EC:3.6.1.3 - FACTA Search

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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)

This study examined the hypothesis that certain immunoglobulin light chains directly altered mesangial cell calcium homeostasis. Intracellular Ca2+ concentration (intracellular [Ca2+]) signaling was determined in suspensions of rat mesangial cells using the acetoxymethyl ester of fura 2 with a calcium removal/replacement protocol. Pretreatment of cultured rat mesangial cells with a glomerulopathic kappa-light chain (gle) produced reversible dose- and time-dependent attenuation of ATP- and thrombin-evoked [Ca2+] transients (189 +/- 24 vs. 126 +/- 10 nM, P < 0.05 with ATP; 198 +/- 5 vs. 117 +/- 3 nM, P < 0.05 with thrombin) and capacitative calcium influx (199 +/- 14 vs. 142 +/- 17 nM, P < 0.05 for ATP; 252 +/- 19 vs. 198 +/- 18 nM, P < 0.05 for thrombin). Mesangial cells treated with gle and supplemented with myo-inositol (450 microM) did not demonstrate the attenuation of the ATP-evoked [Ca2+] transient and capacitative calcium influx. Gle also decreased mean [Ca2+] transient (80 +/- 7 vs. 56 +/- 1 nM, P < 0.05) and capacitative calcium influx (306 +/- 10 vs. 241 +/- 4 nM, P < 0.05) in response to thapsigargin, a Ca2+-adenosinetriphosphatase inhibitor. This inhibition was not reversed by exogenous myo-inositol. Another kappa-light chain (10 microg/ml) did not affect mesangial cell calcium signaling. Deranged mesangial cell calcium homeostasis by certain light chains may play a central pathogenetic role in glomerulosclerosis associated with deposition of immunoglobulin light chains.
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PMID:Immunoglobulin light chain alters mesangial cell calcium homeostasis. 908 74

The treatment of LDL with bee-venom phospholipase A2 resulted in the formation of lipid-protein particles (phl-LDL) with an increased content of lysophosphatidylcholine (LPC). At the same time, the composition of other lipids and the protein structure remained unaffected. phl-LDL, as well as LPC, abolished the hormone-induced [Ca2+] increase in platelets and platelet aggregation induced by PAF, AMP and thrombin, whereas LDL produced no effect on the hormone-stimulated increase in the intracellular [Ca2+]. The effect persisted in a Ca(2+)-free medium, indicating that phl-LDL and LPC did not abolish the mobilization of intracellular stores with the above-mentioned inducers. Neither LPC no phl-LDL affected the [Ca2+]i level in platelets and suppressed the platelet aggregation evoked by tapsigargine, a specific inhibitor of endoplasmic reticulum Ca(2+)-ATPase, or by phorbol myristate acetate. The inhibitory effect depended on the LPC concentration and the time of platelet incubation with phl-LDL or LPC. The half-maximum efficient LPC concentrations were identical for LPC and phl-LDL (2-4 microM). The inhibitory effect was dependent on the LPC structure: lysophosphatidylethanolamine and phosphatidylcholine displayed no inhibitory effect. The results suggest that when added to washed platelets, free LPC and phl-LDL inhibit only the receptor-dependent increase of [Ca2+]i.
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PMID:Effect of lysophosphatidylcholine on the structure and function of low density lipoproteins. 922 56

Spontaneously hypertensive rats (SHR) are known to be blood pressure sensitive to dietary calcium. The effects of dietary calcium on platelet aggregation and intracellular Ca2+ mobilization were assessed by turbidimetric methods and fura-2 methods, respectively, in washed platelets of SHR. Ca2+ ATPase activity was examined in aortic membrane fractions. Six weeks of dietary calcium supplementation attenuated the increase of systolic blood pressure (SBP 199 +/- 16 v 170 +/- 9 mm Hg, P < .001) and thrombin-induced platelet aggregation (84.5 +/- 3.7 v 73.7 +/- 7.4%, P < .004) at 9 weeks of age. The ionomycin-induced intracellular calcium ([Ca2+]i) peak in the absence of external Ca2+, which reflects [Ca2+]i storage size, and thrombin-evoked [Ca2+]i release from [Ca2+]i storage were decreased by 2.0% Ca diet (472 +/- 55 v 370 +/- 23 nmol/L, P < .001, 339 +/- 29 v 278 +/- 33 nmol/L, P < .002). In addition, SBP was positively correlated with platelet aggregation (r = 0.703, P = .0088), thrombin-evoked [Ca2+]i (r = 0.739, P = .0044), and ionomycin-induced [Ca2+]i (r = 0.591, P = .0415), respectively. However, there was no significant effect of dietary calcium on Ca2+-ATPase activity in aortic membranes. These results suggest that dietary calcium supplementation had a beneficial effect on platelets of SHR by attenuating [Ca2+]i mobilization from [Ca2+]i storage. The hypotensive effect of dietary calcium might be associated with attenuated [Ca2+]i mobilization in SHR.
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PMID:Dietary calcium attenuates platelet aggregation and intracellular Ca2+ mobilization in spontaneously hypertensive rats. 937 Mar 89

