The repressing and enhancing functions of the herpes simplex virus regulatory protein ICP27 map to C-terminal regions and are required to modulate viral gene expression very early in infection.

The phenotypic properties of ICP27 temperature-sensitive and deletion mutants and the results of transient expression assays have demonstrated that ICP27 has a modulatory effect on viral gene expression induced by ICPs 0 and 4. In order to identify the regions of the ICP27 molecule that are responsible for its enhancing and repressing activities, 10 nonsense and 3 in-frame deletion mutations were introduced into the coding sequence of the cloned ICP27 gene. These mutant genes were tested in transient expression assays for their ability to complement an ICP27 null mutant and to enhance and repress expression from a spectrum of herpes simplex virus type 1 promoters in reporter CAT genes when expression was induced by ICP0 or ICP4. The results of assays with cloned mutant genes demonstrate that the ICP27 polypeptide contains two regions, located between amino acid residues 327 and 407 and residues 465 and 511, that contribute to its repressing activity. The amino acid region located between the two repressing regions (residues 407 to 465) is able to interfere with ICP27 repressing activity. None of the mutant genes exhibited efficient enhancing activity for any of the herpes simplex type 1 promoters tested, demonstrating that amino acids comprising the carboxy-terminal half of the ICP27 molecule, including the terminal phenylalanine residue, are required for wild-type enhancement as well as for efficient complementation of an ICP27 null mutant. Phenotypic characterization of an in-frame deletion mutant, vd3, and a previously isolated null mutant, 5dl 1.2 (A. M. McCarthy, L. and P. A. Schaffer, J. Virol. 63:18-27, 1989), demonstrated that ICP27 is required to induce the expression of all classes of viral genes very early in infection and confirmed the requirement for ICP27 later in infection (i) to repress early gene expression, (ii) to induce wild-type levels of delayed-early or gamma 1 gene expression, and (iii) to induce true late or gamma 2 gene expression. The vd3 mutant, which specifies an ICP27 peptide lacking the repressing region between residues 327 and 407, is able to (i) repress early gene expression, consistent with the repressing ability of the d3 mutation in transient expression assays, (ii) induce the synthesis of significant but reduced levels of delayed-early (gamma 1) proteins and no gamma 2 proteins (thus vd3 exhibits a late protein phenotype intermediate between that of the wild-type virus and 5dl 1.2), and (iii) confer altered electrophoretic mobility on ICP4, demonstrating a role for ICP27 in the posttranslational modification of this essential regulatory protein.(ABSTRACT TRUNCATED AT 250 WORDS)