Abstract
ICP0 is a regulatory protein that plays a critical role in the replication-latency balance of herpes simplex virus (HSV). Absence of ICP0 renders HSV prone to establish quiescent infections, and thus cellular repressor(s) are believed to silence HSV mRNA synthesis when ICP0 fails to accumulate. To date, an ICP0-antagonized repressor has not been identified that restricts HSV mRNA synthesis by more than 2-fold. We report the unexpected discovery that HSV's major transcriptional regulator, ICP4, meets the criteria of a bona fide ICP0-antagonized repressor of viral mRNA synthesis. Our study began when we noted a repressive activity that restricted ICP0 mRNA synthesis by up to 30-fold in the absence of ICP0. When ICP0 accumulated, the repressor only restricted ICP0 mRNA synthesis by 3-fold. ICP4 proved to be necessary and sufficient to repress ICP0 mRNA synthesis, and did so in an ICP4-binding-site-dependent manner. ICP4 co-immunoprecipitated with FLAG-tagged ICP0; thus, a physical interaction likely explains how ICP0 antagonizes ICP4's capacity to silence the ICP0 gene. These findings suggest that ICP0 mRNA synthesis is differentially regulated in HSV-infected cells by the virus-encoded repressor activity embedded in ICP4, and a virus-encoded antirepressor, ICP0. Bacteriophage λ relies on a similar repression-antirepression regulatory scheme to “decide” whether a given infection will be productive or silent. Therefore, our findings appear to add to the growing list of inexplicable similarities that point to a common evolutionary ancestry between the herpesviruses and tailed bacteriophage.
Highlights
During productive replication,75 proteins are synthesized from the herpes simplex virus (HSV) genome in a temporal cascade [1]
With the aid of these new reagents, we report the identification of a protein that satisfied four empirical criteria that should be expected of an infected cell proteins 0 (ICP0)-antagonized repressor of HSV mRNA transcription; the identified protein 1. was required to observe repression of ICP0 mRNA synthesis in HSV-infected cells; 2. was sufficient to repress ICP0 mRNA synthesis in the absence of ICP0; 3. was unable to silence ICP0 mRNA synthesis when ICP0 accumulated; and 4. physically interacted with ICP0
HSV-1 recombinant viruses carrying a green fluorescent protein (GFP) coding sequence in each copy of the ICP0 gene were constructed for the purpose of studying how the ICP0 gene is regulated
Summary
During productive replication, ,75 proteins are synthesized from the herpes simplex virus (HSV) genome in a temporal cascade [1]. Virion protein 16 (VP16) in the tegument of HSV virions forms a complex with the cellular transcription factor Oct 1 to initiate a cascade of viral gene expression [2,3]. Five immediate-early (IE) genes are initially induced based on the presence of VP16-responsive elements in their promoters [4]. Viral IE proteins such as infected cell proteins 0 (ICP0) and 4 (ICP4) are believed to play a key role in activating viral mRNA synthesis, and promoting the synthesis of ,70 early (E) and late (L) proteins that replicate and package HSV genomes into new virions. HSV ICP02 viruses replicate to nearly wild-type levels when cells are inoculated with more than
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