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)

In order to solubilize bone mineral and degrade the organic matrix of bone osteoclasts must secrete 1-2 protons for every Ca2+ liberated. This transport is a major metabolic activity of osteoclasts requiring an electrogenic H(+)-ATPase, a conductive chloride channel, a chloride-bicarbonate exchanger, carbonic anhydrase, and functional/morphological polarization of the cell. The osteoclast H(+)-ATPase is electrically coupled to a chloride channel in the ruffled membrane as are similar transport activities found in acidic intracellular vesicles, but the vanadate sensitivity of the osteoclast proton pump is intermediated between that of the E- and v-type proton pumps. The carbonic anhydrase and chloride-bicarbonate exchange provide an interface with pH regulation and integrate bone resorption into systemic acid-base balance. With the molecular mediators of bone resorption being known we may consider the control of bone resorption with an eye to mechanism and specificity that has not previously been possible. The effects of systemic acidosis to increase bone resorption and the effects of carbonic anhydrase deficiency are consistent with our mechanism of osteoclast ion transport.
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PMID:Osteoclastic acid transport: mechanism and implications for physiological and pharmacological regulation. 820 50

Gamma-Aminobirtyric acid (GABA) is one of the major neurotransmitters in the mammalian central nervous system (CNS). The activation of post-synaptic GABAA receptor-chloride channel complex is thought to underlie inhibitory postsynaptic potentials ubiquitously in various CNS regions. GABAA receptors are modulated by convulsant, hypnotic-anticonvulsant, anxiolytic and anxiogenic agents and endogenous agents such as nurosteroids and intracellular calcium, ATP, and cyclic AMP. The function of GABAA receptor in CNS neuron is also affected by some pathophysiological processes, e.g., anoxia. For example, it is currently believed that delayed neuronal death after brain ischemia results from excessive cell excitability and/or loss of inhibition. In the present study, we investigated how the GABA-gated chloride current is affected by anoxic conditions. All experiments were carried out on neurons freshly dissociated from rat CNS by the use of both conventional and nystatin perforated patch recording configurations. The GABA response showed a considerable rundown with time in anoxic condition. The rundown was prevented by adding either ouabain or SPAI-I (Na+-K+ ATPase inhibitor-I), suggesting that the experimental anoxia reduced GABA response by decreasing intracellular ATP synthesis. This result was also confirmed by finding that the direct decrease of intracellular ATP concentration using a conventional whole-cell patch recording mode inhibited the GABA-gated chloride response in mammalian CNS neurons.
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PMID:Time-dependent rundown of GABA response in mammalian cns neuron during experimental anoxia. 865 61

CFTR shares structural homology with the ABC transporter superfamily of proteins which hydrolyze ATP to effect the transport of compounds across cell membranes. Some superfamily members are characterized as P-type ATPases because ATP-dependent transport is sensitive to the presence of vanadate. It has been widely postulated that CFTR hydrolyzes ATP to gate its chloride channel. However, direct evidence of CFTR hydrolytic activity in channel gating is lacking and existing circumstantial evidence is contradictory. Therefore, we evaluated CFTR chloride channel activity under conditions known to inhibit the activity of ATPases; i.e., in the absence of divalent cations and in the presence of a variety of ATPase inhibitors. Removal of the cytosolic cofactor, Mg2+, reduced both the opening and closing rates of CFTR suggesting that Mg2+ plays a modulatory role in channel gating. However, channels continued to both open and close showing that Mg2+ is not an absolute requirement for channel activity. The nonselective P-type ATPase inhibitor, vanadate, did not alter the gating of CFTR when used at concentrations which completely inhibit the activity of other ABC transporters (1 mM). Higher concentrations of vanadate (10 mM) blocked the closing of CFTR, but did not affect the opening of the channel. As expected, more selective P-type (Sch28080, ouabain), V-type (bafilomycin A1, SCN-) and F-type (oligomycin) ATPase inhibitors did not affect either the opening or closing of CFTR. Thus, CFTR does not share a pharmacological inhibition profile with other ATPases and channel gating occurs in the apparent absence of hydrolysis, although with altered kinetics. Vanadate inhibition of channel closure might suggest that a hydrolytic step is involved although the requirement for a high concentration raises the possibility of previously uncharacterized effects of this compound. Most conservatively, the requirement for high concentrations of vanadate demonstrates that the binding site for this transition state analogue is considerably different than that of other ABC transporters.
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PMID:Lack of conventional ATPase properties in CFTR chloride channel gating. 866 89

