenchymal cells to replicate DNA but not to enter mitosis. Thus, there must have been an additional mediator of the response to ACTH1-24 that enabled the parenchymal cells to enter mitosis. This additional mediator might have been protein kinase C because a protein kinase C activator and cyclic AMP elevator, TPA, stimulated the adrenocortical parenchymal cells to replicate DNA, enter mitosis and divide.
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PMID:The effects of corticotrophin (ACTH1-24), cyclic AMP and TPA (12-O-tetradecanoyl phorbol-13-acetate) on DNA replication and proliferation of primary rabbit adrenocortical cells in a synthetic medium. 282 83

Y1 adrenal tumor cells are resistant to the steroidogenic effect of A-II though they possess specific A-II binding sites. The number of these binding sites is lower in Y1 cells than in bovine adrenal cells, but the affinity is similar in the two models. Moreover, Y1 cells are shown to contain a high level of cytosolic protein kinase C whose properties appear similar to those observed in bovine adrenal cells. However, the activation of protein kinase C by a phorbol ester (PMA) or diacylglycerol (OAG) does not induce steroidogenesis in Y1 cells. On the other hand, A-II, without any effect on adenylate cyclase in basal conditions, reduces the ACTH-induced cAMP production in Y1 cells. This inhibitory effect of A-II is not blocked by phosphodiesterase inhibitor but is completely abolished after 24 hours of pretreatment of intact cells with pertussis toxin. This inhibition is probably mediated by the inhibitory guanine nucleotide regulatory protein (Gi) since the labeled 41 KD-ADP ribosylated protein disappeared after 24 hours of pretreatment of intact cells with pertussis toxin. Moreover, the accumulation of inositol phosphates under A-II stimulation was low, which suggests that the coupling of A-II receptors with phospholipase C is reduced in Y1 cells. The Y1 cell line is probably a good model to study the post membrane events in A-II action.
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PMID:Angiotensin II (A-II) steroidogenic refractoriness in Y-1 cells in the presence of A-II receptors negatively coupled to adenylate cyclase. 282 18

Adrenal glomerulosa cell is a suitable model for a comparative study of signal transducing mechanisms since its secretory activity is regulated by at least three different mechanisms: the adenylate cyclase-cAMP system (for ACTH), the voltage-dependent Ca2+ channel (for K+ and perhaps for angiotensin II) and the inositol 1,4,5-trisphosphate-Ca2+ system (for angiotensin II and vasopressin). The role of inositol phosphates, extracellular Ca2+ and protein kinase C in the induction and sustaining of aldosterone production by cells exposed to angiotensin II is critically reviewed.
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PMID:Stimulus-secretion coupling in angiotensin-stimulated adrenal glomerulosa cells. 283 58

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

The role of protein kinase C activation in the control of cortisol synthesis was studied using the phorbol ester 12-O-tetradecanoyl phorbol-13-acetate (TPA). Bovine zona fasciculata cells were incubated with various concentrations of TPA in the presence and absence of EGTA, verapamil or nitrendipine to see whether cortisol stimulation was dependent on extra-cellular calcium ions. When free extracellular concentration of Ca2+ was reduced to approximately 10 mumol/l the cortisol response at all concentrations of TPA was reduced by approximately 25% indicating that protein kinase C activation is only partially dependent on extracellular calcium ions. This is confirmed by the effects of the voltage-dependent calcium channel blocker verapamil, which partially inhibited the cortisol response to a maximally effective concentration of TPA (1 mumol/l). However, a second channel blocker, nitrendipine, proved to be ten times more potent than verapamil and totally inhibited the TPA response. The partial effects of EGTA and verapamil and the contrast between verapamil and nitrendipine do not exclude the possibility that intracellular calcium ions are important in protein kinase C activation and may indicate that nitrendipine has better access to an additional site of inhibitory action than verapamil. It is significant that the ionophore A23187, which facilitates Ca2+ entry independently of voltage-sensitive channels, failed to overcome the inhibitory effects of nitrendipine in TPA-stimulated cells. In some other tissues, the effects of protein kinase C activation are mediated by the opening of Na+/H+ exchange ports. The involvement of this port in the cortisol response has been tested by incubating TPA- and ACTH-treated cells with amiloride, an inhibitor of Na+/H+ exchange.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of cortisol production in isolated bovine zona fasciculata cells by phorbol ester: role of ion fluxes. 283 92

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

We have examined protein kinase C activity and hormone secretion in aldosteronoma cells derived from adrenocortical glomerulosa cells and in adjacent adrenal cells containing adrenocortical fasciculata-reticularis cells. When aldosteronoma cells were stimulated with ACTH or angiotensin II, protein kinase C activity gradually decreased in cytosol whereas it increased in membrane. Coincident with the changes of protein kinase C activity, there was enhancement of secretion of aldosterone. On the other hand, incubation of adjacent adrenal fasciculata-reticularis cells with ACTH induced cortisol secretion and an increase in cytosolic protein kinase C activity, accompanied by a decrease in the enzyme activity in membrane. Upon stimulation with angiotensin II, adjacent adrenal fasciculata-reticularis cells did not secrete cortisol and no significant changes of protein kinase C activities were observed in either cytosolic or membrane fractions. These results indicate that both ACTH and angiotensin II stimulate aldosterone secretion and cause translocation of protein kinase C from cytosol to membranes in aldosteronoma cells, whereas, in fasciculata-reticularis cells, only ACTH stimulates cortisol secretion and this is associated with translocation of protein kinase C in the opposite direction, viz., from membrane to cytosol.
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PMID:Differential redistribution of protein kinase C in human aldosteronoma cells and adjacent adrenal cells stimulated with ACTH and angiotensin II. 284 77


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