In vivo transgene activation from an HSV-based gene therapy vector by GAL4:VP16

Herpes simplex virus type 1 (HSV-1) has many attributes which make it attractive as a base for the development of vectors for the delivery of transgenes to the nervous system. In this report we describe the adaptation of the bipartite GAL4:VP16 transactivation system to replication-deficient HSV vectors. We demonstrate that the recombinant transactivator GAL4:VP16 produced from a replication-deficient HSV vector is capable of activating transcription of a reporter gene using a synthetic promoter consisting of GAL4 binding sites and the TATA box of the adenovirus E1b gene. Activation by vector produced GAL:VP16 was demonstrated with the recombinant promoter/reporter gene cassette in the infected cell chromosome, in the genome of a second virus infecting the same cells and with a single vector engineered to produce both GAL4:VP16 transactivator and to contain a recombinant promoter/reporter gene cassette. Furthermore, the double recombinant virus also produced the reporter gene product i...