CBMS-08 INVESTIGATION FOR NICOTINIC EFFECTS ON STEM CELL’S PROPERTY IN HSV-TK/GCV GENE THERAPY

BACKGROUND: Herpes simplex virus-thymidine kinase/ganciclovir (HSV-tk/GCV) system is one of feasible therapeutic strategies for defeating malignant gliomas. Stem cells with intrinsic tumor tropism are used for suicide gene vehicles, which make this therapy further realistic. Nicotine is known to affect cellular migration capacity in variety types of cells but whether nicotine impacts on stem cells’ migration capacity to gliomas is not scrutinized. In this research, we investigated nicotinic impact on stem cells’ properties including tumor tropism and gap junctional intercellular communication (GJIC), which is crucial to this therapeutic strategy. METHODS: Mouse induced pluripotent stem cell (iPSC)-derived neural stem cells (miPS-NSCs) and human dental pulp mesenchymal stem cells (hDPSCs) were used. Nicotine cytotoxicity for 24 hours was evaluated by MTT assay for stem cells and glioma cells; GS-9L and C6 (rat), GL261 (mouse), U251 and U87 (human). Tumor tropism to glioma-conditioned medium (CM) with or without non-toxic nicotine concentrations was assessed using Matrigel Invasion Chamber. Nicotine effect on GJIC was assessed with scrape loading/dye transfer assay (SL/DT assay) for co-culture of stem cells and glioma cells (stem cell/glioma cell) or parachute assay for glioma cells alone using high-content analysis. RESULTS: MTT assay revealed 1 μM of nicotine, equivalent to serum nicotine concentration in habitual smoking, is the maximum safe concentration for stem cells and glioma cells. Tumor tropism (miPS-NSCs to GL261-CM, hDPSCs to U251- or U87-CM) and GJIC of co-culture of stem cells and glioma cells (miPS-NSC/GL261, hDPSC/U251) or glioma cells alone (GS-9L, C6, GL261 and U251) were not affected by 1 μM of nicotine. CONCLUSIONS: Physiological nicotine presence did not affect (1) stem cell’s tumor tropism to gliomas and (2) GJIC between stem cells and glioma cells or within glioma cells. HSV-tk/GCV therapy may retain its therapeutic efficacy against gliomas even under physiological nicotine concentrations.