EC:2.7.11.13 - FACTA Search

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)

Regulatory and stimulatory mechanisms of H2O2 release from guinea pig tracheal epithelial cells were investigated. Cells in primary culture maintained in a previously described air-liquid interface system released H2O2 to the extracellular space only from the apical side of the cells. The rate of release was 0.044 +/- 0.003 nmol.min-1.mg protein-1. H2O2 release could be stimulated significantly during a 30-min incubation period with phorbol myristate acetate (PMA) and platelet-activating factor (PAF). A stimulatory effect of PAF was achieved at concentrations greater than 100 nM and with PMA at concentrations greater than 10 ng (16 nM). When protein kinase C was inactivated with staurosporine, the responses to both PAF and PMA were abolished, whereas the cyclooxygenase inhibitor, indomethacin, did not affect H2O2 generation. When guinea pig tracheal epithelial cells were exposed to sublethal concentrations of extracellular H2O2 (30 microM), H2O2 was detoxified from both apical and basal sides, H2O2 removal being significantly more rapid from the apical side of the cells. These results suggest that tracheal epithelial cells can be stimulated to generate reactive oxygen species into the airway lumen and that this occurs in response to inflammatory mediators that act through protein kinase C. Luminal H2O2 release may have developed as a defense mechanism against microbes, and, similarly, luminal detoxification of H2O2 could represent an important mechanism of modulation of airway inflammation in response to oxidant stress.
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PMID:Release of reactive oxygen species by guinea pig tracheal epithelial cells in vitro. 161 55

Our previous studies have shown that angiotensin II (Ang II) has a dose-dependent biphasic effect on bicarbonate and sodium transport and 4-beta-phorbol-12-myristate-13-acetate can simulate the stimulatory effect of Ang II on Na+/H+ exchange in the proximal convoluted tubules (PCT) of the rat kidney. This study was designed to further investigate the possible role of phosphoinositide turnover in mediating the biphasic effect of Ang II. Rat PCT was perfused in vivo with Ringer's solution containing [3H]inulin as a volume marker. Bicarbonate flux (JHCO3) was determined by total CO2 changes between the collected fluid and the original perfusate as analyzed by microcalorimetry. Luminal perfusion with 10(-11) M Ang II or 10(-8) M 4-beta-phorbol-12-myristate-13-acetate stimulated both fluid reabsorption (JV) and JHCO3, these effects can be blocked by 2 x 10(-4) M 8-(N,N-diethylamino)-octyl-3,4,5-trimethoxybenzoate (TMB-8), a blocker of intracellular calcium mobilization. Interestingly, Ang II at 10(-9) M or 2 x 10(-4) M TMB-8 have no effect on JV or JHCO3 individually. However, JV and JHCO3 significantly decreased when PCT were perfused simultaneously with 10(-9) M Ang II and 10(-4) M 1-(5-isoquinolinesulfonyl)-2-methylpiperazine; whereas JV and JHCO3 significantly increased when PCT were perfused with 10(-9) M Ang II and 2 x 10(-4) M TMB-8 together. These results suggest that PKC and intracellular calcium play a critical role in mediating the biphasic effect of Ang II on bicarbonate and sodium transport in PCT.
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PMID:The role of phosphoinositide turnover in mediating the biphasic effect of angiotensin II on renal tubular transport. 184 21

Using in vivo microperfusion in the proximal convoluted tubule (PCT) of the Munich-Wistar rat, we assessed the impact of raising intracellular calcium concentration on bicarbonate transport and its regulation by angiotensin II. Luminal perfusion with the calcium ionophore A23187 caused a dose-dependent increase in S1 PCT bicarbonate absorption, with a maximal change of 60 peq.mm-1.min-1. Subsequent addition of phorbol ester (PMA) after A23187 further increased transport but to a level no higher than previously shown with PMA alone, and A23187 was nonstimulatory when added after PMA. These results suggest that intracellular calcium affects the same pathway as protein kinase C in stimulating proximal acidification. Pretreatment with A23187 (+/- PMA) attenuated by approximately one-third the bicarbonate absorptive response in the S1 PCT usually observed after angiotensin II administration. A23187 had similar actions, but of smaller magnitude, in the S2 PCT. In conclusion, a rise in intracellular calcium increases bicarbonate absorption in the S1 and S2 PCT in vivo.
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PMID:Effects of intracellular calcium on proximal bicarbonate absorption. 211 25