We have sought to determine the mechanisms driving fluid secretion by the cystic epithelium in autosomal dominant polycystic kidney disease (ADPKD). We have performed in vitro experiments on intact cysts dissected from discarded ADPKD kidneys, on monolayers of cells cultured from the cystic epithelium and on microcysts clonally derived from single cultured cells. These preparations absorb fluid in the control state but secrete fluid in response to native cyst fluid, to adenylate cyclase agonists and to permeant analogues of cAMP. Measurements of short-circuit current and transepithelial voltage in the monolayers indicate that anion secretion must drive the fluid secretion. Fluid secretion by the intact cysts was inhibited by basolateral application of ouabain but not by apical application. The effect of ouabain on fluid secretion and short-circuit current in the monolayers followed the same pattern. Thus the functional Na,K-ATPase enzyme complex is located only in the basolateral membrane of the cystic cells and serves to maintain the transmembrane chemical and electrical gradients that drive anion secretion by other transport mechanisms. Fluid secretion and short-circuit current in the cultured monolayers was inhibited by the basolateral application of the Na-K-2Cl cotransporter inhibitors, bumetanide and furosemide, and by apical application of the chloride channel blocker, diphenylamine-2-carboxylate (DPC). These data suggest that chloride is the anion that is actively secreted. Preliminary experiments utilizing the monolayers and the microcysts and measuring cell chloride concentration and chloride efflux across the apical membrane support this conclusion. Other preliminary data indicate that the cystic fibrosis transmembrane conductance regulator is present in the apical membrane. Thus active chloride transport generates fluid secretion by the cystic epithelium.
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PMID:Mechanisms of fluid secretion by polycystic epithelia. 874 60

The capacity to concentrate urine develops progressively during postnatal life in most mammalian species. Here we have examined whether low expression of the arginine vasopressin (AVP)-activated water channel aquaporin-2 (AQP-2) may be a limiting factor for the concentrating capacity in the infant rats. Urine osmolality in response to 24-h dehydration increased significantly from 10 to 40 days of age. The most rapid increase occurred during the weaning period, i.e., days 15-20. A similar developmental pattern was observed for AQP-2 mRNA levels in the renal medulla. AQP-2 protein levels also increased markedly from day 10 to 40. Immunohistochemistry revealed that AQP-2 was exclusively located in collecting duct principal cells both in infant and adult rats but that the signal was much weaker in infants. To further examine the relationship between urinary concentrating capacity and AQP-2 expression, we treated rats with a single injection of betamethasone, which is known to accelerate maturation in several organs. Twenty-four hours after treatment, there was an increase in urine osmolality, renal medullary AQP-2 mRNA, and AQP-2 protein levels in infant but not in adult rats. A single injection of a specific V2 agonist caused within 6 h significant increase of AQP-2 mRNA in both infant and adult. The expression of the mRNA of three other transporters involved in the concentrating process, medullary Na(+)-K(+)-ATPase alpha-subunit, Na-K-2Cl cotransporter, and epithelial chloride channel also increased during the weaning period and were upregulated by glucocorticoids. We conclude that there is a well-synchronized development of the many of the components that determine the concentrating capacity and that the low expression of AQP-2 is one of the limiting factors for low concentrating capacity in infants.
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PMID:Development of urinary concentrating capacity: role of aquaporin-2. 877 Jan 80

