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)

To examine the role of protein kinase C as a chronic regulator of proximal tubule Na/H antiporter activity, the effect of phorbol 12-myristate 13-acetate (PMA) on the Na/H antiporter was studied in cultured proximal tubule cells. Short-term activation of protein kinase C by 5 min exposure to PMA caused an acute increase in Na/H antiporter activity that was not prevented by cycloheximide or actinomycin D and did not persist 24 h later. Long-term activation of protein kinase C by 2 h exposure to PMA caused a dose-dependent increase in Na/H antiporter activity 24 h later. This latter effect was due to protein kinase C activation in that it was inhibited by sphingosine and was not seen with 4 alpha-PMA, an inactive analogue. The chronic effect of PMA was inhibited by 10 nM actinomycin D or 7 microM cycloheximide. Proximal tubule cells exposed to PMA for 2 h demonstrated a two- to threefold increase in Na/H antiporter mRNA (mRNANa/H) abundance 4 h later. In conclusion, short-term activation of protein kinase C leads to a transient increase in Na/H antiporter activity that is independent of transcription and translation, whereas long-term activation of protein kinase C causes a persistent increase in antiporter activity that is dependent on transcription and translation and is associated with increased mRNANa/H abundance. This latter effect may mediate increased Na/H antiporter activity in a number of chronic conditions.
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PMID:Long-term activation of protein kinase c causes chronic Na/H antiporter stimulation in cultured proximal tubule cells. 131 Jun 92

In this work, we explored the role of cyclic nucleotides in modulating parameters of the Na/H antiport in human platelets. Sodium nitroprusside and iloprost, as well as cyclic nucleotide analogues, were used to raise cellular levels of cAMP and cGMP. Cyclic nucleotides reversed the thrombin-evoked alkaline shift in cytosolic pH set point and the activity of the Na/H antiport, concurrently with attenuation of thrombin-induced rise in cytosolic free Ca. No effect of cyclic nucleotides was observed in platelets not treated with thrombin, or platelets subjected to phorbol 12-myristate 13-acetate. cAMP did not reverse ionomycin-induced changes in the parameters of the Na/H antiport. Collectively, these observations indicate that cyclic nucleotides modulate the Na/H antiporter in human platelets through their effect on thrombin-evoked changes in cytosolic free Ca. Presumably, this effect holds for other agonists which stimulate phospholipase C, raise cytosolic-free Ca, and activate the Na/H antiport through protein kinase C dependent and protein kinase C-independent mechanisms.
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PMID:Cyclic nucleotides attenuate thrombin-evoked alterations in parameters of platelet Na/H antiport. The role of cytosolic Ca. 131 46

Chronic incubation of cultured renal tubular epithelial cells in acid medium causes an increase in Na/H antiporter activity that persists after removal from acid, is dependent on protein synthesis, and is associated with an increase in Na/H antiporter mRNA. Chronic activation of protein kinase C has similar effects in these cells. The present studies examined the role of protein kinase C in the effect of acid incubation. Incubation of MCT cells in acid for 24 h caused a 50% increase in Na/H antiporter activity. This was prevented by inhibition of protein kinase C, either with sphingosine or by protein kinase C downregulation. Pertussis toxin pretreatment did not prevent the increase in antiporter activity. Acid incubation caused an increase in transcription factor AP-1 activity, as shown by an increase in expression from a reporter gene containing six tandem AP-1 binding sites. This was associated with transient increases in c-fos and c-jun mRNAs. This response is typical of that for gene activation by protein kinase C. These studies demonstrate that acid activation of the Na/H antiporter requires protein kinase C and is associated with c-fos and c-jun expression and increased AP-1 activity.
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PMID:Role of protein kinase C and transcription factor AP-1 in the acid-induced increase in Na/H antiporter activity. 131 56

