Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The efflux of GSH has been shown previously to be a saturable process in both isolated rat hepatocytes and perfused liver, suggesting a carrier-mediated transport mechanism. The possibility in hormonal regulation of this process has been raised by recent reports. Our present work examined the role of hormones known to affect intracellular signal transduction mechanisms on GSH efflux in cultured rat hepatocytes and perfused rat livers. We found that cAMP-dependent factors, such as cholera toxin (CT), dibutyryl cAMP, forskolin, and glucagon all stimulated GSH efflux in cultured rat hepatocytes. The efflux kinetics were compared in cultured cells incubated with or without CT; the stimulation of GSH efflux was related to a near doubling of the Vmax while exhibiting no significant alteration of the Km. The increase in intracellular cAMP level associated with the threshold for this stimulatory effect was 25% above control. The stimulatory effect of CT could not be blocked by cyclohexamide pretreatment or reversed by colchicine treatment. The stimulatory effect of glucagon was abolished in the presence of ouabain but not in the presence of barium. On the other hand, hormones which act through Ca2+ and protein kinase C, such as phenylephrine and vasopressin, had no effect on GSH efflux in the cultured cells. In the perfused liver model, glucagon (10 nM) and dibutyryl cAMP (8 microM) stimulated sinusoidal GSH efflux to 130 and 144% of control values, respectively, and increased bile flow while not affecting biliary GSH efflux. Finally, the physiological significance of glucagon-mediated stimulation of sinusoidal GSH efflux was assessed by both plasma GSH and glucose levels in response to in vivo glucagon infusion. The threshold dose of glucagon for significant increase in plasma GSH (5.21 pmol/min) was lower than for glucose (15.61 pmol/min). At the highest glucagon infusion rate (261 pmol/min), plasma GSH level doubled while glucose level increased 80%. In conclusion, increased cAMP stimulates GSH efflux in cultured rat hepatocytes and perfused livers. The stimulatory effect of cAMP is exerted at the sinusoidal pole and appears to be mediated by hyperpolarization of hepatocytes by stimulation of Na(+)-K(+)-ATPase. In vivo studies confirmed the importance of cAMP-mediated stimulation of sinusoidal GSH efflux as it resulted in significant elevation of the plasma GSH level.
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PMID:Hormonal regulation of glutathione efflux. 216 79

In Swiss 3T3 cells, depletion of protein kinase C (PKC) by prolonged incubation with phorbol esters potentiates the formation of total inositol phosphates in response to bombesin or vasopressin [Blakeley, Corps & Brown (1989) Biochem. J. 258, 177-185]. The characteristics of the accumulation of inositol phosphates in control and PKC-depleted cells stimulated by bombesin, vasopressin or prostaglandin F2 alpha (PGF2 alpha) have now been compared. The potentiation of the PGF2 alpha response was greater than that of the vasopressin response which was, in turn, greater than that of the bombesin response. The time courses of the responses to all three agonists were biphasic, and both phases of the response were amplified in the PKC-depleted cells. These results provide further evidence for the involvement of a PKC-mediated negative-feedback loop regulating phosphoinositide hydrolysis in response to several 3T3 cell mitogens. The differential potentiation of the response to these agonists suggests that PKC might act at multiple sites within the signal transduction pathway.
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PMID:Differential potentiation of mitogen-stimulated phosphoinositide hydrolysis in protein kinase C-depleted Swiss 3T3 cells. 216 45

