Abstract
Helper-dependent HSV vectors (commonly known as HSV amplicons) are able to transfer genes into both dividing and quiescent cells, and thus have the potential to be widely used as vectors in physiological studies and gene therapy. Historically, these vectors were produced by superinfection with a helper virus that furnished all the trans-acting functions required for amplification and packaging of vector genomes into HSV-1 particles. In these systems, however, large amounts of potentially harmful helper virus are present in the vector stocks, thus restricting the use of these vectors. New helper virus-free packaging systems have been developed that utilize transfection of helper functions rather than infection and thus produce safer vector stocks. The vector titers as well as the amounts of particles obtained with these systems are, however, limited by the impossibility to reamplify the vector stocks. In this article, we present a novel system for producing large amounts of high-titer amplicon vector with low contamination by helper viruses. This system is based on the use of the Cre-loxP recombination system, which allows efficient deletion of the packaging signal of an HSV-1 recombinant helper virus (HSV-1-LaL) on Cre-expressing cells (TE-CRE30).
Get full access to this article
View all access options for this article.