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)

1. Ca2+ buffering function of sarcoplasmic reticulum (SR) in the resting state of arteries from spontaneously hypertensive rats (SHR) was examined. Differences in the effects of cyclopiazonic acid (CPA) and thapsigargin, agents which inhibit the Ca(2+)-ATPase of SR, on tension and cellular Ca2+ level were assessed in endothelium-denuded strips of femoral arteries from 13-week-old SHR and normotensive Wistar-Kyoto rats (WKY). 2. In resting strips preloaded with fura-PE3, the addition of CPA (10 microM) or thapsigargin (100 nM) caused an elevation of cytosolic Ca2+ level ([Ca2+]i) and a contraction. These responses were significantly greater in SHR than in WKY. 3. The additional of verapamil (3 microM) to the resting strips caused a decrease in resting [Ca2+]i, which was significantly greater in SHR than in WKY. In SHR, but not in WKY, this decrease was accompanied by a relaxation from the resting tone, suggesting the maintenance of myogenic tone in the SHR artery. 4. Verapamil (3 microM) abolished differences between SHR and WKY. The effects of verapamil were much greater on the contraction than on the [Ca2+]i. 5. The resting of Ca2+ influx in arteries measured after a 5 min incubation of the artery with 45Ca was not increased by CPA or thapsigargin in either SHR or WKY. The net Ca2+ entry measured after a 30 min incubation of the artery with 45Ca was decreased by CPA or thapsigargin in both SHR and WKY. The resting Ca2+ influx was significantly higher in SHR than in WKY, and was decreased by nifedipine (100 nM) in the SHR artery, but was unchanged in the WKY artery. 6. The resting 45Ca efflux from the artery was increased during the addition of CPA (10 microM). This increase was less in SHR than in WKY. The resting 45Ca efflux was the same in SHR and WKY. 7. These results suggest that (1) the Ca2+ influx via L-type voltage-dependent Ca2+ channels (VDCCs) was increased in the resting state of the SHR femoral artery, (2) the greater part of the increased Ca2+ influx was buffered by Ca2+ uptake into the SR and some Ca2+ reached the myofilaments resulting in the maintenance of the myogenic tone, and (3) therefore the functional elimination of SR by CPA or thapsigargin caused a large elevation of [Ca2+]i and a potent contraction in this artery. During this process, the contraction was mainly due to the basal Ca2+ influx via L-type VDCCs. The present study also showed the existence of a relatively large compartment of [Ca2+]i which does not contribute to the contraction during the addition of CPA or thapsigargin.
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PMID:Potent vasoconstrictor actions of cyclopiazonic acid and thapsigargin on femoral arteries from spontaneously hypertensive rats. 911

1. The interaction of the indolizin sulfone SR33557 with the multidrug resistance P-glycoprotein (P-gp), was used to explore the nature of drug binding site(s) on this transporter. The steady-state accumulation of [3H]-vinblastine in P-gp expressing CHrB30 cells was increased by SR33557 with greater potency than verapamil. Furthermore, SR33557 potentiated the affinity of verapamil to modulate vinblastine transport when added simultaneously. 2. Verapamil elicited a 1.5 to 2.5 fold stimulation of basal ATPase activity in CHrB30 membranes, whereas SR33557 and vinblastine inhibited activity, but only at relatively high concentrations. However, SR33557 and vinblastine decreased the Vmax but not the Km for verapamil stimulation of ATPase activity. This is indicative of a non-competitive interaction, most likely at distinct sites. 3. The specific [3H]-vinblastine binding to P-gp in CHrB30 cell membranes was displaced by SR33557 with an IC50 of 8.3 +/- 4.5 nM. Moreover, SR33557 caused a 3 fold increase in the dissociation rate of vinblastine binding to P-gp indicating a negative allosteric effect on the vinca alkaloid acceptor site. 4. These results demonstrate that SR33557 interacts with a site on P-gp which is distinct from, but allosterically linked to the vinca alkaloid site. The apparent broad substrate specificity displayed by P-gp may be explained by a multiple drug binding site model.
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PMID:The multi-drug resistance reversal agent SR33557 and modulation of vinca alkaloid binding to P-glycoprotein by an allosteric interaction. 937 75