Cultured fibroblasts (REF52 cells) were employed to investigate phospholipid degradation in response to vasopressin (VP) treatment. There have been few studies in fibroblasts which characterize the pattern and relationship of phosphatidylinositol 4,5-bisphosphate (PIP2) and non-phosphoinositide hydrolysis elicited by VP. Here we demonstrate that VP-induced PIP2 hydrolysis is closely accompanied by phosphatidylcholine (PC) degradation by phospholipase D. Cells prelabeled with [3H]arachidonic acid showed rapid formation and diminution of [3H]diacylglycerol (DG) (5-15s) when treated with VP; this was accompanied by a reduction in polyphosphoinositide radioactivity. Radiolabeled inositol trisphosphate was generated with a similar time frame. In cells prelabeled with [3H]myristic acid, which is predominantly incorporated into cellular PC, VP elicited the generation of [3H]myristoyl phosphatidate (PA) as early as 15 s, in the absence of an increase in labeled DG. In the presence of ethanol the pattern of [3H]myristoyl phosphatidylethanol (PEt) formation coincided with [3H]myristoyl-PA formation in the absence of ethanol. PEt was similarly formed, in response to VP treatment, in cells prelabeled with 1-O-[3H]hexadecyl-2-lyso-sn-glycero-3-phosphocholine. The formation of PC-derived [3H]myristoyl-DG was characterized by a lag period of approximately 1 min, after which DG increased steadily over a 10-min period. Biphasic formation of DG was observed in cells prelabeled with [3H]arachidonic acid, and the formation of [3H]PA occurred in an uninterrupted fashion. Two protein kinase C agonists, phorbol diester and dioctanoylglycerol, elicited the formation of [3H]myristoyl-PEt. The inclusion of staurosporine, a protein kinase C inhibitor, blocked VP-induced [3H]myristoyl-PEt formation by 88%. These data demonstrate that VP elicits the coordinated hydrolysis of PIP2 by phospholipase C and PC hydrolysis by phospholipase D. This event results in the prolonged generation of PA and biphasic formation of DG. From the time courses shown, we hypothesize that the early generation of PA, heretofore ascribed to products of the polyphosphoinositide cycle, are in part derived from PC by phospholipase D.
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PMID:Vasopressin-induced polyphosphoinositide and phosphatidylcholine degradation in fibroblasts. Temporal relationship for formation of phospholipase C and phospholipase D hydrolysis products. 217 Mar 80

In this study we investigated the role of protein kinases in activation of the Na(+)-H+ exchanger in inner medullary collecting duct (IMCD) cells. Monolayers, 24-48 h after achieving confluence, were made quiescent by 24 h incubation in 0.1% serum before study. Changes in pHi were measured with 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein. Phorbol myristate acetate (PMA), a synthetic analogue of diacylglycerol (DAG), was used to stimulate protein kinase C (PKC). In nominally HCO3(-)-free media containing 110 mM Na+ and 1 mM Ca2+, PMA addition increased pHi from 7.29 +/- 0.08 to 7.54 +/- 0.07 after 20 min. The increment in pHi was completely inhibited by 1 mM amiloride or by replacement of extracellular Na+ with choline but not inhibited by 1 mM N-ethylmaleimide, an inhibitor of active proton transport. Downregulation of PKC by overnight incubation of monolayers with PMA also prevented the rise in pHi upon subsequent challenge with PMA. Another active analogue of DAG, 1,2-dioleoyl-rac-glycerol, caused an increment in pHi similar to that produced by PMA, whereas 4 alpha-phorbol, an inactive analogue, did not stimulate Na(+)-H+ exchange. Bradykinin (10(-6) M), a phospholipase C-activating hormone, also induces alkalinization of IMCD cells similar to that produced by phorbol esters. Neither vasopressin (10(-7) M), which induces cellular accumulation of adenosine 3',5'-cyclic monophosphate (cAMP) and activation of protein kinase A (PKA), nor 8-bromo-cAMP (1 mM) changed pHi. Therefore in the IMCD cell activation of PKC but not PKA stimulates a rise in pHi via the Na(+)-H+ exchanger.
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PMID:Na(+)-H+ exchange is stimulated by protein kinase C activation in inner medullary collecting duct cells. 217 60

This work examines the roles of elevated cytosolic Ca2+ and stimulation of protein kinase C in agonist and non-agonist-mediated alkaline shift of the cytosolic pH set point for activation of Na+/H+ antiport in human platelets. Ca2(+)-depleted and control platelets were subjected to phorbol 12-myristate 13-acetate, thrombin, vasopressin, and ionomycin in 1 mM or Ca2+ free, nominally bicarbonate free media. To measure the cytosolic pH set point for Na+/H+ antiport activation, cells were acidified to different levels using the sodium propionate method. In some experiments protein kinase C was inhibited by staurosporine. Both protein kinase C stimulation and elevation of cytosolic Ca2+ can produce an alkaline shift in the pH set point for activation of Na+/H+ antiport in human platelets. However, the effect of Ca2+i on the pH set point predominates that of protein kinase C stimulation. Cytosolic Ca2+ is a prerequisite for agonist-evoked alkaline shift in the cytosolic pH set point for activation of Na+/H+ antiport. The cytosolic Ca2+ level is also essential for maintaining the basal cytosolic pH. These findings underscore the central role of cytosolic Ca2+ under basal and stimulated states in regulating cytosolic pH of human platelets.
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PMID:Agonist-evoked alkaline shift in the cytosolic pH set point for activation of Na+/H+ antiport in human platelets. The role of cytosolic Ca2+ and protein kinase C. 217 33

