Proliferation and tumorigenity of murine hepatoma cells irradiated with polychromatic visible and infrared light

In experiments in vitro, the effects of polychromatic visible (VIS) light combined with polychromatic infrared light (VIS-IR, 480–3400 nm) and the effects of the entire spectrum of VIS radiation (385–750 nm) on viability and proliferative activity of the murine hepatoma cells MH22a were studied. In experiments in vivo, changes in the tumorigenic properties of cells MH22a were studied after the same kinds of light exposure. It was shown that irradiation of hepatoma cells with two kinds of polychromatic light at a wide range of doses (4.8–38.4 J/cm²) did not lead to an increase in the number of dead cells for 24–72 h of cultivation and did not cause deceleration of the hepatoma cell proliferation; moreover, the VIS-IR light at a dose of 4.8 J/cm² and the VIS light at a dose 38.4 J/cm² even promoted more intense cell proliferation after 24 h. In cells irradiated with VIS-IR and VIS light, the proliferation index rose by 1.6 and 1.4 times, respectively, and the time of the cells’ number doubling decreased as compared with control. Studying the tumorigenic properties of irradiated tumor cells has shown that, for 30 days after transplantation to syngenic mice C3HA of hepatoma cells 24 h after their irradiation with VIS-IR light at a dose of 4.8 J/cm², the tumor volume decreased significantly (2.6–4.1 times) at all periods of observation, while the incidence of tumor formation decreased, whereas the survival of the tumor-bearing mice did not change. Transplantation of cells irradiated with the same light at a dose of 9.6 J/cm² did not lead to significant changes in the tumor volume, the tumor formation incidence, and animal survival. The main contribution to the antitumor effect of VIS-IR light seems to be made by the VIS component, as transplantation into mice of cells irradiated with VIS light alone at a dose of 38.4 J/cm² also stimulating proliferation of hepatoma cells in vitro resulted in a decrease of their tumorigenic properties. However, the IR component in the combined VIS-IR radiation enhanced the antitumor effect of the VIS light; as a result, it was manifested after use of doses eight times lower (4.8 J/cm²) than in the case of VIS light alone (38.4 J/cm²). Mechanisms of the decrease of tumorigenic properties of hepatoma cells after irradiation with polychromatic light at doses stimulating their proliferation in vitro are studied.