PHOTOINACTIVATION OF CHINESE HAMSTER CELLS BY HEMATOPORPHYRIN DERIVATIVE AND RED LIGHT

Abstract

Abstract— The use of hematoporphyrin derivative (HpD) has previously been demonstrated to be beneficial in clinical cancer therapy. This paper describes cell culture studies used to examine HpD phototherapy in Chinese hamster ovary cells (line CHO). Survival curves have been obtained for both direct HpD toxicity and HpD induced photoinactivation. Examination of HpD induced photoinactivation as a function of stage in the cell growth cycle has also been performed, as has the quantitative measurement of HpD uptake in cells (using ³H‐HpD) as a function of cellular incubation time, serum concentration in the incubation medium, and cell cycle position. In the absence of light, no toxicity was observed for HpD incubation levels of up to 400 μg/m/ when incubations times were 3 h or less. Exposure of cells to light alone (> 590 nm, 4.0 mW/cm²) for 9 min was also found to be completely nontoxic. Survival curves obtained for exponentially growing cells labeled with various concentrations of HpD and subsequently illuminated with red light exhibited a threshold or shoulder region at short exposure times followed by exponential killing at longer exposure times. The cell cycle response curves for HpD induced photoinactivation of synchronized CHO cells was nearly flat, indicating no variation in sensitivity for cells treated at time periods from 6 to 15 h after mitosis. Additon of serum to the incubation medium resulted in improved plating efficiency and reproducible survival curves but decreased cellular uptake of HpD.