Subcellular distribution and immunocytochemical localization of Na,K-ATPase subunit isoforms in human skeletal muscle

Abstract

The expression of Na,K-ATPase isoforms was investigated in human skeletal muscle membranes isolated by subcellular fractionation. The α1, α2, α3 and β1 subunits were detectable in membranes prepared from the human soleus muscle. The α1 subunit was largely detected in a fraction enriched with plasma membranes (PM), its abundance in an Intracellular membrane fraction (IM) accounted for only 4% of that in the PM fraction. No α1 subunits were detected in membranes of sarcoplasmic reticulum (SR) origin. The PM and IM fractions were enriched with α2 subunits which were less abundant in the SR-enriched fraction. The abundance of α2 molecules within the IM fraction was about 75% of that in the PM fraction when the total protein content for the two fractions was taken into account. Immuno-cytochemical studies confirmed the localization of the α1 subunit to the muscle cell surface. The α2 subunit was also found to be present in the cell surface but the observation that α2 immuno-fluorescence was diffusely dispersed throughout the muscle fibre indicated that it was also present intracellularly, consistent with its biochemical localization in the PM and IM membrane fractions. The α3 subunit was detected largely in the PM fraction but the lack of good antibodies to this isoform precluded an analysis of its immunocytochemical localization. The β1 subunit was enriched in the PM fraction but was also detected to a modest extent in the IM. A polyclonal anti-β2 antibody, which reacted positively with both human brain microsomes and rat skeletal muscle membranes, revealed that human skeletal muscles contained no immunoreactive β2 subunits. Our results indicate that the human soleus expresses the α1 and α2 (and possibly the α3) subunits of the Na,K-ATPase and that the activity of these isoforms must be supported by the β1 subunit in this muscle.