Thus, in summary, we hypothesize that nephron loss by a time-limited insult (eg, an acute immunological insult, surgical removal of five sixths of normal nephrons) may cause events in the tubules of the remaining nephrons that contribute substantially, though not exclusively, to the inexorable progression to ESRD. Specifically, hypermetabolism in the remaining tubules as assessed by oxygen consumption and ATP synthesis rates has been found to occur. This hypermetabolism in residual nephrons appears to be due to the known increased sodium transport per nephron, but nonsodium transport events also appear to be involved. With respect to the latter phenomenon, we propose that an increase in growth factor response per tubule, as a mechanism of renal hypertrophy, activates the DAG----protein kinase C----Na/H antiporter system. We have evidence in support of this sequence of events by the demonstration of a two-fold increase in membrane (particulate) protein kinase C within 24 hours after removal of the contralateral kidney and an increase in intracellular pH as assessed by NMR spectroscopy. Activation of the Na/H antiporter not only leads to proton extrusion and cellular alkalinization, which may activate cellular alkalinization, which may activate cellular enzymes such as phospholipases, but also increases intracellular Na concentration, thereby further increasing Na/K-ATPase, ATP use, and enhancing ATP synthesis. The increase in mitochondrial oxygen consumption, which accompanies the enhanced ATP synthesis, would be expected to be associated with increased oxygen radicle generation. If the tissue scavengers of oxygen radicles are not sufficient to scavenge the increase in oxygen radicles, then lipid peroxidation and tissue damage will occur.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tubular hypermetabolism as a factor in the progression of chronic renal failure. 304 43

[3H]Inositol and [3H]arachidonic acid were used to label polyphosphoinositide phospholipids in sea urchin eggs. Both [3H]inositol polyphosphate (InsP3) and [3H]diacylglycerol (DAG) increase at fertilisation. An early increase in InsP3 occurs as the sperm-induced calcium transient crosses the egg and exocytosis occurs; a later increase in InsP3 as calcium declines and the protein kinase C-dependent Na/H antiporter causes the cytoplasmic pH in increase. These results support suggestions that a calcium-induced hydrolysis of phosphatidylinositol bisphosphate occurs at fertilisation, that the production of diacylglycerol may be essential for exocytosis and that diacylglycerol production at fertilisation stimulates the Na/H antiporter. The increase in [3H]inositol polyphosphate as calcium declines indicates that this second messenger may have some function later in the cell cycle.
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PMID:Two phases of inositol polyphosphate and diacylglycerol production at fertilisation. 308 Mar 33

Parathyroid hormone (PTH) and parathyroid hormone-related peptide (PTHRP) regulate Na+/H+ exchanger activity in osteoblastic cells, although the signaling components involved are not precisely defined. Since these peptide hormones can stimulate production of diverse second messengers (i.e. cAMP and diacylglycerol) that activate protein kinase A (PKA) and protein kinase C (PKC) in target cells, it is conceivable that either one or both of these pathways can participate in modulating exchanger activity. To discriminate among these possibilities, a series of synthetic PTH and PTHRP fragments were used that stimulate adenylate cyclase and/or PKC. In the osteoblastic cell line UMR-106, human PTH(1-34) and PTHRP(1-34) augmented adenylate cyclase activity, whereas PTH(3-34), PTH(28-42), and PTH(28-48) had no effect. Nevertheless, all these peptide fragments were found to enhance PKC translocation from the cytosol to the membrane in a dose-dependent (10(-11) to 10(-7) M) manner. PTHRP(1-16), a biologically inert fragment, was incapable of influencing either the PKA or PKC pathway. PTH(1-34) and PTHRP(1-34), but not PTH(3-34), PTH(28-42), PTH(28-48), or PTHRP(1-16), elevated Na+/H+ exchanger activity, implicating cAMP as the transducing signal. In accordance with this observation, forskolin (10 microM), which directly stimulates adenylate cyclase, also activated Na+/H+ exchanger activity. The involvement of PKA was verified when the highly specific PKA inhibitor, H-89, completely abolished the stimulatory effect of PTH(1-34) and forskolin on Na+/H+ exchange. In addition, Northern blot analysis revealed the presence of only the NHE-1 isoform of the Na+/H+ exchanger in UMR-106 cells. In summary, these results indicated that PTH and PTHRP activate the Na+/H+ exchanger NHE-1 isoform in osteoblastic UMR-106 cells exclusively via a cAMP-dependent pathway.
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PMID:Parathyroid hormone and parathyroid hormone-related peptide activate the Na+/H+ exchanger NHE-1 isoform in osteoblastic cells (UMR-106) via a cAMP-dependent pathway. 755 63

