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:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of the present study was to determine whether cobalt poisoning induces haem oxidase isoenzyme-1 (HO-1) in coronary artery smooth muscle, or accounts for any changes in coronary smooth muscle cell (SMCs) membrane ionic currents that could result from this type of heavy metal poisoning. In SMCs isolated from cobalt-treated guinea-pig coronaries, K+ channel currents (IK) were much smaller than those in cells isolated from non-treated animals. Haemin (HO substrate) increased IK concentration dependently. This effect was mimicked by 1% CO and was abolished by pretreatment of cells with a competitive HO inhibitor, by inhibitors of guanylyl cyclase, protein kinase G or phospholipase C, as well as by blocking inositol trisphosphate-dependent Ca release, or sarcoplasmic reticulum Ca-ATPase, or by bathing cells in Ca-free external solution. Expression of the Na/Ca exchanger-1 (NCX-1) protein was reduced substantially in SMCs from coronary arteries of cobalt-treated animals. No expression of HO-1 was detected. It is concluded that acute cobalt poisoning in vivo depresses Ca-sensitive K currents via CO-dependent modulation of intracellular calcium availability, most probably by suppressing the expression of NCX-1 protein.
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PMID:Calcium-dependent changes in potassium currents in guinea-pig coronary artery smooth muscle cells after acute cobalt loading in vivo. 1534 Aug 49

In this study, we identified ryanodine receptors (RyRs) as a component of a cytosolic Ca(2+) removal pathway in freshly isolated rabbit aortic endothelial cells. In an earlier article, we reported that the sarco(endo)plasmic reticulum Ca(2+)-ATPase (SERCA) and Na(+)/Ca(2+) exchanger (NCX) function in series to extrude cytosolic Ca(2+) to the extracellular space. Here we employed caffeine and ryanodine as modulators of RyR and showed that they act as the linkage between SERCA and NCX in removing Ca(2+) from the cytoplasm. Our data indicate that both 15 mM caffeine and 1 microM ryanodine facilitated Ca(2+) extrusion by activating RyRs while 100 microM ryanodine had the opposite effect by blocking RyRs. A further attempt to investigate RyR pharmacology revealed that in the absence of extracellular Ca(2+), ryanodine at 1 microM, but not 100 microM, stimulated Ca(2+) loss from the endoplasmic reticulum (ER). Blockade of RyR had no effect on the Ca(2+) removal rate when NCX had been previously blocked. In addition, the localization of RyR was determined using confocal microscopy of BODIPY TR-X fluorescent staining. Taken together, our findings suggest that in freshly isolated endothelial cells Ca(2+) is removed in part by transport through SERCA, RyR, and eventually NCX, and that RyR and NCX are in close functional proximity near the plasma membrane. After blockade of this component, Ca(2+) extrusion could be further inhibited by carboxyeosin, indicating a parallel contribution by the plasmalemmal Ca(2+)-ATPase (PMCA).
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PMID:Vectorial Ca2+ release via ryanodine receptors contributes to Ca2+ extrusion from freshly isolated rabbit aortic endothelial cells. 1545 26

We have previously reported that angiotensin II (Ang II) protects cortical neurons from chemical-induced hypoxia through activation of the angiotensin type 2 (AT(2)) receptor. Here, we show in mouse primary neuronal cultures that the AT(2) receptor neuroprotection results from the activation of the delayed rectifier K(+) channel as well as the involvement of the Na(+)/Ca(2+) exchanger (NCX) and Na(+)/K(+) ATPase (ATPase). Roles of the K(+) channel, NCX and ATPase were determined using the specific blockers alpha-dendrotoxin, KB-R7943 and ouabain, respectively. Sodium azide (10mM) induced apoptosis in 40% of neurons. Inhibition of the AT(1) receptor with losartan (1 microM) facilitated angiotensin II mediated neuroprotection by reducing sodium azide-induced apoptosis 61.8 +/- 5.6%, while inhibition of the AT(2) receptor with PD123319 (1 microM) showed no neuroprotection. These results suggest that angiotensin II neuroprotection is mediated through the AT(2) receptor and requires inhibition of the AT(1) receptor in order to facilitate its effect. To determine the roles of delayed rectifier K(+) channel, NCX and ATPase cultures were pretreated with alpha-dendrotoxin (10nM), KB-R7943 (100 nM) and ouabain (100 nM), which significantly attenuated AT(2) receptor mediated neuroprotection. These findings further suggest that the mechanism of AT(2) receptor mediated neuroprotection is coupled to activation of the delayed rectifier K(+) channel, NCX and ATPase.
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PMID:Angiotensin type 2 receptor neuroprotection against chemical hypoxia is dependent on the delayed rectifier K+ channel, Na+/Ca2+ exchanger and Na+/K+ ATPase in primary cortical cultures. 1548 93

