Membrane topology of NHE3. Epitopes within the carboxyl-terminal hydrophilic domain are exoplasmic.

Experimental data indicate that the relatively hydrophilic carboxyl-terminal domains of Na+-H+ exchangers mediate the regulation of transporter activity through interactions with cytoskeletal effectors. It has therefore been assumed that this entire domain lies on the cytoplasmic surface of the plasma membrane. The purpose of the present study was to determine the membrane orientation of the COOH-terminal 131 amino acids of Na+-H+ exchanger isoform NHE3 by use of three monoclonal antibodies that recognize at least two distinct epitopes within this region. Enzyme-linked immunosorbent assay studies demonstrated binding of these monoclonal antibodies (mAbs) to intact right-side-out renal brush border membrane vesicles in the absence of detergent. Moreover, when coupled to an affinity matrix to isolate membrane vesicles, the anti-NHE3 mAbs bound structures that were morphologically identical to intact microvilli. To confirm the identity of the exoplasmic antigen bound by the antibodies, immunoprecipitation studies were performed. Intact right-side-out brush border membrane vesicles were incubated with the mAbs in the absence of detergent. The membranes were pelleted, supernatant with unbound antibody was removed, the pellet was solubilized, and then immunoprecipitation with secondary antibody was performed. Immunoblot analysis indicated that NHE3 was precipitated after binding of the mAbs to intact membranes. Finally, the localization of the mAb epitopes was determined using high resolution immunocytochemistry. Ultrathin cryosections of rat kidney were labeled with the mAbs and bound antibody detected with the colloidal gold technique. Labeling was restricted to the exoplasmic surface of microvilli of the proximal tubule. Taken together, these findings indicate that epitopes within the carboxyl terminus of the Na+-H+ exchanger isoform NHE3 are exposed to the outside of the plasma membrane.