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The effect of ouabain on intracellular activities of K+, Na+, Cl−, H+ and Ca2+ in proximal tubules of frog kidneys (1984)

Wang, W. ; Messner, G. ; Oberleithner, H. ; [et al.]

Springer

Pflügers Archiv 401 (1984), S. 6-13

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ISSN: 1432-2013

Keywords: Ouabain ; Frog kidney ; Proximal tubule ; Ion sensitive microelectrodes ; Na+/K+ pump ; Intracellular K+, Na+, Cl−, pH, Ca2+

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Using conventional and ion selective microelectrodes, the effect of ouabain (10−4 mol/l) on peritubular cell membrane potential (PDpt), on intracellular pH (pHi) as well as on the intracellular ion activities of Cl− (Cl i − ), K+ (K i + ), Na+ (Na i + ) and Ca2+ (Ca i 2+ ) was studied in proximal tubules of the isolated perfused frog kidney. In the absence of ouabain (PDpt=−57.0±1.9 mV), the electrochemical potential difference of chloride (apparent {ie6-1} and of potassium {ie6-2} is directed from cell to bath, of H+ {ie6-3}, of Na+ {ie6-4} and of Ca2+ {ie6-5} from bath to cell. Ouabain leads to a gradual decline of PDpt, which is reduced to half (PDpt, 1/2) within 31±4.6 min (in presence of luminal glucose and phenylalanine), and to a decline of the absolute values of apparent {ie6-6}, of {ie6-7}, {ie6-8} and {ie6-9}. In contrast, an increase of {ei6-10} is observed. At PDpt, 1/2 apparent Cl i − increases by 6.2±1.0 mmol/l, pHi by 0.13±0.03, Ca i 2+ by 185±21 nmol/l, and Na i + by 34.2±4.6 mmol/l, whereas K i + decreases by 37.7±2.2 mmol/l. The results suggest that the application of ouabain is followed by a decrease of peritubular cell membrane permeability to K+, by an accumulation of Ca2+, Na+ and HCO 3 - in the cell and by a dissipation of the electrochemical Cl− gradient.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00581526

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The influence of intracellular sodium activity on the transport of glucose in proximal tubule of frog kidney (1984)

Lang, F. ; Messner, G. ; Wang, W. ; [et al.]

Springer

Pflügers Archiv 401 (1984), S. 14-21

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ISSN: 1432-2013

Keywords: Frog kidney ; Proximal tubule ; Glucose transport ; Ouabain ; Cell membrane potential ; Intracellular sodium ; Microelectrodes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Inhibition of basolateral Na+/K+ ATPase by ouabain eventually abolishes transport of glucose. The present study was performed to test, if this effect is due to a dissipation of the electrochemical gradient for sodium or due to a regulatory inhibition of sodium-coupled glucose entry across the luminal membrane at increasing intracellular sodium activity. To this end, proximal convoluted tubules of the doubly perfused isolated frog kidney were perfused alternatively with solutions containing either 5 mmol/l glucose or raffinose. The potential difference across the peritubular cell membrane (PDpt) and across the epithelium (PDpt) has been recorded with conventional and across the peritubular cell membrane with ion selective microelectrodes (PDpt). In the absence of luminal glucose PDpt is (±SEM) −54.0±2.4 mV, PDte=−1.2±2.0 mV and PD pt Na =−96±5 mV. The electrochemical gradient for sodium (μNa+) amounts to 95 mV and intracellular sodium activity to 14 mmol/l (extracellular sodium activity is 74 mmol/l). Luminal application of glucose leads to a rapid depolarisation of PDpt (ΔPDpt=8.6±0.9 mV and PD pt Na (ΔPD pt Na =11.1±3.0 mV) and to hyperpolarisation of PDte (ΔPDte=−0.8±0.2 mV). The peritubular application of ouabain leads to a gradual, reversible and proportional decline of PDpt, PD pt Na and μNa+. Glucose induced ΔPDpt and ΔPD pt Na decrease in parallel to PDpt and PD pt Na , resp. In a separate series, the lumped conductance (G m) of the luminal and basolateral cell membrane has been determined, which amounts to 2.4±0.3 μS/mm (tubule length).G m decreases 23±4%, when PDpt is decreased to half. ΔPDpt andG m allow the calculation of an apparent transport rate (T Glu). Following the application of ouabain,T Glu decreases in linear proportion to PDpt and PD pt Na . There is no evidence for a significant regulatory inhibition ofT Glu. Rather, glucose transport operates in linear proportion to the potential difference across the luminal membrane.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00581527

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