Nonhuman cells correctly sort and process the human lysosomal enzyme cathepsin D.

Cathepsin D, like most lysosomal enzymes, undergoes multiple proteolytic cleavages during its lifetime. Although the significance of the earliest cleavages of cathepsin D is apparent (loss of the NH2-terminal signal peptide and activation peptide), functions of the two later cleavages are not understood and do not occur in all species. To examine these later events, a cDNA coding for human cathepsin D, which is normally processed to a two-chain form, was isolated and then expressed in mammalian cells from species which do not process the enzyme to the two-chain form. Analysis of the expressed human cathepsin D demonstrated proteolytic processing identical with that seen in normal human fibroblasts. Since processing to the two-chain form of the enzyme occurs in the lysosome, these studies revealed that the human cathepsin D was correctly sorted. The data also indicated that the sorting mechanism was conserved between diverse species and that late proteolytic processing in a variety of species was not determined by the presence or absence of the processing enzymes in the cell.