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Direct inhibition of epithelial Na+ channels by a pH-dependent interaction with calcium, and by other divalent ions (1987)

Garty, Haim ; Asher, Carol ; Yeger, Orna

Springer

The journal of membrane biology 95 (1987), S. 151-162

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ISSN: 1432-1424

Keywords: amiloride ; apical membrane ; Ca2+ inhibition ; epithelial transport ; membrane vesicles ; Na+ channels ; toad bladder

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Direct inhibitory effects of Ca2+ and other ions on the epithelial Na+ channels were investigated by measuring the amiloride-blockable22Na+ fluxes in toad bladder vesicles containing defined amounts of mono- and divalent ions. In agreement with a previous report (H.S. Chase, Jr., and Q. Al-Awqati,J. Gen. Physiol. 81:643–666, 1983) we found that the presence of micromolar concentrations of Ca2+ in the internal (cytoplasmic) compartment of the vesicles substantially lowered the channel-mediated fluxes. This inhibition, however, was incomplete and at least 30% of the amiloride-sensitive22Na+ uptake could not be blocked by Ca2+ (up to 1mm). Inhibition of channels could also be induced by millimolar concentrations of Ba2+, Sr2+, or VO2+, but not by Mg2+. The Ca2+ inhibition constant was a strong function of pH, and varied from 0.04 μm at pH 7.8 to 〉10 μm at pH 7.0 Strong pH effects were also demonstrated by measuring the pH dependence of22Na+ uptake in vesicles that contained 0.5 μm Ca2+. This Ca2+ activity produced a maximal inhibition of22Na+ uptake at pH≥7.4 but had no effect at pH≤7.0. The tracer fluxes measured in the absence of Ca2+ were pH independent over this range. The data is compatible with the model that Ca2+ blocks channels by binding to a site composed of several deprotonated groups. The protonation of any one of these groups prevents Ca2+ from binding to this site but does not by itself inhibit transport. The fact that the apical Na+ conductance in vesicles, can effectively be modulated by minor variations of the internal pH near the physiological value, raises the possibility that channels are being regulated by pH changes which alter their apparent affinity to cytoplasmic Ca2+, rather than, or in addition to changes in the cytoplasmic level of free Ca2+.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869160

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Mechanisms of aldosterone action in tight epithelia (1986)

Garty, Haim

Springer

The journal of membrane biology 90 (1986), S. 193-205

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ISSN: 1432-1424

Keywords: aldosterone ; mineralocorticoids ; Na+ channels ; Na+/K+ ATPase ; Na+ transport ; tight epithelia ; toad bladder

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870126

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Metabolic regulation of apical sodium permeability in toad urinary bladder in the presence and absence of aldosterone (1983)

Garty, Haim ; Edelman, Isidore S. ; Lindemann, Bernd

Springer

The journal of membrane biology 74 (1983), S. 15-24

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ISSN: 1432-1424

Keywords: aldosterone ; metabolic regulation ; sodium permeability ; toad bladder

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary In the present study, further evidence was adduced for energy-dependent regulation of passive apical transport of Na in toad bladder epithelium. In potassium-depolarized preparations studied by current-voltage analysis, additions of pyruvate or glucose to the media of substrate-depleted bladders evoked propertionate increases in the transepithelial Na current and in apical Na permeability. These reponses were large in aldosterone pretreated hemibladders and almost absent in the aldosterone-depleted preparations or when hormonal action was blocked by spironolactone or cycloheximide. The substrateinduced increases in apical Na permeability were fully reversed by appropriate metabolic inhibitors, i.e. 2-deoxyglucose and oxythiamine. Moreover, the inhibitory effect of 2-deoxyglucose was bypassed by the addition of pyruvate to the serosal medium. Thus apical Na permeability is clearly sensitive to the supply of cellular energy. The possibility that changes in intrcellular free Na activity may mediate metabolic regulation of apical Na permeability was evaluated by prolonged exposure to Na-free mucosal and serosal media, with and without inhibition of the Na/K-pump by ouabain. The stimulatory and inhibitory effects of pyruvate, 2-deoxyglucose and oxythiamine on Na currents and Na conductances were preserved under these circumstances. Furthermore, reduction of serosal Ca to a minimal level of 3 μm, was without effect on the response to metabolic inhibition. These experiments demonstrate the existence of Na-independent metabolic regulation of apical Na transport and imply that neither basal-lateral nor mitochondrial Na/Ca exchange is required for this regulatory process under the imposed conditions. The possibility that a Na-independent, Ca transport mechanism in mitochondria or endoplasmic reticulum may be involved in metabolic regulation of apical Na transport, however, remains to be evaluated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870591

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Amiloride blockable sodium fluxes in toad bladder membrane vesicles (1984)

Garty, Haim

Springer

The journal of membrane biology 82 (1984), S. 269-279

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ISSN: 1432-1424

Keywords: amiloride ; epithelial transport ; Na+ channels ; toad bladder ; vesicles

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Recently we reported a simple manual assay for the measurements of isotope fluxes through channels in heterogenous vesicle populations (Garty et al.,J. Biol. Chem. 258:13094–13099 (1983)). The present paper describes the application of this method to the assessment of amiloride blockable fluxes in toad bladder microsomes. When22Na+ uptake was monitored in the presence of an opposing Na+ gradient, a relatively large and transient amiloride-sensitive flux was observed. Such an amiloride-blockable flux could also be induced by a KCl+valinomycin diffusion potential. The effects of the intra- and extravesicular ionic composition on the rate of22Na+ uptake were examined. It was shown that the amiloride-blockable fluxes occur in particles permeable to Na+ and Li+ but relatively impermeable to K+, Tris+ and Cl−. Analysis of the amiloride dose-response relations revealed a complex “non Michaelis-Menten” behavior. The data could be accounted for by assuming either a strong negative cooperativity in the amiloride-membrane interaction, or two amiloride-sensitive Na+ conducting pathways withK i values of 0.06 and 6.4 μm. Both pathways appear to be electrogenic and therefore the possibility of an electroneutral amiloride-blockable Na/H exchange was excluded. Calcium ions could block the amiloride-sensitive flux from the inner but not from the outer phase of the membrane. It is suggested that although a substantial part of the22Na+ flux is inhibited only by a relatively high concentration of amiloride, this uptake represents transport through the apical Na-specific channels. The data also define the optimal experimental conditions for the study of amiloride-sensitive fluxes in toad bladder microsomes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871636

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