Alteration of intracellular Ca(2+) homeostasis in failing cardiomyocytes is associated with changes in regulatory proteins located in the sarcoplasmic reticulum (SR) and sarcolemma, which participate in Ca(2+) fluxes across the membrane during the cardiac cycle. These regulatory proteins include Ca(2+)-ATPase (SERCA 2A), phospholamban (PLB), ryanodine-sensitive Ca(2+) release channels (RR), and the sarcolemmal Na(+)-Ca(2+) exchanger (NCX). Although their status is known in failed myocardium, it is poorly understood during the progression of heart failure (HF), particularly in large animals. We studied the left ventricular (LV) myocardium of six dogs with moderate HF and six with severe HF produced by multiple intracoronary microembolizations, compared with six normal dogs (NL). Oxalate-dependent SR Ca(2+) uptake and expression of SERCA 2A, PLB, phosphorylated PLB at serine 16 (PLB-Ser) and threonine 17 (PLB-Thr), RR, and NCX were determined. Percent LV ejection fraction declined by 47% compared with NL (34.1% +/- 1% vs 64% +/- 2%) in dogs with moderate HF (HF-2W) 2 weeks after the last embolization and by 42% (20.5% +/- 1% vs 34.1% +/- 1%) in dogs with severe HF (HF-4M) at 4 months compared with HF-2W. Left ventricular pressure during isovolumic contraction (+dP/dt, mmHg/s) and relaxation (-dP/dt, mmHg/s) was significantly reduced in severe compared with moderate HF. Oxalate-dependent SR Ca(2+) uptake (nmol (45)Ca(2+) accumulated/min per milligram noncollagen protein) declined by 25% (21.3 +/- 1 vs 28.5 +/- 2) in HF-2W and 49% in HF-4M. Protein expression of SERCA 2A and PLB decreased by 67% and 35%, respectively, in HF-2W compared with NL, whereas SERCA 2A expression increased by 167% and PLB decreased by 40% in HF-4M compared with HF-2W. However, SERCA 2A protein was still significantly lower in HF-4M compared with NL. PLB-Ser and PLB-Thr increased significantly in HF-2W but decreased in HF-4M compared with NL. Similar changes in mRNA encoding PLB and SERCA 2A were observed in dogs with moderate and severe HF. The RR protein level declined in dogs with moderate and severe HF, whereas NCX protein did not change with moderate HF but increased with sever HF. These results suggest that the regulatory proteins responsible for Ca(2+) uptake, Ca(2+) release, and Na(+)-Ca(2+) exchange are critically associated with the deterioration of LV function during the progression of HF.
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PMID:Reduced sarcoplasmic reticulum Ca2+ uptake and increased Na+-Ca2+ exchanger expression in left ventricle myocardium of dogs with progression of heart failure. 1570 Jan 99

The Na(+)-Ca(2+) exchanger (NCX) is involved in regulation of intracellular Ca(2+) concentration. A specific inhibitor of NCX has been required for clarification of the physiological and pathological roles of NCX. We have developed 2-[4-[(2,5-difluorophenyl)methoxy]phenoxy]-5-ethoxyaniline (SEA0400), a highly potent and selective inhibitor of NCX. SEA0400 in the concentration range that inhibits NCX exhibits negligible affinities for the Ca(2+) channels, Na(+) channels, K(+) channels, noradrenaline transporter, and 14 receptors; and it does not affect the activities of the store-operated Ca(2+) channel, Na(+)-H(+) exchanger, and several enzymes including Na(+),K(+)-ATPase and Ca(2+)-ATPase. Furthermore, recent studies show that SEA0400 attenuates ischemia-reperfusion injury in the brain, heart, and kidney and radiofrequency lesion-induced edema in rat brain. These findings suggest that NCX plays a key role in ischemia-reperfusion injury and may be a target molecule for treatment of reperfusion injury-related diseases.
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PMID:Functional proteins involved in regulation of intracellular Ca(2+) for drug development: pharmacology of SEA0400, a specific inhibitor of the Na(+)-Ca(2+) exchanger. 1576 45

