Interactions of the exchange inhibitory peptide with Na-Ca exchange in bovine cardiac sarcolemmal vesicles and ferret red cells

Abstract

The Na-Ca exchange inhibitory peptide (XIP), which corresponds to residues 251-270 of the Na-Ca exchange protein, specifically inhibits exchange activity (Li, Z., Nicoll, D. A, Collins, A., Hilgemann, D. W., Filoteo, A. G., Penniston, J. T., Weiss, J. N., Tomich, J. M., and Philipson, K. D. (1991) J. Biol. Chem. 266, 1014-1020). We have found that XIP decreased Na+i-dependent Ca2+ uptake to 46 and 20% of control in mixed and inside-out bovine sarcolemmal (SL) vesicles, respectively, and to 22% of control in ferret red cell vesicles. XIP inhibited uptake in bovine SL vesicles after proteolytic digestion. XIP also inhibited Na+o-dependent Ca2+ efflux in bovine SL vesicles but did not inhibit Ca2+ uptake in reconstituted proteoliposomes. Extracellular XIP did not inhibit Ca2+ uptake into intact ferret red cells. Inhibition of uptake in bovine SL vesicles was reduced as the ionic strength was increased. 125I-labeled XIP (1 microM) was cross-linked to proteins of bovine SL vesicles, ferret red cell vesicles, and intact ferret red cells. Labeling of bands at approximately 75, 120, and 220 kDa (in bovine SL vesicles) and bands at 55 and 85 kDa (in ferret red cell vesicles) was detected. No cross-linking was detected in intact ferret red cells. We conclude that XIP inhibition is insensitive to proteolytic digestion and is partially dependent on charge association and conformation of the exchanger. XIP binds to and interacts with the intracellular side of the Na-Ca exchanger.