Purification and microsequencing of the intra-acrosomal protein SP-10. Evidence that SP-10 heterogeneity results from endoproteolytic processes

Abstract

The human sperm antigen SP-10 has been shown to be a testis-specific, intra-acrosomal protein that is associated with the membranes and matrix of the acrosomal vesicle. Sperm extracts, analyzed on Western blots with a monoclonal antibody to SP-10, have shown heterogeneity of SP-10 peptides ranging from 17.5-34 kDa. Although the entire SP-10 amino acid sequence of 265 amino acids (28.3 kDa) has been deduced from sequencing SP-10 cDNAs, the nature of multiple SP-10 peptide bands is incompletely understood. In this study we developed a three-step purification method for SP-10 peptides using monoclonal antibody affinity chromatography, reverse-phase HPLC, and preparative gel electrophoresis. Eight SP-10 peptides separated by this protocol and sequenced using Edman degradation showed amino termini that corresponded to regions on the deduced SP-10 amino acid sequence. Peptides with progressively lower apparent mass aligned further toward the carboxy terminus. On the basis of putative cleavage sites on the SP-10 sequence, endoproteases that act at five different peptide bonds are predicted to cleave SP-10; these hydrolyze following arginine (a trypsin-like protease, possibly acrosin), and following serine, proline, glycine, and glutamic acid (previously undescribed intra-acrosomal protease specificities). The present studies 1) provide a purification method for SP-10 peptides; 2) confirm that the SP-10 cDNAs previously sequenced encode authentic SP-10; and 3) yield indirect evidence that endoproteases act to contribute to SP-10 heterogeneity.