This review focuses on studies from our laboratory investigating the mechanisms of chronic regulation of the Na/H antiporter in renal and nonrenal cells. Tissue culture provides an ideal tool for investigating this problem because it avoids many complicating effects that would occur in an intact animal during a chronic study. Chronic decreases in extracellular fluid pH cause an increase in Na/H antiporter activity that is dependent on protein synthesis and associated with an increase in NHE-1 (isoform of the sodium-hydrogen antiporter) mRNA abundance. This effect is associated with acid-induced increases in a number of immediate early genes, including c-fos, c-jun, junB, and egr-1. In primary cultures of rabbit proximal tubule cells, activation of protein kinase C for 2 hours causes an increase in Na/H antiporter activity that persists 24 hours later, is dependent on transcription and translation, and is associated with an increase in NHE-1 mRNA abundance. Chronic activation of protein kinase A in opossum kidney (OKP) cells causes an increase in Na/H antiporter activity that persists 16 to 20 hours later and is dependent on protein synthesis. This latter effect is of particular interest because it is opposite in direction to the acute inhibitory effect of protein kinase A on the Na/H antiporter in these cells.
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PMID:Chronic regulation of the Na/H antiporter. 839 72

To examine the mechanisms by which endothelin (ET) regulates the Na/H antiporter isoform, NHE-3, OKP cells were stably transfected with ET(A) and ET(B) receptor cDNA. In cells overexpressing ET(B), but not ET(A) receptors, ET-1 increased Na/H antiporter activity (JNa/H). This effect was inhibited by a nonselective endothelin receptor blocker and by a selective ET(B) receptor blocker but was not inhibited by an ET(A) selective receptor blocker. In ET(B)-overexpressing cells, 10(-8) M ET-1 inhibited adenylyl cyclase, but protein kinase A inhibition and pertussis toxin pretreatment did not affect Na/H antiporter activation by ET-1. ET-1 caused a transient increase in cell [Ca2+], followed by a sustained increase. Increases in cell [Ca2+] were partially inhibited by pertussis toxin. ET-1-induced increases in J(Na/H) were 50% inhibited by clamping cell [Ca2+] low with BAPTA, and by KN62, a Ca-calmodulin kinase inhibitor. Inhibitors of protein kinase C, cyclooxygenase, lipoxygenase, and cytochrome P450 and cyclic GMP were without effect. In ET(A)-overexpressing cells, ET-1 increased cell [Ca2+] but did not increase JNa/H. In summary, binding of ET-1 to ET(B) receptors increases Na/H antiporter activity in OKP cells, an effect mediated in part by increases in cell [Ca2+] and Ca-calmodulin kinase. Increases in cell [Ca2+] are not sufficient for Na/H antiporter activation.
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PMID:Endothelin(B) receptor activates NHE-3 by a Ca2+-dependent pathway in OKP cells. 861 78

