The herpes simplex virus 1 ORF UL41 encodes a protein (virion host shutoff or vhs) associated with selective degradation of mRNA early in infection. Some mRNAs, exemplified by GAPDH or -actin mRNAs, are degraded rapidly. Others, for example IEX-1 mRNA, are degraded in two stages: whereas the 3 domain disappears rapidly, a large 5 domain fragment of the mRNA lingers for several hours. Still a third, exemplified by tristetraprolin mRNA, is not degraded, allowing its protein product to accumulate in infected cells. Here we report the following: (i) a GST-vhs protein produced in Escherichia coli, solubilized and purified to homogeneity acts as bona fide endoribonuclease when tested on in vitro transcribed IEX-1 probes. A GST-vhs protein in which three key vhs amino acids were replaced with alanines, solubilized and purified by the same protocol, had no enzymatic activity. (ii) The number of fragments generated by cleavage of a truncated IEX-1 RNA by vhs appears to be small; the cleavage sites are centered at or near the AU-rich elements located at the 3 untranslated region of the mRNA. A truncated RNA containing only the IEX-1 coding domain was cleaved numerous times. (iii) In cells infected at high multiplicity and exposed to a large number of particles per cell, the vhs protein accumulated within 3 h after infection, in small uniform cytoplasmic granules raising the possibility that vhs colocalizes with tristerapolin, a protein induced after infection, in structures involved in degradation of RNA.endoribonuclease ͉ mRNA ͉ virion host shutoff O ne of the key early events in the replication of herpes simplex virus 1 (HSV-1) is the shutoff of host macromolecular metabolism (1). The shutoff of protein synthesis was mapped to a gene designated U L 41, and the protein product was designated virion host shutoff or vhs (2, 3). During productive infection, copies of vhs protein, which enter the cell as components of the virion tegument, cause the degradation of preexisting and newly transcribed mRNAs during the first few hours after infection (2-4). After the onset of viral transcription, vhs also accelerates the turnover of viral mRNAs, facilitating the sequential expression of different classes of viral genes (3, 5, 6). At later times after infection, newly made vhs is sequestered and rendered inactive by another viral protein, VP16 also known as ␣-trans inducing factor, the product of U L 48 (7). The vast literature of the past decade, reviewed in ref. 8, speaks eloquently of the importance of vhs in the biology of HSV. Some of the key studies, relevant to this report, are as follows: (i) vhs degrades mRNA in the absence of other viral proteins, as shown by inhibition of reporter gene expression in mammalian cells transiently cotransfected with a vhs expression vector (9, 10). (ii) vhs, along with homologues from other alphaherpesviruses, shares amino acid sequence similarity with a larger family of human, yeast, bacterial and phage nucleases and mutations of highly conserved residues, known to be essential for the cat...
