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: UNIPROT:P50583 (asymmetrical)
12,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vacuolar ion channels were characterized after reconstitution into planar lipid bilayers. (1) Channel activity was observed after incorporation of tonoplast-enriched microsomal membranes, purified tonoplast membranes or of solubilized tonoplast proteins. (2) Channels of varying single-channel conductances were detected after reconstitution. In symmetrical 100 mmol l-1 KCl, conductances between 1 and 110 pS were frequently measured; the largest number of independent reconstitution events was seen for single-channel conductances of 16-25 pS (28 experiments), 30-42 pS (26), 49-56 pS (15) and 64-81 pS (15). Channel current usually increased linearly with voltage. (3) In asymmetrical solutions, cation-, non-selective and, for the first time for the tonoplast, anion-selective channels were detected. Ca(2+)-dependent regulation of channel opening was not observed in our reconstitution system. (4) Permeability was also observed for Cl-, NO3-, SO4(2-) and phosphate. (5) After fractionation of tonoplast proteins by size exclusion chromatography, ion channel activity was recovered in specific fractions. (6) Some of these fractions catalyzed sulfate transport after reconstitution into liposomes. The results suggest that different channels are active at the tonoplast membrane at a larger number than has been concluded from previous work.
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PMID:Reconstitution of vacuolar ion channels into planar lipid bilayers. 137 79

The rapid development of tolerance has limited the applicability of oral and transdermal nitrates in the long-term management of patients with chronic stable angina pectoris. Recent well-controlled trials have demonstrated that asymmetrical, or eccentric, dosing of oral isosorbide mononitrate, in which 20-mg doses are taken at 8 A.M. and 3 P.M., provides at least 12 hours of antianginal coverage. There is no evidence for the development of tolerance with this schedule, which allows for a 17-hour nitrate withdrawal period. Likewise, the asymmetrical 20-mg twice daily regimen has not been associated with the zero-hour effect that has been reported with higher oral doses of isosorbide mononitrate and with intermittent nitroglycerin patch therapy. This approach also avoids the development of a clinical rebound phenomenon, as measured by increased episodes of angina and nitroglycerin consumption, compared with the pretreatment period, during the nitrate-free interval at night and the early hours of the morning.
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PMID:Efficacy of isosorbide mononitrate in angina pectoris. 144 3

A study has been made with human red cells of sodium movements that are sensitive to the drug furosemide. The aim was to see if furosemide-sensitive movements that are symmetrical (exchange) became asymmetrical (net transport) on replacement of chloride with nitrate as the major external anion. Cells were incubated for 4 h at 37 degrees C with 140 mM sodium, and chloride or nitrate as the principal anion. Under a variety of conditions (presence and absence of ouabain or furosemide, or both) the cell sodium concentration was always higher when chloride was replaced with nitrate. The cells became leakier to sodium. Tracer studies indicated that, in contrast to the results in chloride medium, the decrease in sodium influx was greater than the fall in efflux when furosemide was added to cells in nitrate medium. The results confirm that the sensitivity of sodium efflux to furosemide depended on chloride. However, influx showed a different sensitivity in that furosemide still inhibited in cells incubated in nitrate medium. The stimulation of sodium influx with nitrate medium was independent of external potassium (10-50 mM) and the furosemide-sensitive influx was also constant. It is concluded that symmetrical transmembrane sodium movements with cells in chloride medium became downhill asymmetrical in nitrate medium, giving a net gain of cell sodium that was insensitive to ouabain and sensitive to furosemide. The drug thus partly retarded the gain of cell sodium that otherwise occurred in the somewhat leaky cells.
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PMID:The change from symmetry to asymmetry of a sodium transport system in red cell membranes. 285 58

The properties of SH-groups of mitochondrial creatine kinase existing in solution as a hexamer with Mr of (240 +/- 12) X 10(3) Da, were investigated. The number and reactivity of SH-groups by specific modifiers--[5.5'-dithiobis-(2-nitrobenzoic acid), DTNB; 7-chloro-4-nitrobenzo-2-oxo-1.3-diazol, NBD-Cl; 2.2'-dithiopyridine, DTP] were determined. It was found that each subunit of the enzyme hexameric molecule contains two modified SH-groups, only one of which is protected against modification by Mg-ADP, Mg-ATP as well as during the formation of the transition state analog (TSA)--E-Mg X ADP-NO3-creatine--and is essential for the enzyme activity. These six essential SH-groups within the hexameric molecule of mitochondrial creatine kinase may be classified into two groups according to the rate of their interaction with DTNB, NBD-Cl and DTP. The rate constants of modification of three fast and three slow essential SH-groups differ 4-10 times. The kinetics of enzyme inactivation by iodoacetamide (IAA) is biphasic; each phase is characterized by a 50% loss of activity. The inactivation constants differ 30 times; both phases being protected by TSA; consequently, the inactivation is caused by the binding of IAA to the essential SH-groups. The unequal reactivity of essential SH-groups seems to be preexisting. Using a computer analysis, the dependence of the amount of residual activity on the number of modified SH-groups by NBD-Cl and DTNB was studied. The interaction of NBD-Cl and DTNB with the most reactive essential SH-groups in half of the subunits results in the inactivation of these subunits as well as in partial or complete inactivation of the other half of the non-modified subunits. The degree of inactivation of the latter 50% of subunits strongly depends on the nature of the modifier. The inactivating effect of the bound modifier is translated from one subunit to another in one direction. The experimental results point to asymmetrical association of mitochondrial creatine kinase subunits.
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PMID:[Non-equivalency of SH groups essential for the activity of mitochondrial creatine kinase]. 369 21