Low concentrations of angiotensin II (Ang II) increase, whereas high concentrations inhibit the apical Na/H antiporter activity in the proximal tubule, but the respective roles of the different signaling pathways in mediating these effects remains unsettled. We studied the effects of both low and high doses of Ang II in the presence of selective signaling pathway inhibitors, on the apical Na/H antiport activity of rat proximal tubule. Experiments were carried out in intact cells of freshly prepared tubule fragments obtained from the outer third of cortex, that is, devoid of basolateral Na/H antiport activity in the absence of bicarbonate transport and H(+)-ATPase activity. In tubules acid-loaded by an NH4Cl prepulse, Na/H antiport activity was assessed by the initial rate of intracellular pH recovery (dpHi/dt), measured with BCECF. When tubules were preincubated with low dose Ang II (10(-11) M for 3 min), dpHi/dt increased by 25 +/- 8%, whereas incubation with high dose Ang II (10(-7) M for 3 min) decreased dpHi/dt by 30 +/- 4%, compared to control (P < 0.01 in both cases). Both effects were abolished in the presence of 2.10(-3) M amiloride. Low dose Ang II-induced increase in dpHi/dt was not affected by preincubation with a specific PKA inhibitor, Rp-CPT-cAMP 10(-4) M, and was completely abolished by preincubation with PKC inhibitors, staurosporine 10(-7) M, sphingosine 5.10(-6) M, or calphostin 10(-6) M. In addition, pretreatment of rats with pertussis toxin led to a partial inhibition of the effect of low dose Ang II. The high dose-Ang II-induced decrease in dpHi/dt was not affected by pretreatment with a calcium-calmodulin kinase inhibitor W-7 10(-4) M. Conversely, pretreatment with the cytochrome P-450 inhibitor econazole 10(-5) M reversed the inhibitory effect of high dose Ang II to a stimulatory effect (24 +/- 8%, P < 0.01), quantitatively similar to the effect of low dose Ang II. In addition, arachidonate was found to exert an econazole-sensitive dose-dependent inhibitory effect on dpHi/dt, and 5,6-EET 10(-6) M, a cytochrome P-450 derived-arachidonic acid metabolite, induced a 38 +/- 9% inhibition, similar to that observed with high dose Ang II alone. There was no additive effect of 5,6-EET and high dose Ang II. Finally, pretreatment with two PLA2 inhibitors (BromoPhenacylBromide, 6.10(-6) M, and oleyloxyethyl phosphorylcholine, 5.10(-6) M) reversed the inhibitory effect of high dose Ang II to a stimulatory effect (32 +/- 11% and 25 +/- 11%, respectively, P < 0.05 for both inhibitors). We conclude that, in intact rat proximal cells, low dose Ang II stimulates the apical Na/H antiport through a pertussis toxin-sensitive G protein-dependent PKC pathway, whereas high dose Ang II inhibits the Na/H antiport activity through the PLA2- and cytochrome P-450-dependent metabolites of arachidonate.
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PMID:Signaling pathways in the biphasic effect of angiotensin II on apical Na/H antiport activity in proximal tubule. 891 15

Three endothelin (ET) isopeptides have been identified: ET-1, ET-2 and ET-3. These have two well-established gross effects on the cardiac myocyte. They affect the contractile properties and they stimulate myocyte growth and myofibrillogenesis. There may be other effects that are less fully characterized (e.g. increased resistance apoptosis). The changes in myocyte biology are brought about by modulation of intracellular signaling pathways. ET-1 binds to the ET(A) receptor on the cell surface and stimulates hydrolysis of phosphatidylinositol 4', 5'-bisphosphate to diacylglycerol and inositol 1', 4', 5'-trisphosphate. Diacylglycerol remains in the plane of the membrane and this causes translocation of the delta- and epsilon-isoforms of protein kinase C (PKC) to that compartment, an event thought to be indicative of PKC activation. The next events (probably associated with PKC activation) are the activation of the small G-protein Ras and of the extracellular signal-regulated kinase 1/2 (ERK1/2) cascade. Over a longer time course, two protein kinase cascades related to the ERK1/2 cascade, the c-Jun N-terminal kinase and p38-mitogen-activated protein kinase (p38-mitogen) cascades, also become activated. As the signals originating from the ET(A) receptor are transmitted through these protein kinase pathways, other signaling molecules become phosphorylated, thus changing their biological activity. Such molecules include nuclear transcription factors (e.g. GATA-4, c-Jun), protein kinases (e.g. 90-kDa ribosomal protein S6 kinase, MAPK-activated protein kinase 2), and ion exchangers/channels (e.g. the Na(+)/H(+) exchanger 1). These changes are responsible for the overall biological effects of ET isopeptides on the myocyte.
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PMID:An overview of endothelin signaling in the cardiac myocyte. 1287 73


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