The influence of beta subunit structure on the stability of Na+/K(+)-ATPase complexes and interaction with K+.

Heterologous expression of the beta subunit of H+/K(+)-ATPase (HK beta) with alpha subunits of Na+/K(+)-ATPase (NK alpha) in yeast leads to the formation of ouabain binding complexes, indicating assembly of the two subunits into active ion pumps (Eakle, K. A., Kim, K. S., Kabalin, M. A., and Farley, R. A. (1992) Proc. Natl. Acad. Sci. U. S. A. 89, 2834-2838). Complexes of NK alpha and HK beta are less sensitive to inhibition of ouabain binding by K+, suggesting that HK beta lowers the affinity of K+ binding sites. This effect is particularly pronounced when HK beta is combined with the alpha 3 isoform of NK alpha. In this case, titration with K+ yields a biphasic curve, suggesting that there are two nonequivalent sites for K+ binding. Attempts at purifying complexes formed with either alpha 1 + HK beta or alpha 3 + HK beta using SDS extraction of microsomal membranes resulted in the loss of ouabain binding. Controls show that alpha 1 + beta 1 and alpha 3 + beta 1 complexes still retain ouabain binding after SDS extraction under the same conditions. This suggests that the HK beta subunit forms a less stable complex with NK alpha subunits. We have created chimeric beta subunits comprised of the amino-terminal cytoplasmic and transmembrane regions of HK beta combined with the carboxyl-terminal extracellular region of Na+/K(+)-ATPase beta 1 (HN beta 1) and the complementary chimera with amino-terminal cytoplasmic and transmembrane regions of beta 1 combined with the carboxyl-terminal extracellular region of HK beta (NH beta 1). When NH beta 1 is combined with either alpha 1 or alpha 3, the complexes show profiles of K+ inhibition of ouabain binding that are very similar to HK beta combined with either alpha 1 or alpha 3. The data suggest that the extracellular region of HK beta is primarily responsible for the effect on apparent K+ affinity. When the HN beta 1 subunit is expressed with the alpha 3 subunit, less than 5% of the amount of ouabain binding complexes are formed compared with HN beta 1 + alpha 1. This observation suggests that the HN beta 1 subunit either assembles poorly or forms an unstable complex with alpha 3. After SDS extraction, complexes of alpha 1 + NH beta 1 and alpha 3 + NH beta 1 retain ouabain binding, while alpha 1 + HN beta 1 complexes are sensitive to SDS extraction.(ABSTRACT TRUNCATED AT 400 WORDS)

High-affinity ouabain binding by yeast cells expressing Na+, K(+)-ATPase alpha subunits and the gastric H+, K(+)-ATPase beta subunit.

Recently, a beta subunit for the rat gastric H+,K(+)-ATPase (HK beta), which is structurally similar to the beta subunit of Na+, K(+)-ATPase, has been cloned and characterized. Using heterologous expression in yeast, we have tested the specificity of beta subunit assembly with different isoforms of the alpha subunit of Na+, K(+)-ATPase. Coexpression in yeast cells of the HK beta with both the sheep alpha 1 subunit and the rat alpha 3 subunit isoforms of Na+, K(+)-ATPase (alpha 1 and alpha 3, respectively) leads to the appearance of high-affinity ouabain-binding sites in yeast membranes. These ouabain-binding sites (alpha 1 plus HK beta, alpha 3 plus HK beta) have a high affinity for ouabain (Kd, 5-10 nM) and are expressed at levels similar to those formed with the rat beta 1 subunit of Na+, K(+)-ATPase (beta 1) (alpha 1 plus beta 1 or alpha 3 plus beta 1). Potassium acts as a specific antagonist of ouabain binding by alpha 1 plus HK beta and alpha 3 plus HK beta just like sodium pumps formed with beta 1. Sodium pumps formed with the HK beta, however, show quantitative differences in their affinity for ouabain and in the antagonism of K+ for ouabain binding. These data suggest that the structure of the beta subunit may play a role in sodium pump function.