Phosphatidylinositol glycan (PI-G) anchored membrane proteins. Amino acid requirements adjacent to the site of cleavage and PI-G attachment in the COOH-terminal signal peptide.

Abstract

Secreted proteins are processed from a nascent form that contains an NH2-terminal signal peptide. During processing, the latter is cleaved by a specific NH2-terminal signal peptidase. The nascent form of phosphatidylinositol glycan (PI-G) tailed proteins contain both an NH2- and a COOH-terminal signal peptide. The two signal peptides have much in common, such as size and hydrophobicity. The COOH-terminal peptide is also cleaved during processing. We propose that the amino acid in a nascent protein that ultimately combines with the PI-G moiety be designated the omega site. Amino acids adjacent and COOH-terminal to the omega site would then be omega + 1, omega + 2, etc. In previous studies, we showed that allowable substitutions at the omega site of an engineered form of placental alkaline phosphatase (miniPLAP) are limited to 6 small amino acids. In the present study, mutations were made at the omega + 1 and omega + 2 sites. At the omega + 1 site, processing to varying degrees was observed with 8 of the 9 amino acids substituted for alanine, the normal constituent. Only the proline mutant showed no processing. By contrast, the only substituents permitted at the omega + 2 site were glycine and alanine, with only trace activity observed with serine and cysteine. Thus, just as there is a -1, -3 rule for predicting cleavage by NH2-terminal signal peptidase, there appears to be a comparable omega, omega + 2 rule for predicting cleavage/PI-G addition by COOH-terminal signal transamidase.