Human Erythrocyte Membrane Acid Proteinase (EMAP): Sidedness and Relation to Cathepsin D

Abstract

An acid proteinase purified from human erythrocyte membranes (Yamamoto, K. & Marchesi, V.T. (1984) Biochim. Biophys. Acta 790, 208–218), now termed “EMAP,” was further characterized with respect to its localization and relation to cathepsin D. The membrane-associated form of EMAP was shown to be latent by demonstrating that no activity was detectable in both resealed (right-side-out) ghosts and inside-out vesicles in the absence of detergents. The enzyme associated with the inside-out vesicles was unstable when exposured to acidic pH between 4.0 and 4.5, whereas the enzyme associated with the resealed ghosts was stable in the wide pH range of 3.7 to 9.0. Tryptic digestion produced the loss of activity for the enzyme associated with the inside-out vesicles but not the resealed ghosts. The antibody to rat spleen cathepsin D, which cross-reacted weakly but detectably with EMAP, selectively bound to the inside-out vesicles. These results indicate the location of EMAP on the inner surface of the membranes. Comparison of a number of enzymatic properties of EMAP with rat cathepsin D showed significant differences between these two enzymes. EMAP was less stable in the pH range of 3.5 to 6.0 than cathepsin D. The enzymes were distinguished from each other by differences in their elution profiles on DEAE-Sephacel and chromatofocusing columns and by differences in the extent of inhibition by a few specific inhibitors. Both enzymes revealed significant differences in the amino acid composition and specific activity towards bovine hemoglobin. The immunological relationship between these two enzymes is discussed.