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  • Title: Effect of metabolic inhibitors on K+ transport across the lamprey (Lampetra fluviatilis) erythrocyte membrane.
    Author: Gusev GP, Sherstobitov AO.
    Journal: Gen Physiol Biophys; 1994 Dec; 13(6):459-68. PubMed ID: 7797053.
    Abstract:
    In order to assess the contribution of oxidative metabolism to K+(86Rb+) transport across the lamprey red cell membrane, the effects of various metabolic inhibitors were examined. The influx of K+ was reduced markedly in the presence of 20 mumol/l 2,4-dinitrophenol (2,4-DNP) or rotenone, and to a lesser extent by 1 mmol/l cyanide. Rotenone produced complete inhibition of the K+ active transport and a partial blockade of K+ channels by 28% on the average. Addition of 2,4-DNP to incubation media resulted in a significant reduction of both active transport of K+ (by 47%) and of K+ movement via channels (by 57%). The inhibitory effect of 2,4-DNP on total K+ influx was independent on decreasing extracellular pHe from 7.4 to 6.5. The blocking action of 1 mmol/l Ba2+ on K+ channels was abolished in the red cells incubated at pHe 6.5. Treatment of the red cells with 1 mmol/l cyanide diminished active transport of K+ to about 34% of control values but did not affect K+ channels. The obtained data indicate that in the lamprey red blood cells at least a half of energy needed for the active transport of K+ is supplied with ATP produced by oxidative phosphorylation. It may be suggested that NADH dehydrogenase is the key enzyme required for active transport of K+ in the cells, as rotenone, a selective blocker of this enzyme, causes a complete blockade of the Na+, K(+)-pump.
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