Mechanisms of loss of foreign gene expression in recombinant vesicular stomatitis viruses.

Abstract

We investigated the stability and mechanisms of loss of foreign gene expression in two recombinant vesicular stomatitis viruses (VSVs). A recombinant expressing the cellular CD4 protein exhibited remarkable stability of foreign gene expression. However, after 26 sequential passages, a mutant no longer expressing CD4 was recovered from the virus stock. Sequencing of the CD4 coding region in this mutant revealed a single nucleotide deletion causing a frameshift and termination of protein synthesis. A second VSV recombinant expressing the measles virus F protein grew poorly and exhibited extreme instability of expression of the F protein. Expression of F protein was lost rapidly through mutations of the upstream transcription termination site from (3')AUAC(5') to (3')AUAU(5'), as well as lengthening of the subsequent U(7) tract that is the template for poly(A) addition to VSV G mRNA. Such mutations resulted in fusion of the F mRNA to the 3' end of the G mRNA, making the F protein translation initiation codon inaccessible. We suggest that the VSV polymerase is error prone during replication of the U(7) tract, providing a rapid means for complete elimination of expression of proteins that are toxic to the virus life cycle.