Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0406810 (NAME)
 13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It is controversial whether nitric oxide (NO) is protective or deleterious against ischemia-reperfusion injury. We examined the effect of NO on PKC isoform translocation and protection against ischemia-reperfusion injury in perfused heart. An NO synthase inhibitor L-NAME (NG-nitro-L-arginine methyl ester, 3.0 microM), administered only during reperfusion but not during ischemia, inhibited the translocation of PKC-alpha, -delta and -epsilon isoforms to the nucleus-myofibril fraction and the translocation of PKC-alpha to the membrane fraction after ischemia (20 min) and reperfusion (10 min) in the perfused rat heart. NO donors, 3-morpholinosydnonimine (SIN-1) or S-nitroso-N-acetylpenicillamine (SNAP) activated purified PKC in vitro. SIN-1 also induced PKC isoform translocation in perfused heart. On the other hand, PKC selective inhibitor, calphostin C (0.2 microM) or chelerythrine (1.0 microM), aggravated the contractile dysfunction of ischemic heart during reperfusion, when they were perfused during reperfusion. These data suggest that NO generated during reperfusion following ischemia activates PKC isoforms and may protect the heart against contractile dysfunction in the perfused rat heart.
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PMID:Nitric oxide mediates protein kinase C isoform translocation in rat heart during postischemic reperfusion. 1003 21

Induction of nitric oxide synthase (NOS2, also designated as iNOS) in the heart is known to occur in response to various stimuli. It is not known, however, whether in vivo hypoxia leads to cardiac NOS2 induction. We thus investigated the effects of normobaric hypoxia (10% O(2)for 8, 15 and 21 days) on NOS2 protein expression and enzyme activity in rat right ventricle (RV) and left ventricle (LV). Chronic hypoxia induced RV hypertrophy: the RV weight to body weight ratio was increased by 45% upon 15 days of exposure, with no change thereafter and no change in left ventricular (LV) weight. Treatment of hypoxic rats with l -NAME for 1 month decreased pulmonary artery pressure and RV hypertrophy compared to hypoxic non-treated rats. NOS2 activity detected by [(3)H]l -arginine to [(3)H]l -citrulline conversion increased in RV during hypoxia, with a maximum at 15 days (+161% of control rats P<0.05), whereas it increased less (by 60%) in LV. In parallel, after 15 days of hypoxia there was a three-fold increase in NOS2 protein abundance detected by Western blotting using an isoform-specific antibody in the RVs (two-fold increase in the LV). Immunochemistry with the specific antibody demonstrated the expression in cardiomyocytes isolated from both ventricles of normoxic and hypoxic rats. Protein kinase C (PKC) content and activity was unchanged in LV of hypoxic rats, but increased in RV as compared with normoxic rats. These results clearly show that, in the heart, NOS2 is upregulated by hypoxia with an expression in cardiomyocytes of both ventricles. In addition, NOS2 is more inducible in the right hypertrophied ventricle than in the left non-hypertrophied hypoxic ventricle.
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PMID:Induction of cardiac nitric oxide synthase 2 in rats exposed to chronic hypoxia. 1047 53

Endothelin-1 (ET-1) is a hypertensive peptide, which is expressed in the rat adrenal gland, where it stimulates aldosterone secretion from zona glomerulosa (ZG) by activating the ETb receptor subtype. A higher effectiveness of ET-1 has been frequently observed when the integrity of adrenal tissue is preserved. Hence, we compared the aldosterone secretagogue action of ET-1 on dispersed rat ZG cells and capsule-ZG strips. ET-1 concentration-dependently raised aldosterone output by both preparations with similar potency. However, the efficacy of the maximal effective concentration of ET-1 (10-8 M) was about 2.7-fold higher in capsule-ZG strips. The ETb-receptor antagonist BQ-788 (10-7 M) abolished aldosterone response to 10-8 M ET-1 in both ZG preparations, while the ETa receptor antagonist BQ-123 was ineffective. The aldosterone secretagogue action of 10-8 M ET-1 on dispersed ZG cells was concentration-dependently suppressed by the protein kinase (PK) inhibitor calphostin-C. Conversely, both calphostin-C and the nitric oxide (NO) synthase (NOS) inhibitor NG-nitro-L-arginine methyl ester (L-NAME) evoked a concentration-dependent partial reversal of the aldosterone response to 10-8 M ET-1 of capsule-ZG strips. The NO donor L-arginine enhanced basal aldosterone yield of capsular strips, but not dispersed ZG cells. The PKA, cyclooxygenase and lipoxygenase inhibitors H-89, indomethacin and phenidone, as well as the beta-adrenoceptor antagonist l-alprenolol, were ineffective. Collectively, these findings allow us to conclude that in the rat i) the ETb receptor-mediated PKC activation is the main signaling mechanism involved in the direct stimulatory effect of ET-1 on ZG cells; and ii) the higher responsiveness of capsular strips to ET-1 may be accounted for by the ETb receptor-mediated release by stromal elements of NO, which in turn increases aldosterone secretion from ZG cells in a paracrine manner.
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PMID:Comparison of the signaling mechanisms involved in the ETB receptor-mediated secretagogue action of endothelin-1 on dispersed zona glomerulosa cells and capsule-zona glomerulosa preparations of the rat adrenal gland. 1060 72