Activation of protein kinase C has been shown to cause both stimulation and inhibition of transport processes in the brush-border membrane and renal tubule. This study was designed to examine the dose-response nature and time-dependent effect of 4 beta-phorbol-12-myristate-13-acetate (PMA) on the rates of bicarbonate absorption (JHCO3) and fluid absorption (Jv) in the proximal convoluted tubule (PCT) of rat kidney. Bicarbonate flux was determined by total CO2 changes between the collected fluid and the original perfusate as analyzed by microcalorimetry. Luminal perfusion of PMA (10(-10) approximately 10(-5) M) within 10 min caused a significant increase of JHCO3 and Jv. A peaked curve of the dose response was observed with maximal effect at 10(-8) M PMA on both bicarbonate and fluid reabsorption, which could be blocked completely by amiloride (10(3) M) and EIPA (10(-5) M). On the other hand, with an increase of perfusion time beyond 15 min. PMA (10(-8) and 10(-6) M) could inhibit JHCO3 and Jv. Amiloride (10(-3) M) or EIPA (10(-5) M) significantly inhibits JHCO3 and Jv, while there is no additive effect of PMA and amiloride or EIPA on PCT transport. An inactive phorbol-ester, 4 alpha-phorbol, that does not activate protein kinase C, had no effects on JHCO3 and Jv. Capillary perfusion of PMA (10(-8) M) significantly stimulate both JHCO3 and Jv; however, PMA did not affect glucose transport from either the luminal side or basolateral side of the PCT. These results indicate that activation of endogenous protein kinase C by PMA could either stimulate or inhibit both bicarbonate and fluid reabsorption in the PCT dependent on time and dose, and these effects are through the modulation of Na+/H+ exchange mechanism.
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PMID:Time- and dose-dependent effects of protein kinase C on proximal bicarbonate transport. 212 Apr 46

The activity of the calcium sensitive phospholipid dependent protein kinase C (PKC) was studied in cytosol and in the proximal tubular luminal membrane of rats during growth. Cytosolic activity was elevated at 14 and 21 days of age and fell to adult levels by day 60. Luminal brush border membrane activity on the other hand was low on day 14 but reached adult levels by day 21. Changes in brush border membrane PKC activity may have important consequences for the development of electrolyte transport in proximal tubular cells.
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PMID:Activity of calcium/phospholipid dependent protein kinase during rat kidney development. 318 4

Angiotensin II is a key element in regulating the volume of extracellular liquid. It acts indirectly through aldosterone secretion by adrenals and directly on the renal tubule too: It regulates luminal Na+/H+ antiporters (NHE3 and possibly NHE2) after binding to membrane AT1 receptors located both on the basolateral and on the apical side of the cells. The main site of Ang II action is proximal tubule, mainly the S1 segment which has a high level of AT1 receptors. Circulating Ang II concentrations (10(-12) to 10(-10) M), increased NaCl, water and NaHCO3 reabsorption via NHE3 in the proximal tubule. There is also a synthesis of Ang II within the cells of proximal tubule, which is secreted within the lumen where the physiological concentration is stable 10(-8) M, i.e. 100 to 1000 times higher than the circulating concentration. Luminal ANG II originating from kidney has a physiological autocrine function on NaCl, water and probably NaHCO3 reabsorption, since inhibiting Ang II synthesis, by conversion enzyme inhibition, or effect, by AT1 receptor antagonists, induces a reduction of proximal tubule reabsorption. The stimulatory effects of circulating and intrarenal Ang II seem to be explained by protein kinase C stimulation and possibly by a reduction of cAMP production or by a stimulation of a non-receptor tyrosine kinase. When pharmacological doses of Ang II (> 10(-8) M) are applied in the peritubular or the luminal medium of isolated microperfused proximal tubule in vitro, a paradoxical inhibition of NHE3 was observed. These effects appear to involve arachidonic acid metabolites through the cytochrome P450 pathway and possibly a rise in cytosolic free Ca++. The physiological significance of these supraphysiological effects are unknown.
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PMID:[Effect of angiotensin ii on Na+/H+ exchangers of the renal tubule]. 985 78

Insofar as neutral endopeptidase inhibition has afforded evidence for a tubular luminal action of atrial natriuretic peptide (ANP), the present study was undertaken to investigate a possible effect of the peptide on chloride reabsorption (JCl) in thick ascending limb (TAL). Luminal addition of ANP to in vitro microperfused cortical TAL (CTAL) significantly decreased JCl with a threshold and a maximum concentration of 10(-12) M and 10(-9) M, respectively. A similar effect of 10(-9) M ANP was observed in medullary TAL (MTAL). The effect of luminal ANP was significantly reduced by HS-142-1, a specific inhibitor of guanylyl cyclase receptor, and by H-8, a protein kinase G inhibitor, but was not affected by the protein kinase C inhibitor bisindolylmaleimide I. Unexpectedly, the effect of ANP was not additive with that of endothelin (ET), a peptide that was previously shown to decrease JCl in TAL through a calcium-independent, protein kinase C-mediated pathway. Indeed, ET-1 (10(-8) M in the lumen) significantly decreased JCl and prevented a further effect of ANP on the same tubule. Similarly, the decrease of JCl induced by simultaneous addition of ET and ANP was not higher than that obtained with each agent alone. Conversely, the inhibitory effect of ANP was enhanced in the presence of cyclic guanosine monophosphate (cGMP; 10(-6) M in the lumen). ET-1 significantly attenuated the ANP-stimulated generation of cGMP in microdissected CTAL and failed to prevent a further decrease of JCl promoted by a permeant cGMP analogue. It is concluded that luminal ANP decreased Cl reabsorption in mouse CTAL and MTAL. This effect was abrogated by ET-1 as a result of the inhibition of ANP-stimulated cGMP generation.
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PMID:Effect of luminal atrial natriuretic peptide on chloride reabsorption in mouse cortical thick ascending limb: inhibition by endothelin. 1100 8

