Characterization of the enzymatic properties of human RNPEPL1/aminopeptidase Z.

Abstract

It is now evident that the M1 family of aminopeptidases play important roles in many pathophysiological processes. Among them, the enzymatic properties of arginyl aminopeptidase-like 1 (RNPEPL1) are characterized only by its truncated form. No peptide substrate has been identified. To characterize the enzymatic properties of RNPEPL1 in more detail, the full-length protein was expressed in Escherichia coli and purified to homogeneity. The full-length RNPEPL1 showed rather restricted substrate specificity and basic amino acid preference towards synthetic substrates, which was different from the previously reported specificity characterized by the truncated form. Searching for peptide substrates, we found that several peptides, such as Met-enkephalin and kallidin, were cleaved. RNPEPL1 cleaved bradykinin to de-[Arg]-bradykinin despite the presence of proline at the P2'-position. The enzyme cleaved Met-enkephalin but not dynorphin A1-17. Similar to aminopeptidase B, the full-length RNPEPL1 showed basic amino acid preference towards both synthetic and peptide substrates. In addition to the unusual cleavage of bradykinin, this enzyme shows chain length-dependent cleavage of peptide substrates sharing N-terminal amino acid sequence. This is the first study to report the enzymatic properties of the full-length human RNPEPL1 as an aminopeptidase enzyme.