Ammonia is a neurotoxin whose administration in large doses causes coma and death of the exposed animals, but whether and in what degree these whole body effects are related to the death of CNS cells is not known. Since the downstream effects of ammonia in cultured CNS cells appear to be partly mediated by overactivation of several putative signalling mechanisms characteristic for the apoptotic program, we speculated that ammonia neurotoxicity may be apoptogenic. In this study, C6 glioma cells grown in 2% serum were exposed to 5 mM or 10 mM NH(4)Cl (ammonia) for 96 h and tested for the appearance of apoptosis by (a) Hoechst staining, (b) TUNEL reaction and (c) DNA ladder, at different times of exposure. In cultures exposed to either 5 mM or 10 mM ammonia, about 10% of the cells were found to enter apoptosis at 48 h of exposure, and the number of apoptotic cells rose to 30% at 72 h, and to 50% at 96 h of exposure, respectively. The first transduction signal purportedly involved in apoptosis, activation of PKCalphabeta, was transient and appeared already after 3-6 h of treatment. Coincident with pronounced manifestation of apoptosis (at 72 h and even more at 96 h of exposure) was an increased transfer of the transcription factor NFkappaB from cytoplasmto nucleus as revealed by EMSA assay. The number of cells affected by ammonia-induced apoptosis was markedly reduced by incubation with a NOS inhibitor, L-NAME at 100 microM concentration. The results indicate that ammonia-induced apoptosis is a result of a complex interplay of at least three signalling molecules: NO, PKC and the transcription factor NFkappaB, with NFkappaB being possibly involved in the induction of iNOS and generation of toxic levels of NO in the cells.
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PMID:Delayed induction of apoptosis by ammonia in C6 glioma cells. 1081 14

We have explored the regulatory roles played by Ca2+-dependent signaling on lipopolysaccharide (LPS)-induced nitric oxide (NO), prostaglandin E2 (PGE2), tumor necrosis factor alpha (TNF-alpha), and interleukin-6 (IL-6) release in mouse peritoneal macrophages. To elevate intracellular Ca2+, we used thapsigargin (TG) and UTP. Although LPS alone cannot stimulate NO synthesis, co-addition with TG, which sustainably increased [Ca2+]i, resulted in NO release. UTP, via acting on P2Y6 receptors, can stimulate phosphoinositide (PI) turnover and transient [Ca2+]i increase, however, it did not possess the NO priming effect. LPS alone triggered the release of PGE2, TNF-alpha, and IL-6; all of which were potentiated by the presence of TG, but not of UTP. The stimulatory effect of LPS plus TG on NO release was inhibited by the presence of Ro 31-8220, Go6976, KN-93, PD 098059, or SB 203580, and abolished by BAPTA/AM and nuclear factor kappaB (NF-kappaB) inhibitor, PDTC. PGE2, TNF-alpha, and IL-6 release by LPS alone were attenuated by Ro 31-8220, Go6976, PD 098059, SB 203580, and PDTC. Using L-NAME, soluble TNF-alpha receptor, IL-6 antibody, NS-398, and indomethacin, we performed experiments to understand the cross-regulation by the four mediators. The results revealed that TNF-alpha up-regulated NO, PGE2, and IL-6 synthesis; PGE2 up-regulated NO, but down-regulated TNF-alpha synthesis; and PGE2 and IL-6 mutually up-regulated reciprocally. Taken together, murine peritoneal macrophages required a sustained [Ca2+]i increase, which proceeds after TG, but not UTP, stimulation, to enhance LPS-mediated release of inflammatory mediators, particularly for NO induction. Activation of PKC-, ERK-, and p38 MAPK-dependent signaling also are essential for LPS action. The positive regulatory interactions among these mediators might amplify the inflammatory response caused by endotoxin.
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PMID:Involvement of protein kinases in the potentiation of lipopolysaccharide-induced inflammatory mediator formation by thapsigargin in peritoneal macrophages. 1127 79