A modified platelet response to aggregating stimuli is supposed to play a role in the pathogenesis of diabetic macroangiopathy. We studied the fluidity and microheterogeneity of the external surface of the platelet membrane and the activities of the plasma membrane Na+-K+-ATPase and Ca2+-ATPase in 21 men with type 1 diabetes and in 20 control subjects before and after in vitro thrombin addition. In the resting state, platelets from type 1 diabetic patients showed an increased fluidity and microheterogeneity of the platelet membrane, a higher Ca2+-ATPase activity, and a reduced Na+-K+-ATPase activity in comparison with platelets from healthy subjects. The fatty acid composition was also modified, with increased C 16:1 and decreased C 18:0 content. Control cells incubated with thrombin showed a modification of the membrane parameters opposite to the response observed in type 1 cells after the stimulation. The incubation of control platelets in the resting state with high concentrations of glucose modified the fluidity of the plasma membrane Na+-K+-ATPase and Ca2+-ATPase activities in an opposite way in comparison with the alterations observed in type 1 platelets. This study suggests that in type 1 diabetic patients, the platelet membrane responds to activation with a molecular remodeling different from the response of healthy subjects. The abnormal organization of the membrane might contribute to the altered platelet functions in type 1 diabetic patients, but acute exposure to high glucose levels does not seem able to modify the platelet membrane in the way observed in type 1 diabetes.
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PMID:Altered platelet membrane dynamic properties in type 1 diabetes. 939 98

Ticks are ectoparasites that cause considerable damage to their hosts while feeding. The feeding process is facilitated by anti-haemostatic factors present in the tick saliva. Apyrase (ATP diphosphohydrolase, EC 3.6.1.5) is a platelet aggregation inhibitor found in most haematophagous organisms studied. The present study describes the identification and characterization of such an activity in the tick Ornithodoros savignyi. The enzyme conformed to many properties common to apyrases. These included a low substrate specificity, dependence on bivalent metal ions for activity and insensitivity to the classical ATPase inhibitors. Heat denaturation studies, pH optima and similar effects of inhibitors on the enzyme's ATP and ADP hydrolysing activitives supported its classification as an apyrase. Salivary gland extracts inhibited the platelet aggregation induced by ADP, collagen and thrombin and disaggregated aggregated platelets. The results suggest the presence of two or more anti-platelet factors present in the salivary glands of this tick species.
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PMID:Apyrase activity and platelet aggregation inhibitors in the tick Ornithodoros savignyi (Acari: Argasidae). 965 96

Selective protein degradation is an energy-dependent process performed by high-molecular-weight proteases. The activity of proteolytic components of these enzymes is coupled to the ATPase activity of their regulatory subunits or domains. Here, we obtained the proteolytic domain of Escherichia coli protease Lon by cloning the corresponding fragment of the lon gene in pGEX-KG, expression of the hybrid protein, and isolation of the proteolytic domain after hydrolysis of the hybrid protein with thrombin. The isolated proteolytic domain exhibited almost no activity toward protein substrates (casein) but hydrolyzed peptide substrates (melittin), thereby confirming the importance of the ATPase component for protein hydrolysis. Protease Lon and its proteolytic domain differed in the efficiency and specificity of melittin hydrolysis.
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PMID:The isolated proteolytic domain of Escherichia coli ATP-dependent protease Lon exhibits the peptidase activity. 972 Sep 20

Many membrane proteins that belong to the ATP-binding cassette (ABC) superfamily are clinically important, including the cystic fibrosis transmembrane conductance regulator, the sulphonylurea receptor and P-glycoprotein (multidrug resistance gene product; MDR1). These proteins contain two multispanning transmembrane domains, each followed by one nucleotide-binding domain (NBD) and a linker region distal to the first NBD. ATP hydrolysis by the NBDs is critical for ABC protein function; the linker region seems to have a regulatory role. Previous attempts to express soluble NBDs and/or linker regions without detergent solubilization, or to purify NBDs at high yields as soluble fusion proteins, have been unsuccessful. Here we present a system for the expression in Escherichia coli of the first NBD of MDR1 followed by its linker region (NBD1MLD). A comparison of the expressions of NBD1MLD fused to glutathione S-transferase, thioredoxin and maltose-binding protein (MBP) shows that a high level of expression in the soluble fraction (approx. 8% of total E. coli protein) can be achieved only for MBP-NBD1MLD. The addition of a proteolytic thrombin site just proximal to the N-terminal end of NBD1MLD allows the cleavage of NBD1MLD from MBP, which can be easily purified with retention of its ATPase activity. In summary, success was obtained only when using an MBP fusion protein vector containing a thrombin proteolytic site between MBP and NBD1MLD. The approach described here could be generally applicable to solving the problems of expression and purification of NBDs/linker regions of ABC proteins.
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PMID:Expression and purification of the first nucleotide-binding domain and linker region of human multidrug resistance gene product: comparison of fusions to glutathione S-transferase, thioredoxin and maltose-binding protein. 993 1

