Unusual phosphorylation sequence in the gpIV (gI) component of the varicella-zoster virus gpI-gpIV glycoprotein complex (VZV gE-gI complex)

Abstract

Varicella-zoster virus (VZV) glycoprotein gpIV, to be renamed VZV gI, forms a heterodimer with glycoprotein gpI (gE) which functions as an Fc receptor in virus-infected cells. Like VZV gpI (gE), this viral glycoprotein is phosphorylated in cell culture during biosynthesis. In this report, we investigated the nature and specificity of the phosphorylation event involving VZV gpIV (gI). Phosphoamino acid analysis indicated that gpIV (gI) was modified mainly on serine residues. To identify the precise location of the phosphorylation site on the 64-kDa protein, a step-by-step mutagenesis procedures was followed. Initially a tailless mutant was generated, and this truncated product was no longer phosphorylated. Thereafter, point mutations were made within the cytoplasmic tail of gpIV (gI) at potential phosphorylation sites. The phosphorylation site was localized to the following sequence: Ser-Pro-Pro (amino acids 343 to 345). Examination of the point mutants established that serine 343 in the cytoplasmic tail was the major phosphoacceptor. In addition, we found that the prolines located immediately to the C terminus of serine 343 were an integral part of the kinase recognition sequence. This site was located immediately N terminal to a predicted beta-turn secondary structure. By comparison with known substrate consensus sequences for various protein kinases, these data suggested that the phosphorylation of VZV gpIV (gI) was catalyzed by a proline-directed protein kinase. Computer homology analysis of other alphaherpesviruses demonstrated that a similar potential phosphorylation site was highly conserved in the cytoplasmic tails of herpes simplex virus type 1 gI, equine herpesvirus type 1 gI, and pseudorabies virus gp63.