An arteriograph was used to assess myogenic tone, smooth muscle contractility and the influence of endothelial function on mesenteric resistance artery reactivity in insulin-resistant mice (C57BL/KsJ-db/db) and age- and gender-matched wild-type mice. Increases in transmural pressure induced myogenic tone in arteries from both control and db/db mice. At 12 and 16 weeks of age, greater tone developed in diabetic than in control mice. In control, but not in db/db mice, pretreatment of arteries with L-NAME potentiated myogenic tone. Indomethacin and SQ29548 (PGH2/TXA2 receptor antagonist) had no efffect in control, but inhibited myogenic tone in db/db mice. Endothelium-dependent vasodilation induced by acetylcholine and bradykinin, was depressed in db/db mice and potentiated by SQ29548 and LY333531 (protein kinase C(beta) inhibitor). Messenger RNA expression levels for PKC(beta) were over-expressed 2.5-fold in db/db relative to those in control mice. However, expression levels of mRNA for eNOS, PKC(alpha), and PKC(xi) were similar in the db/db and control mice. Collectively, these results suggest that the greater myogenic tone in resistance arteries from diabetic mice may be attributable, to greater amounts of one or more vasoconstricting prostanoids. Our data indicate that in diabetic mice, basal and agonist-stimulated NO releases are depressed and NO-mediated vasorelaxation in these mice may be countered by an endogenous vasoconstrictive prostanoid. This prostanoid-induced vasoconstriction is mediated by a PKC(beta)-dependent mechanism. Therefore, heightened activation of PKC(beta) and release of a vasoconstrictor prostanoid could play a role in endothelial dysfunction associated with type II diabetes.
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PMID:Influence of type II diabetes on arterial tone and endothelial function in murine mesenteric resistance arteries. 1174 Jan 57

Melanosome movement represents a good model of cytoskeleton-mediated transport of organelles in eukaryotic cells. We recently observed that inhibiting nitric oxide synthase (NOS) with Nomega-nitro-L-arginine methyl ester (L-NAME) induced dispersion in melanophores pre-aggregated with melatonin. Activation of cyclic adenosine 3',5'-monophosphate (cAMP)-dependent protein kinase (PKA) or calcium-dependent protein kinase (PKC) is known to cause dispersion. Also, PKC and NO have been shown to regulate the mitogen/extracellular signal-regulated kinase (MEK)-ERK pathway. Accordingly, our objective was to further characterize the signaling pathway of L-NAME-induced dispersion. We found that the dispersion was decreased by staurosporine and PD98059, which respectively inhibit PKC and MEK, but not by the PKA inhibitor H89. Furthermore, Western blotting revealed that ERK1 kinase was phosphorylated in L-NAME-dispersed melanophores. L-NAME also caused dispersion in latrunculin-B-treated cells, suggesting that this effect is not due to inhibition of the melatonin signaling pathway. Summarizing, we observed that PKC and MEK inhibitors decreased the L-NAME-induced dispersion, which caused phosphorylation of ERK1. Our results also suggest that NO is a negative regulator of phosphorylations that leads to organelle transport.
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PMID:L-NAME-induced dispersion of melanosomes in melanophores activates PKC, MEK and ERK1. 1177 57

Two mechanisms are proposed to account for the inhibition of myosin phosphatase (MP) involved in Ca2+ sensitization of vascular muscle, ie, phosphorylation of either MYPT1, a target subunit of MP or CPI-17, an inhibitory phosphoprotein. In cultured vascular aorta smooth muscle cells (VSMCs), stimulation with angiotensin II activated RhoA, and this was blocked by pretreatment with 8-bromo-cGMP. VSMCs stimulated by angiotensin II, endothelin-1, or U-46619 significantly increased the phosphorylation levels of both MYPT1 (at Thr696) and CPI-17 (at Thr38). The angiotensin II-induced phosphorylation of MYPT1 was completely blocked by 8-bromo-cGMP or Y-27632 (a Rho-kinase inhibitor), but not by GF109203X (a PKC inhibitor). In contrast, phosphorylation of CPI-17 was inhibited only by GF109203X. Y-27632 dramatically corrected the hypertension in N(omega)-nitro-L-arginine methyl ester (L-NAME)-treated rats, and this hypertension also was sensitive to isosorbide mononitrate. The level of the active form of RhoA was significantly higher in aortas from L-NAME-treated rats. Expression of RhoA, Rho-kinase, MYPT1, CPI-17, and myosin light chain kinase were not significantly different in aortas from L-NAME-treated and control rats. Activation of RhoA without changes in levels of other signaling molecules were observed in three other rat models of hypertension, ie, stroke-prone spontaneously hypertensive rats, renal hypertensive rats, and DOCA-salt rats. These results suggest that independent of the cause of hypertension, a common point in downstream signaling and a critical component of hypertension is activation of RhoA and subsequent activation of Rho-kinase.
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PMID:Activation of RhoA and inhibition of myosin phosphatase as important components in hypertension in vascular smooth muscle. 1260 Aug 88

