Slices from the cortex corticis of the guinea pig kidney were immersed in a chilled solution without K and then reimmersed in warmer solutions. The Na and K concentrations and the membrane potential Vm were then studied as a function of the Na and K concentrations of the reimmersion fluid. It was found that Na is extruded from the cells against a large electrochemical potential gradient. Q10 for net Na outflux was ∼2.5. At bath K concentrations larger than 8 mM the behavior of K was largely passive. At the outset of reimmersion (Vm > EK) K influx seemed secondary to Na extrusion. Na extrusion would promote K entrance, being limited and requiring the presence of K in the bathing fluid. At bath K concentrations below 8 mM, K influx was up an electrochemical potential gradient. Thus a parallel active K uptake is apparent. Q10 for net K influx was ∼2.0. Dinitrophenol inhibited net Na outflux and net K influx, Q10 became <1.1 for both fluxes. The ratio between these fluxes varied. Thus at the outset of reimmersion the net Na outflux to net K influx ratio was >1. After 8 minutes it was <1.
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1 March 1965
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March 01 1965
Sodium Extrusion and Potassium Uptake in Guinea Pig Kidney Cortex Slices
Guillermo Whittembury
Guillermo Whittembury
From the Departamento de Biofísica, Instituto Venezolano de Investigaciones Científicas (I.V.I.C.), Caracas, Venezuela
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Guillermo Whittembury
From the Departamento de Biofísica, Instituto Venezolano de Investigaciones Científicas (I.V.I.C.), Caracas, Venezuela
Received:
October 30 1964
Online ISSN: 1540-7748
Print ISSN: 0022-1295
Copyright © 1965 by The Rockefeller Institute Press
1965
J Gen Physiol (1965) 48 (4): 699–717.
Article history
Received:
October 30 1964
Citation
Guillermo Whittembury; Sodium Extrusion and Potassium Uptake in Guinea Pig Kidney Cortex Slices . J Gen Physiol 1 March 1965; 48 (4): 699–717. doi: https://doi.org/10.1085/jgp.48.4.699
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