The purpose of this study was to test whether the elevated intracellular Ca++ level ([Ca++]i) resulting from store-operated Ca++ entry was associated with vascular smooth muscle contraction. Cyclopiazonic acid (CPA), a selective inhibitor of sarcoplasmic reticulum Ca(++)-ATPase, concentration-dependently (1-10 microM) elevated [Ca++]i in rat aorta, as indicated by an increase in the fura-2 340/380 ratio. Simultaneous measurement of contraction demonstrated that 1 and 10 microM CPA induced insignificant and variable amounts of contraction, respectively. Verapamil (10 microM) had relatively little effect on the 1 and 10 microM CPA-elevated [Ca++]i. In contrast, Ni++ (0.1 mM), in the presence of verapamil, abolished the 1 microM CPA-elevated [Ca++]i. Ni++ (0.1 mM) also partially decreased the 10 microM CPA-elevated [Ca++]i and, furthermore, abolished the associated contraction. A higher Ni++ concentration (1 mM) abolished the 10 microM CPA-elevated [Ca++]i that remained after verapamil and 0.1 mM Ni++. Phorbol dibutyrate (10 nM), a protein kinase C activator, potentiated contractions to 1 and 10 microM CPA in the presence of verapamil. Ni++ (0.1 mM) abolished the enhanced contractions, and decreased the elevated [Ca++]i. These results suggest that 1) elevated [Ca++]i due to store-operated Ca++ entry is dissociated from contraction; 2) the elevated [Ca++]i is restricted to at least two noncontractile compartments that can be differentiated by their relative sensitivities to blockade by low (0.1 mM) and higher (1 mM) Ni++ concentrations, and 3) [Ca++]i elevation within the compartment sensitive to blockade by 0.1 mM Ni++ can be coupled to contraction via protein kinase C activation.
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PMID:Coupling of store-operated Ca++ entry to contraction in rat aorta. 958 Jun 24

We examined the effects of riluzole, a neuroprotective drug, on voltage-dependent Na channels, nicotinic receptors, and voltage-dependent Ca channels, as well as catecholamine secretion, in comparison with those of verapamil and nicardipine, in primary cultures of bovine adrenal chromaffin cells. Riluzole inhibited veratridine-induced 22Na influx via voltage-dependent Na channels even in the presence of ouabain, an inhibitor of Na,K-ATPase. Blockade of Na channels by riluzole was concentration-dependent with an IC50 of 5.3 microM. It was associated with a similar concentration-related reduction of veratridine-induced 45Ca influx via voltage-dependent Ca channels, and of catecholamine secretion. Riluzole had no effect on 45Ca influx caused by high K, which directly activates voltage-dependent Ca channels, and on nicotine-induced 22Na influx, which passes through the nicotinic receptors. Verapamil and nicardipine attenuated 22Na influx caused by veratridine or nicotine at the same concentrations as they suppressed high K-induced 45Ca influx. The inhibitory effect of riluzole on veratridine-induced 22Na influx disappeared at high concentrations of veratridine. A potentiation of veratridine (site 2 toxin)-induced 22Na influx caused by alpha-scorpion venom (site 3 toxin), beta-scorpion venom (site 4 toxin), or brevetoxin PbTx-3 (site 5 toxin), occurred in the presence of riluzole in the same manner as in control cells. These results suggest that riluzole binds to the veratridine site in voltage-dependent Na channels. It does not impair the cooperative interaction between the functional peptide segments of Na channels, but selectively inhibits gating of Na channels, thereby reducing Ca influx via Ca channels and catecholamine secretion. In contrast, verapamil and nicardipine suppress Na influx both Na channels and nicotinic receptors.
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PMID:Selective inhibition by riluzole of voltage-dependent sodium channels and catecholamine secretion in adrenal chromaffin cells. 965 Aug 5