The Na(+)/Ca(2+) exchanger (NCX) on the plasma membrane is thought to be the main calcium extrusion system from the cytosol to the extracellular space in many mammalian excitable cells including cardiac myocytes. However, the precise roles of NCX are still unclear because of lack of its specific inhibitors. We generated NCX1-deficient mice by gene targeting to determine the in vivo function of the exchanger. Homozygous mutant died at 9.5 days post coitum. Embryonic hearts did not beat and cardiac myocytes showed apoptosis. These results suggest that NCX1 is required for heart beats and survival of cardiac myocytes in embryos. Heterozygous mutant mice were viable and indistinguishable from wild type mice. mRNA and protein levels in the heart of heterozygous mutant were half as much as wild type mice. In response to pressure overload, mutant mice showed better systolic and diastolic relaxation functions than wild type mice. Intracellular Ca(2+) measurement revealed an increase in calcium content of cytoplasm and sarcoplasmic reticulum (SR) and RNA analysis revealed preserved SR Ca(2+) ATPase expression in the ventricle of mutant mice. These results suggest that NCX plays an important role in cardiac performance in these pathological situations.
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PMID:[Analysis of Na+/Ca2+ exchanger knockout mice]. 1577 78

Human studies reveal sex differences in myocardial function as well as in the incidence and manifestation of heart disease. Myocellular Ca(2+) cycling regulates normal contractile function; whereas cardiac dysfunction in heart failure has been associated with alterations in Ca(2+)-handling proteins. Beta-adrenergic receptor (beta-AR) signaling regulates activity of several Ca(2+)-handling proteins and alterations in beta-AR signaling are associated with heart disease. This study examines sex differences in expression of beta(1)-AR, beta(2)-AR, and Ca(2+)-handling proteins including: L-type calcium channel (Ca(v)1.2) , ryanodine calcium-release channels (RyR), sarcoplasmic reticular Ca(2+) ATPase (SERCA2), phospholamban (PLB) and Na(+)-Ca(2+) exchange protein (NCX) in healthy hearts from male and female Sprague-Dawley rats. Protein levels were examined using Western blot analysis. Abundance of mRNA was determined by real time RT-PCR normalized to abundance of GAPDH mRNA. Contraction parameters were measured in right ventricular papillary muscle in the presence and absence of isoproterenol. Results demonstrate that female ventricle has significantly higher levels of Ca(v)1.2, RyR, and NCX protein compared to males. Messenger RNA abundance for RyR, and NCX protein was significantly higher in females whereas Ca(v)1.2 mRNA was higher in males. No differences were detected in beta-ARs, SERCA2 or PLB. Female right papillary muscle had a faster maximal rate of force development and decline (+/- dF/dt). There were no sex differences in response to isoproterenol. Results show significant sex differences in expression of key ventricular Ca(2+)-handling proteins that are associated with small functional differences in +/- dF/dt. Further studies will determine whether differences in the abundance of these key proteins play a role in sex disparities in the incidence and manifestation of heart disease.
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PMID:Sex differences in expression of calcium-handling proteins and beta-adrenergic receptors in rat heart ventricle. 1579 39

In the mouse, genetic reduction in the Na(+), K(+)-ATPase alpha1 or alpha2 isoforms results in different functional phenotypes: heterozygous alpha2 isolated hearts are hypercontractile, whereas heterozygous alpha1 hearts are hypocontractile. We examined Na(+)/Ca(2+) exchange (NCX) currents in voltage clamped myocytes (pipette [Na(+)]=15 mM) induced by abrupt removal of extracellular Na(+). In wild-type (WT) myocytes, peak exchanger currents were 0.59+/-0.04 pA/pF (mean+/-S.E.M., n=10). In alpha1(+/-) myocytes (alpha2 isoform increased by 54%), NCX current was reduced to 0.33+/-0.05 (n=9, P<0.001) indicating a lower subsarcolemmal [Na(+)]. In alpha2(+/-) myocytes (alpha2 isoform reduced by 54%), the NCX current was increased to 0.89+/-0.11 (n=8, P=0.03). The peak sarcolemmal Na(+) pump currents activated by abrupt increase in [K(+)](o) to 4 mM in voltage clamped myocytes in which the Na(+) pump had been completely inhibited for 5 min by exposure to 0 [K(+)](o) were similar in alpha1(+/-) (0.86+/-0.12, n=10) and alpha2(+/-) myocytes (0.94+/-0.08 pA/pF, n=16), and were slightly but insignificantly reduced relative to WT (1.03+/-0.05, n=24). The fluo-3 [Ca(2+)](i) transient (F/F(o)) in WT myocytes paced at 0.5 Hz was 2.18+/-0.09, n=34, was increased in alpha2(+/-) myocytes (F/F(o)=2.56+/-0.14, n=24, P=0.02), and was decreased in alpha1(+/-) myocytes (F/F(o)=1.93+/-0.08, n=28, P<0.05). Thus the alpha2 isoform rather than the alpha1 appears to influence Na(+)/Ca(2+) exchanger currents [Ca(2+)](i) transients, and contractility. This finding is consistent with the proposal that alpha2 isoform of the Na pump preferentially alters [Na(+)] in a subsarcolemmal micro-domain adjacent to Na(+)/Ca(2+) exchanger molecules and SR Ca(2+) release sites.
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PMID:Relative abundance of alpha2 Na(+) pump isoform influences Na(+)-Ca(2+) exchanger currents and Ca(2+) transients in mouse ventricular myocytes. 1590 30