1. By use of the whole-cell configuration of the patch-clamp technique, membrane currents induced by cyclopiazonic acid (CPA; an inhibitor of the sarcoplasmic reticulum (SR) calcium-ATPase) were investigated in single smooth muscle cells freshly dispersed from the mouse anococcygeus. Voltage-dependent calcium currents were blocked with extracellular nifedipine and caesium and tetraethylammonium chloride were used to block voltage-dependent potassium currents. 2. At a holding potential of -40 mV, CPA (10 microM) activated an inward current that consisted of two distinct components. The first was an initial transient current with an amplitude of 19.6 +/- 1.9 pA while the second was sustained and had an amplitude of 3.5 +/- 0.3 pA. 3. The current-voltage (I-V) relationship for the transient current showed marked outward rectification. The current had a reversal potential of 9.1 +/- 1.1 mV which was shifted to 29.0 +/- 4.2 mV when the extracellular chloride concentration was lowered from 148.4 to 58.4 mM. The sustained current had a near-linear I-V relationship and a reversal potential of 31.0 +/- 2.7 mV. Removal of extracellular calcium had no effect on the transient current, but shifted the reversal potential of the sustained current to 18.2 +/- 5.7 mV. 3. The initial transient current was abolished in cells bathed in extracellular solutions containing the chloride channel blockers, 4,4' diisothiocyanato-stilbene-2,2'-disulphonic acid (DIDS; 1 mM) or anthracene-9-carboxylic acid (A-9-C; 1 mM), and was absent in cells containing the calcium buffers EGTA (1 to 5 mM) or BAPTA (10 mM). The second sustained current was unaffected by either the chloride channel blockers or the intracellular calcium buffers. 4. Treatment of the cells with caffeine (10 mM) produced similar inward currents to those produced by CPA. In the presence of caffeine, CPA (10 microM) induced no further inward current. 5. In organ bath studies, CPA (10 microM)-induced contractions of the mouse anococcygeus were inhibited by cadmium and nickel (both 50-400 microM) and the general calcium entry blocker, SKF 96365 (10 microM); lanthanum and gadolinium had no effect at concentrations up to 400 microM. The pharmacology of the CPA-induced non-selective cation current mirrored that of the CPA-induced whole muscle contraction being reversed by cadmium (100 microM) and SKF 96365 (10 microM), but unaffected by lanthanum (400 microM). The initial chloride conductance was unaffected by cadmium, SKF 96365 or lanthanum. 6. It is concluded that CPA activates a transient calcium-dependent chloride current as a consequence of calcium release from intracellular stores; this current would result in depolarization and opening of voltage-operated calcium channels, which mediate the nifedipine-sensitive component of muscle contraction. In addition, as a result of emptying the SR, CPA activates a non-selective cation conductance which may underlie the nifedipine-insensitive calcium entry process utilised during sustained contraction.
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PMID:Two distinct membrane currents activated by cyclopiazonic acid-induced calcium store depletion in single smooth muscle cells of the mouse anococcygeus. 882 50

This study describes the establishment of a rat kidney cortical collecting duct (CCD) clonal cell line (RCCD1 cells) that maintains high transepithelial resistance and specific hormonal sensitivities. Immortalized cells were obtained by infection of primary cultured CCD cells with the wild-type simian virus 40. Grown on Petri dishes, RCCD1 cells are organized as monolayers of cuboid cells separated by tight junctions and form domes. Grown on permeable filters, confluent RCCD1 cells exhibit high transepithelial resistance (Rt: 2390 +/- 140 omega. cm2), transepithelial potential difference (PD) of -10.5 +/- 1.2 mV lumen negative, an associated short-circuit current (Isc) of 4.3 +/- 0.5 microA/cm2, and generated significant Na+, K+, H+ and HCO3- gradients, reflecting Na+ and H+ reabsorption and K+ and HCO3- secretion. RCCD1 cells exhibit features of both principal (PC) and intercalated (IC) cells. Consistent with PC phenotype, about 50% of the cells were positively stained by a PC-specific agglutinin. In situ hybridization studies revealed the presence of alpha, beta and gamma subunit mRNAs of the amiloride-sensitive epithelial Na+ channel and alpha 1 and beta 1 subunits of Na(+)-K(+)-ATPase. Moreover, Na(+)-K(+)-ATPase was immunolocalized at the basolateral side of the cells. Arginine vasopressin (AVP) induced a significant increase in both cellular cAMP content and Isc. Amiloride decreased in a dose-dependent manner Isc from untreated and AVP-treated RCCD1 cells. In addition, a barium-sensitive K+ conductance was evidenced in the apical side of the cells. Consistent with IC phenotype, isoproterenol (ISO) provoked a large increase in cellular cAMP and stimulated Isc. The effect of ISO on Isc was blocked by 5 x 10(-3) M DPC, a chloride channel blocker. Finally, AVP plus ISO had additive effect on Isc. Taken together, these results provide evidence that the RCCD1 cell line has maintained many of the original properties of rat CCD from which they were derived.
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PMID:Characteristics of a rat cortical collecting duct cell line that maintains high transepithelial resistance. 884 Feb 62

