The colonic H+,K+-ATPase functions as a Na+-dependent K+(NH4+)-ATPase in apical membranes from rat distal colon.

Recent studies have suggested that the colonic H+,K+-ATPase (HKalpha2) can secrete either Na+ or H+ in exchange for K+. If correct, this view would indicate that the transporter could function as either a Na+ or a H+ pump. To investigate this possibility a series of experiments was performed using apical membranes from rat colon which were enriched in colonic H+,K+-ATPase protein. An antibody specific for HKalpha2 was employed to determine whether HKalpha2 functions under physiological conditions as a Na+-dependent or Na+-independent K+-ATPase in this same membrane fraction. K+-ATPase activity was measured as [gamma-32P]ATP hydrolysis. The Na+-dependent K+-ATPase accounted for approximately 80% of overall K+-ATPase activity and was characterized by insensitivity to Sch-28080 but partial sensitivity to ouabain. The Na+-independent K+-ATPase activity was insensitive to both Sch-28080 and ouabain. Both types of K+-ATPase activity substituted NH4+ for K+ in a similar manner. Furthermore, our results demonstrate that when incubated with native distal colon membranes, the blocking antibody inhibited dramatically Na+-dependent K+-ATPase activity. Therefore, these data demonstrate that HKalpha2 can function in native distal colon apical membranes as a Na+-dependent K+-ATPase. Elucidation of the role of the pump as a transporter of Na+ versus H+ or NH4+ versus K+ in vivo will require additional studies.