Quiescent cultures of Swiss 3T3 cells can be stimulated to recommence DNA synthesis by polypeptide growth factors, neuropeptides, and various pharmacologic agents that act via multiple signal transduction pathways. Neuropeptides of the bombesin family provide potent mitogens to elucidate these pathways. These peptides bind to specific receptors that have been characterized by radioligand binding and sensitivity to antagonists and identified as glycoproteins with a Mr of 75,000-85,000 by chemical cross-linking. After binding, bombesin elicits a cascade of early molecular events including stimulation of phosphorylation of the acidic Mr 80,000 cellular protein, which is a major substrate of protein kinase C; Ca2+ mobilization mediated by Ins(1,4,5)P3, Na+ and K+ fluxes, transmodulation of EGF receptor, enhancement of cAMP accumulation, and expression of the proto-oncogenes c-fos and c-myc. Studies using membrane preparations and permeabilized 3T3 cells indicate that G proteins play a role in the transduction of the mitogenic signal triggered by the binding of bombesin to its receptor. A pertussis toxin-insensitive G protein couples the bombesin receptor to the generation of a signal that activates protein kinase C, whereas a pertussis toxin-sensitive G protein mediates cross-talk between transmembrane signaling pathways. Bombesin-mediated mitogenesis can be blocked by different antagonists and by interrupting the signal-transduction process at various postreceptor levels. Thus, prolonged treatment with vasopressin causes heterologous desensitization to the mitogenic action of bombesin. This mitogenic block is mediated by uncoupling the receptor from its signaling system. Loss of responsiveness to bombesin-stimulated DNA synthesis is also induced by down-regulation of protein kinase C.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Bombesin stimulation of mitogenesis. Specific receptors, signal transduction, and early events. 217 58

In the present study we have examined the action of the phorbol diester tetradecanoyl phorbol acetate, an activator of protein kinase C, on the transepithelial transport of sodium, chloride and water and the production of cAMP in the isolated frog skin epithelium (Rana esculenta). Addition of tetradecanoyl phorbol acetate to the mucosal solution resulted initially in an increase in the short-circuit current, which was followed by a progressive decrease. If the short-circuit current was first activated by addition of the antidiuretic hormone, arginine vasotocin, then the addition of tetradecanoyl phorbol acetate resulted only in a pronounced inhibition. The changes in the short-circuit current were the result of changes in the active influx of Na+. The effect of tetradecanoyl phorbol acetate on the intracellular potential measured under short-circuited conditions (Vscc) was time-dependent. Just after addition of tetradecanoyl phorbol acetate to the mucosal solution, Vscc depolarized; this was followed by a slight hyperpolarization, after which Vscc continued to decline. The inhibition of the Na+ transport by tetradecanoyl phorbol acetate was associated with a decline in the response to the antidiuretic hormone (arginine vasotocin), but the ability of arginine vasotocin to increase the cellular level of cAMP and to stimulate the osmotic water flow was not affected by the presence of tetradecanoyl phorbol acetate. In skin halves in which the short-circuit current was stimulated with arginine vasotocin, addition of tetradecanoyl phorbol acetate resulted in a dose-dependent inhibition of the short-circuit current, but only minor changes in Vscc were observed. The results presented suggest that the addition of tetradecanoyl phorbol acetate to the isolated frog skin first increases and then decreases the arginine vasotocin-sensitive sodium permeability of the apical membrane. This might be due to a stimulating effect of tetradecanoyl phorbol acetate on both the activation and deactivation (turnover) of the sodium channels.
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PMID:Effect of 12-O-tetradecanoyl phorbol 13-acetate on solute transport and production of cAMP in isolated frog skin. 217 32