We hypothesized that activation of heat shock protein 70 (HSP70) by preconditioning, which is known to confer delayed cardioprotection, attenuates the impaired handling of Ca(2+) at multiple sites. To test the hypothesis, we determined how the ryanodine receptor (RyR), sarco(endo)plasmic reticulum Ca(2+)-ATPase (SERCA), and Na(+)/Ca(2+) exchanger (NCX) handled Ca(2+) in rat ventricular myocytes preconditioned with a kappa-opioid receptor agonist, U50488H (UP), followed by blockade of HSP70 with a selective antisense oligonucleotide and subsequently subjected to simulated ischemia. We determined the following: 1) the Ca(2+) transients induced by electrical stimulation and caffeine, which provide the overall picture of Ca(2+) homeostasis; 2) expression of RyR, SERCA, and NCX; and 3) Ca(2+) fluxes via NCX by the use of (45)Ca(2+) in the rat ventricular myocyte. We found that UP increased the activity of RyR, SERCA, and NCX and the expression of RyR and SERCA. These effects led to increases in the release of Ca(2+) from the sarcoplasmic reticulum via RyR and in the removal of Ca(2+) from the cytoplasm by reuptake of Ca(2+) to the SR via SERCA and by extrusion of Ca(2+) out of the cell via NCX. UP also reduced mitochondrial Ca(2+) accumulation. All of the effects of UP were either abolished or significantly attenuated by blockade of HSP70 synthesis with a selective antisense oligonucleotide. The results are evidence that activation of HSP70 by preconditioning improves the ischemia-impaired Ca(2+) homeostasis at multiple sites in the heart, which may be responsible, at least partly, for attenuated Ca(2+) overload, improved recovery in contractile function, and cardioprotection.
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PMID:Further study on the role of HSP70 on Ca2+ homeostasis in rat ventricular myocytes subjected to simulated ischemia. 1620 97

The effect of S100A1 protein on cardiac excitation-contraction (E-C) coupling was studied using recombinant human S100A1 protein (0.01-10 microM) introduced into single rabbit ventricular cardiomyocytes via a patch pipette. Voltage clamp experiments (20 degrees C) indicated that 0.1 microM S100A1 increased Ca(2+) transient amplitude by approximately 41% but higher or lower S100A1 concentrations had no significant effect. L-type Ca(2+) current amplitude or Ca(2+) efflux rates via the Na(+)/Ca(2+) exchanger (NCX) were unaffected. The rate of Ca(2+) uptake associated with the SR Ca(2+)-ATPase (SERCA2a) was increased by approximately 22% with 0.1 microM S100A1, but not at other S100A1 concentrations. Based on the intracellular Ca(2+) and I(NCX) signals in response to 10 mM caffeine, no significant change in SR Ca(2+) content was observed with S100A1 (0.01-10 microM). Therefore, 0.1 microM S100A1 appeared to increase the fractional Ca(2+) release from the SR. This result was confirmed by measurements of Ca(2+) transient amplitude at a range of SR Ca(2+) contents. The hyperbolic relationship between these two parameters was shifted to the left by 0.1 microM S100A1. [(3)H]-ryanodine binding studies indicated that S100A1 increased ryanodine receptor (RyR) activity at 0.1 and 0.3 microM Ca(2). As with the effects on E-C coupling, 0.1 microM S100A1 produced the largest effect. Co-immunoprecipitation studies on a range of Ca(2+)-handling proteins support the selective interaction of S100A1 on SERCA2a and RyR. In summary, S100A1 had a stimulatory action on RyR2 and SERCA2a in rabbit cardiomyocytes. Under the conditions of this study, the net effect of this dual action is to enhance the Ca(2+) transient amplitude without significantly affecting the SR Ca(2+) content.
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PMID:S100A1 increases the gain of excitation-contraction coupling in isolated rabbit ventricular cardiomyocytes. 1623 9


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