Insulin stimulates both the alpha 1 and the alpha 2 isoforms of the rat adipocyte (Na+,K+) ATPase. Two mechanisms of stimulation.
Results obtained with adipocyte ghosts indicated that the relative pumping activities of the alpha 1 and alpha 2 isoforms of the (Na+,K+) pump depend strongly on intracellular sodium concentration, [Na+]i (McGill, D. (1991) J. Biol. Chem. 266, 15817-15823). Accordingly, [Na+]i was determined in rat adipocytes as a function of ouabain concentration and found to increase gradually as the concentration of ouabain increased. Incubation conditions were therefore designed such that the [Na+]i at 0 M and 10(-5) M ouabain were identical, in order to study the activities of both forms of the pump under identical conditions. Under these conditions, the alpha 2 isozyme accounts for 42% of the total pumping activity; these data prove that the activity of the alpha 2 isozyme is suppressed to a much greater extent than that of the alpha 1 isozyme, in relation to maximally obtainable activities measured in plasma membranes (Lytton J., Lin, J.C., and Guidotti, G. (1985) J. Biol. Chem. 260, 1177-1184). Furthermore, insulin stimulation of 86Rb+/K+ uptake in adipocytes results from a 58 and a 128% increase in the activities of the alpha 1 and alpha 2 isozymes (Na+,K+) pump, respectively. In addition, it is shown that under the conditions used to determine the [Na+]i dependence of 86Rb+/K+ uptake into adipocytes (0 mM KCl, various [NaCl]), [Na+]i decreases rapidly upon the addition of KCl/86RbCl for the initiation of the uptake measurement. By making uptake measurements quickly after the addition of KCl to eliminate the effect of a decreasing [Na+]i, we demonstrate that the stimulation of the alpha 1 isozyme is due to a small decrease in the K0.5Na+ whereas the stimulation of the alpha 2 isozyme results from a decrease in the K0.5Na+ and an increase in the Vmax.[1]References
- Insulin stimulates both the alpha 1 and the alpha 2 isoforms of the rat adipocyte (Na+,K+) ATPase. Two mechanisms of stimulation. McGill, D.L., Guidotti, G. J. Biol. Chem. (1991) [Pubmed]
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