1. The effects of sodium nitroprusside (SNP) on the non-selective cation current activated in response to intracellular calcium store depletion were studied using the whole-cell patch-clamp technique in single smooth muscle cells isolated from the mouse anococcygeus. Voltage-dependent calcium currents were blocked with extracellular nifedipine, and caesium and tetraethylammonium chloride were used to block voltage-dependent potassium currents. Calcium stores were depleted with caffeine (10 mM), carbachol (50 microM) or cyclopiazonic acid (CPA 10 microM; an inhibitor of the sarcoplasmic reticulum [SR] calcium-ATPase). 2. At a holding potential of -40 mV, both CPA and caffeine activated inward currents which consisted of two clearly distinguishable components; an initial transient current followed by a smaller sustained current. In the case of CPA, the amplitudes of the transient and sustained components were 19.7 +/- 2.1 pA and 3.5 +/- 0.3 pA respectively, whilst the equivalent values for caffeine were 188 +/- 21 and 4.8 +/- 0.3 pA. As described previously, the transient current results from activation of a calcium-dependent chloride conductance whilst the sustained current is a non-selective cation current, activated following intracellular calcium store depletion. 3. The muscarinic receptor agonist, carbachol, also activated a transient followed by a sustained current with amplitudes of 238 +/- 55 and 4.7 +/- 0.5 pA respectively. Superimposed on the sustained current were regular, oscillations of calcium-activated chloride current. 4. Both the transient and the sustained currents activated by CPA were absent in cells pretreated with SNP (10 microM). Application of SNP to a cell following activation of the sustained current by CPA inhibited the current by 88.6 +/- 3.8%. SNP (10 microM) did not inhibit the transient current activated by caffeine but abolished the sustained current. 5. SNP (10 microM) had no effect on the initial transient current activated by carbachol (50 microM). However, it did inhibit the oscillations in the inward current. In recordings from cells bathed in extracellular solution containing the chloride channel blocker, anthracene-9-carboxylic acid (A-9-C; 1 mM), carbachol activated only a sustained current. This current was inhibited by 88.1 +/- 6.5% by a concomitant application of SNP (10 microM) and was absent in cells pretreated with the nitrovasodilator. 6. The effects of SNP on the currents activated by caffeine (10 mM) were mimicked by 8-bromo-cyclic GMP (200 microM); thus the nucleotide had no effect on the transient current activated by caffeine but abolished the sustained current. The effects of SNP, but not those of 8-bromo-cyclic GMP, were inhibited by the nitric oxide-sensitive guanylyl cyclase inhibitor, 1H-[1, 2, 4]oxadiazolo[4, 3-a]quinoxaline-1-one (ODQ; 1 microM). ODQ alone produced a significant increase in the size of the sustained current activated by caffeine (7.8 +/- 0.7 pA). 7. These findings suggest that SNP activates guanylyl cyclase to inhibit the non-selective cation current activated as a result of intracellular calcium store depletion in mouse anococcygeus cells. Since the non-selective cation current appears to underlie the calcium entry process responsible for maintaining the sustained contractions to agonists in this tissue, this action of SNP may represent an important mechanism by which nitrates relax non-vascular smooth muscle.
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PMID:Inhibition by sodium nitroprusside of a calcium store depletion-activated non-selective cation current in smooth muscle cells of the mouse anococcygeus. 886 35

The gene mutated in cystic fibrosis codes for the cystic fibrosis transmembrane conductance regulator (CFTR), a cyclic AMP-activated chloride channel thought to be critical for salt and water transport by epithelial cells. Plausible models exist to describe a role for ATP hydrolysis in CFTR channel activity; however, biochemical evidence that CFTR possesses intrinsic ATPase activity is lacking. In this study, we report the first measurements of the rate of ATP hydrolysis by purified, reconstituted CFTR. The mutation CFTRG551D resides within a motif conserved in many nucleotidases and is known to cause severe human disease. Following reconstitution the mutant protein exhibited both defective ATP hydrolysis and channel gating, providing direct evidence that CFTR utilizes ATP to gate its channel activity.
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PMID:ATPase activity of the cystic fibrosis transmembrane conductance regulator. 891 Apr 73

Heavy endosomes were isolated from proximal tubules using a combination of magnesium precipitation and wheat-germ agglutinin negative selection techniques. Two small GTPases (Rab4 and Rab5) known to be specifically present in early endosomes were identified in our preparations. Endosomal acidification was followed fluorimetrically using acridine orange. In presence of chloride ions and ATP, the formation of a proton gradient (delta pH) was observed. This process is due to the activity of an electrogenic V-type ATPase present in the endosomal membrane since specific inhibitors bafilomycin and folimycin effectively prevented or eliminated endosomal acidification. In presence of chloride ions (K(m) = 30 mM) the formation of the proton gradient was optimal. Inhibitors of chloride channel activity such as DIDS and NPPB reduced acidification. The presence of sodium ions stimulated the dissipation of the proton gradient. This effect of sodium was abolished by amiloride derivative (MIA) but only when loaded into endosomes, indicating the presence of a physiologically oriented Na+/H(+)-exchanger in the endosomal membrane. Monensin restored the gradient dissipation. Thus three proteins (V-type ATPase, Cl(-)-channel, Na+/H(+)-exchanger) present in early endosomes isolated from proximal tubules may regulate the formation, maintenance and dissipation of the proton gradient.
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PMID:Proton gradient formation in early endosomes from proximal tubules. 891 81


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