The actin-based cytoskeleton of endothelial cells plays an important role in regulating cell function. Both thrombin and phorbol 12-myristate 13-acetate (PMA) (an activator of protein kinase C; PKC) cause rearrangement of actin and increased permeability of endothelial monolayers. Conversely, thrombin, but not PMA, induces phosphorylation of myosin light chains (MLC), a process considered essential for cellular contraction. We, therefore, decided to investigate which signaling pathways are involved in thrombin-induced actin reorganization in pulmonary artery endothelial cells. Thrombin induced a rapid and transient increase in cytoskeletal actin that paralleled MLC phosphorylation. Antagonism of the Ca(2+)-binding protein, calmodulix (CaM), or inhibition of the CaM-dependent MLC kinase (MLCK) abolished the elevation in cytoskeletal actin whereas inhibition of PKC did not. In contrast, PMA decreased cytoskeleton-associated actin without affecting phosphorylation of MLC. A23187, a Ca(2+)- ionophore, or thapsigargin, an inhibitor of endoplasmic Ca(2+)-ATPase, either in the presence or absence of PMA, did not increase cytoskeletal actin. Therefore, increased intracellular Ca2+, even with concurrent activation of PKC, is insufficient for redistribution of actin to the cytoskeleton, indicating that thrombin recruits yet another signaling pathway. Both thrombin and PMA caused extensive rearrangement of filamentous actin with a disappearance of the dense peripheral band and an increase in stress fibers, but each agent induced a distinct morphology. Thrombin-induced rearrangement of actin filaments was attenuated by inhibitors of either PKC or MLCK. These data suggest that both PKC- and MLCK-dependent pathways are involved in thrombin-induced endothelial cell actin rearrangement, but that recruitment of actin to the cytoskeleton is not necessary for this rearrangement. Recruitment of actin and myosin to the cytoskeleton does not require PKC but does involve MLCK-catalyzed phosphorylation of MLC.
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PMID:Signaling pathways in thrombin-induced actin reorganization in pulmonary artery endothelial cells. 1002 77

Proliferation, differentiation, and survival of erythroid progenitor cells are mainly regulated by stem cell factor (SCF) and erythropoietin (Epo). Using normal human progenitors, we analyzed the role of Ca2+-sensitive protein kinase C (PKC) subtypes and of G-protein-coupled receptor ligands on growth factor-dependent DNA synthesis. We show that stimulation of DNA synthesis by the two growth factors requires activation of PKCalpha. Inhibitors of Ca2+-activated PKC subtypes blocked the growth factor-induced 3H-thymidine incorporation. SCF and Epo caused no significant translocation of PKCalpha into the membrane, but treatment of intact cells with either of the two cytokines resulted in enhanced activity of immunoprecipitated cytosolic PKCalpha. Stimulation of PKC with the phorbol ester PMA mimicked the cytokine effect on DNA synthesis. Epo-, SCF-, and PMA-induced thymidine incorporation was potently inhibited by thrombin (half-maximal inhibition with 0.1 U/mL). This effect was mediated via the G-protein-coupled thrombin receptor and the Rho guanosine triphosphatase. Adenosine diphosphate caused a modest Ca2+-dependent stimulation of DNA synthesis in the absence of cytokines and specifically enhanced the effect of SCF. Cyclic 3', 5'-adenosine monophosphate exerted a selective inhibitory effect on Epo-stimulated thymidine incorporation. Our results define PKCalpha as major intermediate effector of cytokine signaling and suggest a role for thrombin in controlling erythroid progenitor proliferation.
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PMID:Erythropoietin- and stem cell factor-induced DNA synthesis in normal human erythroid progenitor cells requires activation of protein kinase Calpha and is strongly inhibited by thrombin. 1038 4

The cardiac sarcolemmal Na+/H+ exchanger (NHE) extrudes one H+ in exchange for one Na+ entering the myocyte, utilizing for its driving force the inwardly directed Na+ gradient that is maintained by the Na+/K+ ATPase. The exchanger is quiescent at physiological values of intracellular pH but becomes activated in response to intracellular acidosis. Recent evidence suggests that a variety of extracellular signals (e.g., adrenergic agonists, thrombin, and endothelin) also modulate sarcolemmal NHE activity by altering its sensitivity to intracellular H+. Since sarcolemmal NHE activity is believed to be an important determinant of the extent of myocardial injury during ischemia and reperfusion, regulation of exchanger activity by endogenous ligands associated with ischemia is likely to be of pathophysiological importance.
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PMID:Regulation of cardiac sarcolemmal Na+/H+ exchanger activity by endogenous ligands. Relevance to ischemia. 1041 45

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