Purinergic stimulation of airway epithelial cells induces Cl- secretion and modulates Na+ absorption by an unknown mechanism. To gain insight into this mechanism, we used a perfused micro-Ussing chamber to assess transepithelial voltage (V(te)) and amiloride-sensitive short-circuit current (I(sc-Amil)) in mouse trachea. Exposure to apical ATP or UTP (each 100 micromol/l) caused a large initial increase in lumen negative V(te) and I(sc), corresponding to a transient Cl- secretion, while basolateral application of ATP/UTP induced only a small secretory response. Luminal, but not basolateral, application of nucleotides was followed by a sustained and reversible inhibition of I(sc-Amil) that was independent of extracellular Ca2+ or activation of protein kinase C and was not induced by carbachol (100 micromol/l) or the Ca2+ ionophore ionomycin (1 micromol/l). Removal of extracellular Cl- or exposure to 200 microM DIDS reduced UTP-mediated inhibition of I(sc-Amil) substantially. The phospholipase inhibitor U73122 (10 micromol/l) and pertussis toxin (PTX; 200 ng/ml) both attenuated UTP-induced Cl- secretion and inhibition of I(sc-Amil). Taken together, these data imply a contribution of Cl- conductance and PTX-sensitive G proteins to nucleotide-dependent inhibition of the amiloride-sensitive Na+ current in the mouse trachea.
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PMID:Mechanisms for the inhibition of amiloride-sensitive Na+ absorption by extracellular nucleotides in mouse trachea. 1197 35

The ATP-driven xenobiotic transporter P-glycoprotein is a critical element of the blood-brain barrier. To study regulation of P-glycoprotein function, we measured specific transport [(3'-oxo-4-butenyl-4-methyl-threonine(1), (valine(2)) cyclosporin (PSC833)-sensitive] of the fluorescent cyclosporin A derivative [N-epsilon(4-nitrobenzofurazan-7-yl)-D-Lys(8)]-cyclosporin A (NBDL-CSA) into the lumens of isolated rat brain capillaries using confocal microscopy and quantitative image analysis. Luminal NBDL-CSA accumulation was rapidly and reversibly reduced in a concentration-dependent manner by 0.1 to 100 nM endothelin-1 (ET-1). In this concentration range, ET-1 did not affect junctional permeability. The ET(B) receptor agonist sarafotoxin 6c also reduced transport. An ET(B) receptor antagonist blocked effects of ET-1 and sarafotoxin 6c; an ET(A) receptor antagonist was without effect. Consistent with this, immunostaining and Western blotting showed expression of the ET(B) receptor in brain capillary membranes. NBDL-CSA transport was also reduced by sodium nitroprusside, a NO donor, and by phorbol ester, a protein kinase C (PKC) activator. Inhibition of NO synthase (NOS) or PKC abolished the ET-1 effects. Thus, ET-1, acting through an ET(B) receptor, NOS, and PKC rapidly and reversibly reduced transport mediated by P-glycoprotein at the blood-brain barrier.
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PMID:Rapid regulation of P-glycoprotein at the blood-brain barrier by endothelin-1. 1532 29

The effect of leptin on glucose transport was studied in rat jejunal mucosa in Ussing chambers. Leptin was added in the luminal or the serosal compartment before the tissues were challenged with 1, 10, or 50 mmol/l glucose. In response to 10 mmol/l glucose, the increase in short-circuit current (DeltaIsc) reached 26.8 +/- 2.1 microA/cm(2). Luminal addition of leptin dramatically decreased glucose-induced Isc (90.5% for 10 nmol/l leptin). Inhibition was maximal after 5 min and dose dependent (IC(50) = 0.13 nM). Western blot analysis showed that rapid inhibition of glucose-induced Isc by leptin was associated with a parallel decrease in the abundance of sodium-glucose transporter-1 in brush border membranes. Inhibition by luminal leptin of DeltaIsc was prevented by inhibitor of conventional protein kinase C isoforms. Serosal addition of leptin did not decrease glucose-induced Isc within 5 min and reached maximum after 10 min. The effect of leptin from serosal side was blocked by cholecystokinin (CCK) receptor-2 receptor antagonist YM022. Altogether, these data demonstrate that luminal leptin induces rapid inhibition of glucose entry into enterocyte. The slower action of leptin on the serosal side of mucosa seems indirect and is likely mediated by endogenous CCK. They demonstrate that gut leptin is a major regulator of rapid intestinal glucose transport.
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PMID:Luminal leptin induces rapid inhibition of active intestinal absorption of glucose mediated by sodium-glucose cotransporter 1. 1567 91

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