Carperitide, a synthetic alpha-human atrial natriuretic peptide (ANP) is a newly developed drug for the treatment of heart failure. However, effects of carperitide on susceptibility to ischemia reperfusion injury are left to be determined. Isolated rat hearts were subjected to Langendorff perfusion. Six hearts received 0.1 microM of carperitide for 10 min, 6 hearts received 1 mM of a NO synthetase inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME) for 5 min before the infusion of carperitide, 6 hearts received 0.02 microM of a PKC synthetase inhibitor chelerythrine chloride for 5 min before the infusion of carperitide, 6 hearts received 100 microM of a selective mitochondrial ATP-sensitive potassium (KATP) channel blocker 5-dehydroxydecanoate (5HD) before the infusion of carperitide, 6 hearts received 10 microM of a soluble guanylate cyclase inhibitor methylene blue for 5 min before the infusion of carperitide, and 6 hearts served as a control with no drug infusion. All hearts were then subjected to 20 min of global ischemia followed by 120 min of reperfusion. Left ventricular pressures and coronary flow were measured throughout the experiment and infarct size was detected at the end of experiment. Both plasma and tissue cGMP levels were also determined. The results showed: (1) Carperitide significantly reduced infarct size compared to control (26.1 +/- 2.8 vs. 42.7 +/- 2.3%, carperitide vs. control, p < 0.05). This effect was reversed by L-NAME, chelerythrine and 5HD, but not methylene blue. (2) Plasma cGMP levels were increased in carperitide-treated group. This effect was reversed by L-NAME (0.16 +/- 0.03 vs. 1.04 +/- 0.09* vs. 0.28 +/- 0.02 nmol/L, control vs. carperitide vs. L-NAME, *p < 0.01 vs. control). We conclude that preischemic infusion of carperitide exerts cardioprotective effects possibly through NO-PKC dependent pathway followed by mitochondrial KATP channel activation.
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PMID:Preischemic infusion of alpha-human atrial natriuretic peptide elicits myoprotective effects against ischemia reperfusion in isolated rat hearts. 1287 Jun 70

The vasomotor properties of isolated aortae and mesenteric arteries of insulin-resistant ob/ob and 57CBL/6J mice were compared in organ bath studies. Vessels from ob/ob mice were more sensitive to phenylephrine. Pretreatment with L-NAME caused similar leftward shifts of the phenylephrine concentration response curves in diabetic and non-diabetic vessels. The ob/ob aortae contracted in response to phenylephrine with roughly twice the force while they were not stiffer than control aortae. L-NAME caused a greater percentage increase in maximal force in the control than in the ob/ob tissue. Denudation potentiated force in the control aortae, but not in the ob/ob aortae. Endothelium-dependent relaxation in the ob/ob aortae and mesenteric arteries was impaired as manifested by a decreased sensitivity and maximal relaxation to acetylcholine, while the aortic basal eNOS mRNA levels did not differ between the two strains. In addition, ob/ob aortae were less sensitive to the nitric oxide donor sodium nitroprusside. Inhibition of endogenous prostaglandin synthesis with indomethacin (10 microM) partly normalized the contractile response of the ob/ob aortae and enhanced their endothelium-dependent relaxation. Neither blockade of endothelin-1 receptors (bosentan, 10 microM) nor PKC inhibition (calphostin, 1 microM) affected the contractile response to phenylephrine in the mouse aortae of either strain. In conclusion, vascular dysfunction in the aorta and mesenteric artery of ob/ob mice are due to increased smooth muscle contractility and impaired dilation but not to changes in elasticity of the vascular wall. Endothelium-produced prostaglandins contribute to the increased vasoconstriction.
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PMID:Augmented contractile response of vascular smooth muscle in a diabetic mouse model. 1464 72


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