Na,K-ATPase: Isoform structure, function, and expression

Age-dependent changes in the expression of Na,K-ATPase a1and a3-mRNAs were analyzed in the rat cerebellum by in situ hybridization. In young rats, a1-mRNA showed prominent labeling in the granular layer (GL) with moderate fine distribution in the molecular layer (ML), Purkinje cell layer (PCL), and

The Na,K-ATPase plays an active role in glial physiology, contributing to K+ uptake as well as to the Na+ gradients used by other membrane carriers. There are multiple isoforms of Na,K-ATPase alpha and beta subunits, and different combinations result in different affinities for Na+ and K+. Isoform c

## Abstract Inhibition of rat neuronal Na^+^/K^+^‐ATPase __α__3 isoform at low (100 nM) ouabain concentration led to activation of MAP kinase cascade via PKC and PIP~3~ kinase. In contrast to ouabain‐sensitive __α__3 isoform of Na^+^/K^+^‐ATPase, an ouabain‐resistant __α__1 isoform (inhibition with

## Abstract The two cell types in the lens, epithelium and fiber, have a very different specific activity of Na,K‐ATPase; activity is much higher in the epithelium. However, judged by Western blot, fibers and epithelium express a similar amount of both Na,K‐ATPase α and β subunit proteins. Na,K‐ATP