Frances C. Purves

Identification of the herpes simplex virus protein kinase as the product of viral gene US3

Previous work has shown that a novel protein kinase is induced after infection of cultured cells with herpes simplex virus type 1 (HSV-1). Separately, it has been reported that the protein encoded by HSV-1 gene US3 shows similarity in its amino acid sequence to members of the protein kinase family of eukaryotes. We have investigated the possibility that these two observations are connected by preparing an antiserum to a synthetic oligopeptide corresponding to the carboxy-terminal eight amino acids of the US3 protein. This antiserum reacted on immunoblots with a polypeptide of apparent molecular weight 68,000 from extracts of cells which had been infected with HSV-1. The antiserum also reacted strongly with a 68,000 molecular weight species from a preparation of the novel HSV-1 protein kinase which had been extensively purified and resolved from other protein kinases. In addition, the purified preparation phosphorylated a protein species, also of 68,000 apparent molecular weight, when incubated with [gamma-32P]ATP. These data are consistent with gene US3 encoding the novel protein kinase induced after infection of cells with HSV-1.

The substrate specificity of the protein kinase induced in cells infected with herpesviruses: Studies with synthetic substatres indicate structural requirements distinct from other protein kinases

Synthetic peptides have been used to investigate the site specificity of highly purified virus induced protein kinase, a recently discovered protein kinase isolated from cells infected with alpha-herpesviruses. The enzyme from cells infected with pseudorabies virus can catalyse the phosphorylation of both seryl and threonyl residues in peptides that contain several arginyl residues on the amino-terminal side of the target residue. At least two arginyl residues are required, and the best substrates examined contain four to six such residues. Virus induced protein kinase differs in site specificity from protein kinase C in being unable to phosphorylate peptides in which multiple arginyl residues are on the carboxyl-terminal side of the target residue, or to phosphorylate peptides in which the arginyl residues are replaced by ornithyl residues. Virus induced protein kinase from cells infected with herpes simplex virus type I had similar substrate preferences to virus induced protein kinase from cells infected with pseudorabies virus. Although virus induced protein kinase and the cyclic AMP-dependent protein kinase have several peptide substrates in common, their relative preferences for these (as indicated by Km values) were found to be very different.

Characteristics of the Induction of a New Protein Kinase in Cells Infected with Herpesviruses

The appearance of a recently described protein kinase activity (virus-induced protein kinase, ViPK) has been studied during infection of hamster fibroblasts with pseudorabies virus or with herpes simplex virus type 1 (HSV-1). An enzyme activity with comparable catalytic properties was induced in both cases, and had broadly similar kinetics of appearance to that of the viral DNA polymerase. The amount of active ViPK detected depended on the multiplicity of infection, and no ViPK was induced after the viruses had been subjected to irradiation with u.v. light. When cells were infected with the tsK mutant of HSV-1, ViPK was induced at the permissive but not at the restrictive temperature. The ViPK preparations obtained from cells infected with each virus differed in chromatographic properties on anion-exchange and gel-permeation resins. These results indicate that expression of the viral genome is required for induction of ViPK. They suggest that the enzyme may be encoded by the viral genome, but do not provide proof of this.

The herpesvirus protein kinase: a new departure in protein phosphorylation?

Abstract A protein kinase discovered in cells infected with α-herpesviruses has recently been shown to be the product of an evolutionary conserved viral gene. We argue that, oncogenic retroviruses notwithstanding, this is the first authentic eukaryotic viral protein kinase; and consider whether this implies a novel function for protein phosphorylation.

Regulation of α and γ Gene Expression in Cells Infected with Herpes Simplex Viruses

Herpes simplex virus 1 (HSV-1) genes form three groups designated as α, β and γ, whose expression is coordinately regulated and sequentially ordered in a cascade fashion (Honess and Roizman, 1974, 1975). A unique feature of α gene expression is that these genes are induced by a protein previously described as virion protein No. 16 (VP16). The unique feature of the highly heterogeneous genes comprising the γ group is that the response elements in some of the genes examined to date appears to be in the 5α transcribed non coding domain. In this report we examine the regulation of α and γ genes of HSV-1.