GROWTH DELAY STUDIES OF THE RESPONSE OF V-79 MULTICELL SPHEROIDS EXPOSED TO DHE and RED LIGHT

Abstract Multicell tumour spheroids (MTS) of V-79 Chinese hamster cells have been used to study the role of a number of treatment and microenvironmental parameters in the modification of tumour response to Photodynamic Therapy (PDT) using visible light in combination with the photosensitizing compound dihematoporphyrin ether (DHE). The kinetics of DHE uptake into MTS, determined by fluorimetry of extracted porphyrins, indicate that after extended incubation (i.e. 24 h) the mean cellular DHE content in larger (˜300 μ.m and 400 u.m) MTS is significantly less than that for smaller (˜200 μm) MTS, consistent with a hypothesis that DHE uptake into the internal regions of spheroids is diffusion-limited. The response of spheroids to PDT, as assessed by the endpoint of growth delay, indicates that the kinetics of spheroid volume alteration and cell loss, as well as the potential for regfrrwth, are markedly dependent on both the drug and light exposure levels used. The oxygen dependence of this response has been investigated after light irradiation of spheroid cultures equilibrated with either 21% O₂ (i.e. air) or 0% 0₂ (i.e. N₂). While treatment in air results in significant growth delay, the growth kinetics of DHE-treated spheroids irradiated under N₂ were essentially unchanged from those of untreated spheroids. These observations clearly demonstrate an important role for oxygen, at the time of irradiation, in determining the response of spheroids to PDT.