Background Cl channels in neurons and skeletal muscle are significantly permeable for alkali cations when tested with asymmetrical concentrations of the same salt. Both anion and cation permeation were proposed to require binding of an alkali cation with the pore (Franciolini, F., and W. Nonner. 1987. Journal of General Physiology. 90:453-478). We tested this hypothesis by bilaterally substituting large alkali cations for Na and found no significant changes of unitary conductance at 300 mM symmetrical concentrations. In addition, all organic cations examined were permeant in a salt gradient test (1,000 mM internal@300 mM external), including triethanolamine, benzyltrimethylamine, and bis-tris-propane (BTP, which is divalent at the tested pH of 6.2). Inward currents were detected following substitution of internal NaCl by the Na salts of the divalent anions of phosphoric, fumaric, and malic acid. Zero-current potentials in gradients of the Na and BTP salts of varied anions (propionate, F, Br, nitrate) that have different permeabilities under bi-ionic conditions, were approximately constant, as if the permeation of either cation were coupled to the permeation of the anion. These results rule out our earlier hypothesis of anion permeation dependent on a bound alkali cation, but they are consistent with the idea that the tested anions and cations form mixed complexes while traversing the Cl channel.
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PMID:Anion-cation interactions in the pore of neuronal background chloride channels. 783 38

Transepithelial and cell membrane potential measurements have suggested that the basolateral membrane of gerbil vestibular dark cells contains Cl- conductive pathways. We used the patch clamp technique to search this membrane for Cl- conductive channels which could account for the macroscopic observations. Two types of Cl- channel were found in both cell-attached and excised membrane patches. One type was found with an incidence of 19% and had a single-channel conductance of 95 +/- 1 pS (N = 20) in symmetrical Cl- solutions. The other type was found with an incidence of 3% and had a large single-channel conductance of 360 +/- 11 pS (N = 12) in symmetrical Cl- solutions (LC-type Cl- channel). Both types of Cl- channel had linear current-voltage relations and at least 2 substates. In asymmetrical Cl- solutions (gluconate substitution) the current-voltage relations fit the Goldman-Hodgkin-Katz current equation for Cl-. Neither channel was blocked by Zn2+, NPPB, DIDS, DNDS or quinine. The 95 pS channel exhibited a spontaneous 'rundown' of its activity within 1 to 10 min after being excised. This rundown was not reversed by the catalytic subunit of protein kinase A. Channel activity was not dependent on the presence of cytosolic Ca2+ nor markedly altered by variations in cytosolic pH between 6.5 and 8.0. The two Cl- channels were distinguished by the membrane voltage ranges in which they were active and by their anion selectivity. The open probability of the 95 pS channel was insensitive to voltage and the anions NO3-, I- and Br- were only half as permeable as Cl-. By contrast, the LC-type Cl- channel was mostly active between about +/- 30 mV and equally permeable to NO3-, I-, Br- and Cl-. The 95 pS Cl- channel may account for the observed transepithelial and intracellular voltage responses to Cl- concentration steps and provide the path for the recirculation of Cl- across the basolateral membrane. The LC-type Cl- channel shows the same lack of anion discrimination as the anion pathway activated during hyposmotic challenge.
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PMID:Two types of chloride channel in the basolateral membrane of vestibular dark cells. 822 32

