Viral and Cellular Insulators Promote Sustained HSV Vector Mediated Transgene Expression in Brain.

Abstract

We have developed a gene therapy platform based on non-toxic, high-capacity replication defective (rd) herpes simplex virus type 1 (HSV-1) vectors. We previously determined that transgene expression from rdHSV-1 vectors requires strategic placement of insulators-small DNA elements that overcome the host's epigenetic silencing of foreign DNA-to maintain transgenes in euchromatin regions. Transgene expression was rescued by replacing either the latency associated transcript (LAT) or the the infected cell protein 4 (ICP4) gene with the transgene cassette close to naturally occurring viral insulators. The ICP4 locus was more permissive for transgene expression than the LAT locus in neurons in vitro. Following in vivo brain delivery, transgene expression from both loci lasted for at least 4 months. However, the level of expression tended to decline over time. To enhance transgene expression, we designed a novel insulator environment by combining cellular insulators with the resident viral insulators. In combination, these elements provided significantly higher levels of transgene expression in the brain than the viral insulators alone, lasting for at least 11.7 months. This new cassette design extends transgene activity in neurons compared to previous designs and holds promise for gene therapy applications in treating brain disorders.