1. In the present study, we investigated the roles of Na+-K+-ATPase and extracellular Na+ or Ca2+ ions in ultraviolet (UV) light-induced photorelaxation of methacholine-contracted mouse isolated gastric fundus in the presence of NaNO2 (50 microM). 2. Ouabain (1-500 microM), sodium vanadate (10 microM to 3 mM) and amiloride (1-100 microM) completely inhibited the photorelaxation in a concentration-dependent manner. 3. Metabolic inhibitors, sodium azide (10-100 microM), 2,4-dinitrophenol (100 microM to 1 mM) and sodium fluoride (100 microM to 1 mM) significantly reduced photorelaxation. 4. Substitution of sucrose, lithium or KCl with extracellular Na+ completely abolished the photorelaxant responses. 5. Replacement of all extracellular CaCl2 with BaCl2 also completely inhibited UV-induced relaxation. 6. Verapamil (1-10 microM) decreased UV-induced relaxation significantly. 7. These results suggest that nitric oxide produced from NaNO2 by UV-light in mouse gastric fundus probably stimulates Na+-K+-ATPase activity, and photorelaxation of gastric smooth muscle is dependent on extracellular Na+ and Ca2+ ions.
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PMID:Possible stimulation of Na+-K+-ATPase by NO produced from sodium nitrite by ultraviolet light in mouse gastric fundal strip. 988 69

The activity of the voltage-operated Ca2+ channels (VOC channels) and store-operated Ca(2+)-channels (SOC channels) was studied on rat pheochromatocytomic cells PC-12 by using the fluorescence calcium dye Fura-2. The VOC channels were transferred in their open state by depolarizing the plasma membranes of the cells through addition of high KCl concentrations (50 mM). The SOC channels were activated by treating the cells with tapsigargine, a special inhibitor of Ca2+ ATPase in the intracellular Ca2+ stores. Verapamil effectively inhibited the activity of the VOC channels (IC50 = 0.6 micron), but failed to affect the SOC channels. Arachidonic acid reduced the level of [Ca2+]-induced TG (200 nM) at a concentration of 3-10 microns). The movement of Ca2+ along the SOC channels was electrogenic. The depolarization of the plasma membrane of PC-12 cells caused no release of Ca(2+) from the intercellular Ca2+ stores. It is concluded that PC-12 cells are a suitable model to study the activity of different Ca2+ channels and search for chemical compounds that affect the potential-dependent and potential-independent Ca2+ channels.
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PMID:[Regulating activity of plasma membranous Ca2+ channels in PC-12 pheochromocytoma cells with chemicals and pharmaceutic agents]. 1022 25

Suramin, a known inhibitor of ATP binding enzymes with six negatively charged sulfonic acid groups, stimulated the ATPase activity of the multiple drug resistance transporter Mdr1 in low concentrations by acting as a substrate and by increasing the affinity for both verapamil and ATP. At higher concentrations suramin inhibited the ATPase activity competitively with respect to ATP and noncompetitively with respect to verapamil. This indicates an interaction of suramin with the ATP site. Verapamil itself activated the ATPase activity of Mdr1 only at moderate concentrations, but showed substrate inhibition at higher concentrations. This was also observed for progesterone, which decreased the Ki of Mdr1 for verapamil but increased the Km. Additionally, verapamil increased the Hill coefficient of Mdr1 for progesterone from 1.1 to 3.2. These results indicate the existence of multiple binding sites (at least four for progesterone) for transported substrate in Mdr1 and a complicated mode of interactions between them.
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PMID:Co-operative binding sites for transported substrates in the multiple drug resistance transporter Mdr1. 1049 Nov 58