The whole cell configuration of the patch clamp technique was used to investigate the mechanism underlying rectification of the isoproterenol-activated chloride (Cl-) current in isolated guinea pig ventricular myocytes. When extracellular Cl- was replaced with either bromide (Br-), glutamate (Glut), iodide (I-), isethionate (Iseth), or nitrate (NO3-), the magnitude of the shift in reversal potential of the macroscopic current suggested the following selectivity sequence: NO3- > Br- > or = Cl- > or = I- > Iseth > or = Glut. This information was used to investigate the role of permeant ions in rectification of this current. Consistent with previous observations, when the concentration of intracellular Cl- (Cli-) was less than the concentration of extracellular Cl- (Clo-) (40 mM Cli-/150 mM Clo-) the current exhibited outward rectification, but when Cli- was increased to equal that outside (150 Cli-/150 Clo-), the current no longer rectified. Rectification in the presence of asymmetrical concentrations of permeant ions on either side of the membrane is predicted by constant field theory, as described by the Goldman-Hodgkin-Katz current equation. However, when the Cl- gradient was reversed (150 Cli-/40 Clo-) the current did not rectify in the opposite direction, and in the presence of lower symmetrical concentrations of Cl- inside and out (40 Cli-/40 Clo-), outward rectification did not disappear. Reducing Cli- by equimolar replacement with glutamate caused a concentration dependent increase in the degree of rectification. However, when Cli- was replaced with more permeant anions (NO3- and Br-), rectification was not observed. These results can be explained by a single binding site model based on Eyring rate theory, indicating that rectification is a function of the concentration and the permeability of the anions in the intracellular solution.
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PMID:On the mechanism of rectification of the isoproterenol-activated chloride current in guinea-pig ventricular myocytes. 830 Dec 61

Dietary supplementation of L-arginine, the precursor of endogenous NO, has been shown to enhance endothelial function in the cholesterol-fed rabbits. However, the mechanism by which dietary L-arginine accomplishes these effects has been unclear. In the present study we have assessed the plasma concentrations of L-arginine and of asymmetrical dimethylarginine (ADMA), a known endogenous inhibitor of NO synthase, in cholesterol-fed rabbits with or without dietary supplementation of L-arginine. Urinary nitrate excretion rates were assessed as an index of endogenous NO formation. Plasma L-arginine levels were not different between control and cholesterol-fed rabbits, but they were elevated nearly threefold in rabbits fed cholesterol + L-arginine. Plasma ADMA concentration increased about two-fold in hypercholesterolemia, but was unaffected by dietary L-arginine. Thus, dietary L-arginine elevated the plasma L-arginine/ADMA ratio above the normal level, and partly restored urinary nitrate excretion, which was decreased by hypercholesterolemia. We conclude that elevation of the L-arginine/ADMA ratio may at least partly explain the restored NO formation by exogenous L-arginine in hypercholesterolemia.
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PMID:Elevated L-arginine/dimethylarginine ratio contributes to enhanced systemic NO production by dietary L-arginine in hypercholesterolemic rabbits. 860 33

Cellular origins of methylarginines are not precisely known but the presence of free methyl and dimethylarginines in the brain were reported. We have investigated the circulating concentrations of asymmetrical dimethylarginine NG,NG-dimethylarginine (ADMA), NG,NG-dimethylarginine (SDMA), nitrate and nitrite levels in drug naive first episode schizophrenic patients and matched control subjects. Three of those patients were treated with neurolepties for 3 months. Plasma ADMA levels increased significantly but nitrate levels were significantly low compared to control subjects. Drug treatment apparently lowered ADMA levels and increased nitrate levels in plasma. Methylation of arginine to methylarginines may have an important role in regulating signal transduction through the nitric oxide system in the brain, and suggest novel therapeutic targets.
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PMID:Elevated endogenous nitric oxide synthase inhibitor in schizophrenic plasma may reflect abnormalities in brain nitric oxide production. 889 50

Nitric oxide (NO) exerts pleiotroptic anti-atherosclerotic effects in the vascular wall: vasodilation, inhibition of platelet aggregation, elukocyte adhesion, and smooth muscle cell proliferation. Experimental and clinical studies showed that the biological effects of NO are impaired in patients with peripheral arterial occlusive disease. In a cross over study with 77 PAOD patients, we could demonstrate impaired NO formation by measuring the index metabolites of NO, nitrate and cyclic GMP. One possible mechanism of these pathophysiological changes is accumulation of the endogenous inhibitor of NO synthesis, asymmetrical dimethylarginine (ADMA). The NO-mediated functions of the vascular endothelium will become increasingly important in the clinic: diagnostically, measuring endothelium-dependent vasodilation may become a risk indicator for the development or progression of cardiovascular disease and for assessing the effects of antiatherosclerotic therapy; therapeutically, treatment strategies will be developed aiming at improving endothelial function. In early clinical studies, administration of L-arginine, the amino acid precursor of endogenous NO, has resulted in increased NO formation rates, which may prove therapeutically effective in the future.
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PMID:[Endothelial dysfunction in peripheral arterial occlusive disease: from basic research to clinical use]. 938 83


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