An integrase facilitates long-lasting foreign gene expression In Vivo in mouse spermatogenic cells

The objective of the present study was to attain long-lasting foreign gene expression in vivo in spermatogenic cells in the mouse testis for establishing spermatogenic-cell mediated gene transformation. Prior to in vivo gene transfer, surgical cryptorchidism was performed by retaining the testis into the abdominal cavity for 1 month to remove differentiated spermatogenic cells. Subsequently, in vivo gene transfer was conducted by electroporation with a lacZ reporter gene in combination with a retroviral integrase gene, and the testis was descended immediately to the scrotum to recover from the cryptorchidism, and restart spermatogenesis. At 1 month post-transfection in vivo, lacZ gene expression was detected in some spermatocyte-like cells in seminiferous tubules of the mouse testis. However, the recovery period of 1 month appeared to be too short, since no elongated and fully differentiated spermatids were found. At 2 months post-transfection, fully differentiated spermatogenic cells expressing the lacZ gene, albeit at low frequency, were detected when the integrase gene was co-transfected, while virtually no lacZ-positive cells were found in the absence of the integrase gene. It was concluded, therefore, that stable transformation of spermatogenic cells in vivo would be facilitated by integrase gene co-transfection.