trans processing of vaccinia virus core proteins

Abstract

The three major vaccinia virus (VV) virion proteins (4a, 4b, and 25K) are proteolytically matured from larger precursors (P4a, P4b, and P25K) during virus assembly. Within the precursors, Ala-Gly-X motifs have been noted at the putative processing sites, with cleavage apparently taking place between the Gly and X residues. To identify the sequence and/or structural parameters which are required to define an efficient cleavage site, a trans-processing assay system has been developed by tagging the carboxy terminus of the P25K polypeptide (precursor of 25K) with an octapeptide FLAG epitope, which can be specifically recognized by a monoclonal antibody. By using transient expression assays with cells coinfected with VV, the proteolytic processing of the chimeric gene product (P25K:FLAG) was monitored by immunoblotting procedures. The relationship between the P25K:FLAG precursor and the 25K:FLAG cleavage product was established by pulse-chase experiments. The in vivo cleavage of P25K:FLAG was inhibited by the drug rifampin, implying that the reaction was utilizing the same pathway as authentic VV core proteins. Moreover, the 25K:FLAG protein was found in association with mature virions in accord with the notion that cleavage occurs concomitantly with virion assembly. Site-directed mutagenesis of the Ala-Gly-Ala motif at residues 31 to 33 of the P25K:FLAG precursor to Ile-Asp-Ile blocked production of the 25K:FLAG product. The efficiency of 25K:FLAG production (33.71%) is, however, approximately only half of the production of 25K (63.98%) within VV-infected cells transfected with pL4R:FLAG. One explanation for the lower efficiency of 25K:FLAG production was suggested by the observation in the immunofluorescent-staining experiment that 25K:FLAG-related proteins were not specifically localized to the virus assembly factories (virosomes) within VV-infected cells, although virosome localization was prominent for P25K-related polypeptides. Since VV core protein proteolytic processing is believed to take place during virion maturation, only the P25K:FLAG which was assembled into immature virions could undergo proteolytic maturation. Furthermore during these experiments, a potential cleavage intermediate (25K') of P25K was identified. Amino acid residues 17 to 19 (Ala-Gly-Ser) of the P25K precursor were implicated as the intermediate cleavage site, since no 25K':FLAG product was produced from a mutant precursor in which the sequence was altered to Ile-Asp-Ile. Taken together, these results provide biochemical and genetic evidence to support the hypothesis that the Ala-Gly-X cleavage motif plays a critical role in VV virion protein proteolytic maturation.