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CELLULAR METABOLISM

-Subunit of cardiac Na⁺-K⁺-ATPase dictates the concentration of the functional enzyme in caveolae

Department of Physiology, Pharmacology, Metabolism, and Cardiovascular Sciences, Medical University of Ohio, Toledo, Ohio

Submitted 4 January 2006 ; accepted in final form 16 April 2006

Previous studies showed the presence of a significant fraction of Na⁺-K⁺-ATPase -subunits in cardiac myocyte caveolae, suggesting the caveolar interactions of Na⁺-K⁺-ATPase with its signaling partners. Because both - and -subunits are required for ATPase activity, to clarify the status of the pumping function of caveolar Na⁺-K⁺-ATPase, we have examined the relative distribution of two major subunit isoforms (₁ and ₁) in caveolar and noncaveolar membranes of adult rat cardiac myocytes. When cell lysates treated with high salt (Na₂CO₃ or KCl) concentrations were fractionated by a standard density gradient procedure, the resulting light caveolar membranes contained 30–40% of ₁-subunits and 80–90% of ₁-subunits. Use of Na₂CO₃ was shown to inactivate Na⁺-K⁺-ATPase; however, caveolar membranes obtained by the KCl procedure were not denatured and contained 75% of total myocyte Na⁺-K⁺-ATPase activity. Sealed isolated caveolae exhibited active Na⁺ transport. Confocal microscopy supported the presence of ,-subunits in caveolae, and immunoprecipitation showed the association of the subunits with caveolin oligomers. The findings indicate that cardiac caveolar inpocketings are the primary portals for active Na⁺-K⁺ fluxes, and the sites where the pumping and signaling functions of Na⁺-K⁺-ATPase are integrated. Preferential concentration of ₁-subunit in caveolae was cell specific; it was also noted in neonatal cardiac myocytes but not in fibroblasts and A7r5 cells. Uneven distributions of ₁ and ₁ in early and late endosomes of myocytes suggested different internalization routes of two subunits as a source of selective localization of active Na⁺-K⁺-ATPase in cardiac caveolae.

cardiac myocyte; caveolin; oligomer; ouabain; sodium pump

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