Disseminating disease of high grade gliomas is difficult to treat. We examined the therapeutic effect of intrathecal administration of mesenchymal stem cells transduced with herpes simplex virus-thymidine kinase gene (MSCtk) followed by systemic ganciclovir (GCV) administration in rat experimental leptomeningeal glioma model. First, to examine in vivo bystander effect, rats were intrathecally co-injected with a mixture of MSCtk and C6 cells and then, intraperitoneally administered with GCV or saline for 10days (co-injection model). Next, to examine the therapeutic effect of MSCtk/GCV therapy, MSCtk cells were intrathecally administered 1day after C6 injection and then, GCV or saline was administered (treatment model). GCV administration significantly reduced tumor size on day 14 both in the co-injection model (0.41+/-0.22 vs. 3.10+/-0.97mm(2), p<0.01) and in the treatment model (0.73+/-.29 vs. 2.84+/-0.82mm(2), p<0.01). Survival was also significantly prolonged in GCV group both in the co-injection model (29.2+/-3.3 vs. 18.8+/-0.8days, p<0.001) and in the treatment model (21.5+/-1.5 vs. 17.2+/-0.5days, p<0.001). This study provided a novel treatment strategy for leptomeningeal glioma dissemination using intrathecal MSCtk injection followed by systemic GCV administration.

In our previous rat study, an established intracranial C6 glioma was successfully treated using intratumoral injection of mesenchymal stem cells transduced with the herpes simplex virus-thymidine kinase gene (MSCtk) and systemic administration of ganciclovir (GCV). In the present study, effect of the "bystander effect" associated with the MSCtk/GCV strategy on the background normal brain tissues was examined in both in vitro and in vivo conditions. Rat MSCtk and C6 glioma cells were mixed and seeded on the rat primary neuron and glia co-culture in the medium containing GCV to generate the bystander effect and the numbers of background cells were counted on day 0, 2 and 7. Though the number of MSCtk and C6 cells decreased rapidly due to the bystander effect, most of the neurons and glias survived on day 7. Next, rats were intracranially injected with the MSCtk and C6 cells and then intraperitoneally administered with GCV for 7days. No remarkable histological abnormality including apoptosis was observed in the background brain tissues near the injection site. The present study has demonstrated that the tumoricidal bystander effect does not injure the background normal brain tissue significantly and that the suicide gene therapies are sufficiently safe.