The effect of estrogen on plasma membrane potential of isolated avian osteoclasts was examined through the use of a fluorescent potential-sensitive dye, bis-(1,3-dibutylbarbiturate) trimethine oxonol, also known as bis-oxonol. A decrease in potential was observed within seconds of addition of 17beta-estradiol. Ouabain, a specific Na+K+-ATPase inhibitor, and BaCl2, an inhibitor of the inwardly rectifying K+ channel, blocked the estrogen response. Verapamil and lanthanum chloride (LaCl3), inhibitors of inward Ca2+ channels, and 4'4-diisothiocyanatostilbene-2'2-disulfonic acid (DIDS), an inhibitor of Cl- channels, did not affect the depolarization. Herbimycin A, a tyrosine kinase inhibitor, also had no effect on the decreased membrane potential. These data provide evidence which suggests that estrogen regulates osteoclasts through ion channel activities. The change in K+ channel activity was observed within seconds of addition of 17beta-estradiol, indicating an action at the level of the plasma membrane.
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PMID:Depolarization of osteoclast plasma membrane potential by 17beta-estradiol. 1057 86

The maltose transporter FGK2 complex of Escherichia coli was purified with the aid of a glutathione S-transferase molecular tag. In contrast to the membrane-associated form of the complex, which requires liganded maltose binding protein (MBP) for ATPase activity, the purified detergent-soluble complex exhibited a very high level of ATPase activity. This uncoupled activity was not due to dissociation of the MalK ATPase subunit from the integral membrane protein MalF and MalG subunits. The detergent-soluble ATPase activity of the complex could be further stimulated by wild-type MBP but not by a signaling-defective mutant MBP. Wild-type MBP increased the V(max) of the ATPase 2.7-fold but had no effect on the K(m) of the enzyme for ATP. When the detergent-soluble complex was reconstituted in proteoliposomes, it returned to being dependent on MBP for activation of ATPase, consistent with the idea that the structural changes induced in the complex by detergent that result in activation of the ATPase are reversible. The uncoupled ATPase activity resembled the membrane-bound activity of the complex also with respect to sensitivity to NaN(3), as well as a mercurial, p-chloromercuribenzosulfonic acid. Verapamil, a compound that activates the ATPase activity of the multiple drug resistance P-glycoprotein, activated the maltose transporter ATPase as well. The activation of this bacterial transporter by verapamil suggests that a structural feature that is conserved among both eukaryotic and prokaryotic ATP binding cassette transporters is responsible for this activation.
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PMID:The detergent-soluble maltose transporter is activated by maltose binding protein and verapamil. 1064 25

In this study, we further characterize a mutant P-glycoprotein (P-gp) that has a deletion of Phe(335) and is resistant to inhibition by cyclosporins. Photoaffinity labeling with [(3)H]cyclosporine and [(3)H]azidopine revealed markedly decreased binding to the mutant P-gp compared with wild-type P-gp. Expression of the mutant P-gp in multidrug-resistant variant cell line MES-SA/DxP (DxP) cells was associated with a 2-fold higher basal ATPase activity relative to multidrug-resistant cell line MES-SA/Dx5 (Dx5) cells with wild-type P-gp. Cyclosporine inhibited ATPase activity in both cell types, whereas the cyclosporin D analog valspodar (PSC 833), vinblastine, and dactinomycin stimulated ATPase activity in Dx5 but not in mutant DxP cells. Moreover, the cell lines differed in their responses to verapamil, which produced greater stimulation of ATPase in Dx5 than DxP cells. Verapamil significantly reversed the [(3)H]daunorubicin accumulation defect in wild-type Dx5 cells, but it had no significant effect on [(3)H]daunorubicin accumulation in the mutant DxP cells. Verapamil was not transported by cells expressing either mutant or wild-type P-gp. Vanadate trapping of azido-ATP was markedly impaired in mutant P-gp. In conclusion, our data demonstrate that Phe(335) of transmembrane 6 is an important amino acid residue for the formation of cyclosporine and azidopine drug-binding site(s). Phe(335) also plays a role in the coupling of verapamil binding and modulation of daunorubicin intracellular accumulation in wild-type P-gp. In addition, Phe(335) in transmembrane 6 may play a role in coupling drug binding to ATPase activity. The deletion of Phe(335) results in a significant increase in the basal ATPase activity with a concomitant decrease in its ability to trap ATP and transport some P-gp substrates.
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PMID:Loss of cyclosporin and azidopine binding are associated with altered ATPase activity by a mutant P-glycoprotein with deleted phe(335). 1072 24


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