The role of protein kinase C (PKC) in stimulus recognition and insulin secretion was investigated after long-term (24 h) treatment of RINm5F cells with phorbol 12-myristate 13-acetate (PMA). Three methods revealed that PKC was no longer detectable, and PMA-induced insulin secretion was abolished. Such PKC-deficient cells displayed enhanced insulin secretion (2-6-fold) in response to vasopressin and carbachol (activating phospholipase C) as well as to D-glyceraldehyde and alanine (promoting membrane depolarization and voltage-gated Ca2+ influx). Insulin release stimulated by 1-oleoyl-2-acetylglycerol (OAG) was also greater in PKC-deficient cells. OAG caused membrane depolarization and raised the cytosolic Ca2+ concentration ([Ca2+]i), both of which were unaffected by PKC down-regulation. Except for that caused by vasopressin, the secretagogue-induced [Ca2+]i elevations were similar in control and PKC-depleted cells. The [Ca2+]i rise evoked by vasopressin was enhanced during the early phase (observed both in cell suspensions and at the single cell level) and the stimulation of diacylglycerol production was also augmented. These findings suggest more efficient activation of phospholipase C by vasopressin after PKC depletion. Electrically permeabilized cells were used to test whether the release process is facilitated after long-term PMA treatment. PKC deficiency was associated with only slightly increased responsiveness to half-maximally (2 microM) but not to maximally stimulatory Ca2+ concentrations. At 2 microM-Ca2+ vasopressin caused secretion, which was also augmented by PMA pretreatment. The difference between intact and permeabilized cells could indicate the loss in the latter of soluble factors which mediate the enhanced secretory responses. However, changes in cyclic AMP production could not explain the difference. These results demonstrate that PKC not only exerts inhibitory influences on the coupling of receptors to phospholipase C but also interferes with more distal steps implicated in insulin secretion.
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PMID:Potentiation of stimulus-induced insulin secretion in protein kinase C-deficient RINm5F cells. 217 69

Calcium has been implicated as a regulatory factor in many physiological and pathophysiological processes in the renal cell. Under physiological conditions, the cytosolic free calcium concentration is maintained at approximately 100 nM. Most of the releasable cell Ca2+ resides in the nonmitochondrial compartments. In addition to the plasma membrane Ca2+ transport processes, there is a high-affinity, low-capacity buffering capability of nonmitochondrial organelles and a lower-affinity high-capacity mitochondrial Ca2+ buffering capability. A critical enzymatic effector of Ca2+ action in the cell is phospholipase A2. By using digitonin-permeabilized renal mesangial cells, the [Ca2+] dependency of phospholipase A2 was characterized. The [Ca2+] sensitivity was insufficient to explain the phospholipase A2 activation observed with vasopressin. In both intact cells, as well as permeabilized cells, it was found that protein kinase C activation markedly enhanced the Ca2+ calmodulin-dependent activation of phospholipase A2. In response to platelet-derived growth factor, it was found that arachidonic acid release preceded phospholipase C activation. This suggests that other effectors besides Ca2+ and protein kinase C may also be important for phospholipase A2 activation. In an experimental model designed to mimic postischemic reperfusion damage to renal mitochondria, it was demonstrated that reactive oxygen species act synergistically with Ca2+ to activate mitochondrial phospholipase A2, which mediates damage to site I of the electron transport chain, the F1F0 ATPase, and the adenine nucleotide translocase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Calcium in renal cells. Modulation of calcium-dependent activation of phospholipase A2. 219 Aug 10

A protein of Mr approximately 120,000, related to the human erythrocyte membrane skeletal protein alpha-adducin, has been identified by immunological criteria in human fibroblasts. Using similar methods, beta-adducin (an Mr approximately 110,000 protein that forms a dimeric complex with alpha-adducin in the erythrocyte) is not present in fibroblasts. Subcellular distribution studies reveal that fibroblast alpha-adducin is largely associated with the particulate fraction and is most effectively solubilized from that fraction by a combination of nonionic detergent and high salt. Immunocytochemistry of quiescent fibroblasts shows that alpha-adducin is clustered in large perinuclear arrays that may correspond to vesicular structures; weak staining was also found in the sub-plasma membrane region. As in erythrocytes, the phosphorylation of fibroblast alpha-adducin is elevated on exposure of cells to phorbol esters that activate protein kinase C (PK-C). In addition, various mitogens such as serum, bradykinin and vasopressin also stimulate alpha-adducin phosphorylation by a PK-C-dependent pathway. The elevation in alpha-adducin phosphorylation is maintained for up to 30 min after mitogen addition. Peptide maps of phospho-alpha-adducin from both fibroblasts and erythrocytes after PK-C-mediated phosphorylation showed multiple phosphorylated peptides but with dissimilar migration patterns, suggesting divergence of structure around the phosphorylation sites. Adducin appears to play an important role in the regulation of spectrin-actin interactions in the red cell and may play a role in cytoskeletal function in the fibroblasts.
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PMID:Identification and protein kinase C-dependent phosphorylation of alpha-adducin in human fibroblasts. 219 89


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