Damage to tumor cells by photodynamic therapy

Abstract

Photodynamic therapy (PDT) is a new, promising method in the treatment of cancer. To gain insights into PDT-mediated tumour destruction we studied the influence of treatment with Photofrin and laser light on changes in cell volume and cell viability. A-Mel-3 tumour cells were subjected to Photofrin or illumination with laser light, or a combination of both (PDT). Cell volume was measured by flow cytometry and cell viability by the trypan blue exclusion test for up to 60 min after PDT and the respective controls. In addition, scanning and transmission electron microscopy were performed. Tumour cells incubated in concentrations of 0.75, 1.5 and 3.0 micrograms Photofrin/ml revealed a rapid increase in cell volume to 117%, 207% and 235% 30 min after PDT and to 147%, 210% and 199% 60 min after PDT. Cell viability with 1.5 and 3.0 micrograms Photofrin/ml and laser light was reduced to 83% and 44% at 30 min after PDT and to 38% and 17% 60 min after PDT. At Photofrin concentrations of 1.5 micrograms/ml and exposure to laser light scanning electron microscopy revealed extreme loss of microvilli and formation of blebs on the cellular surface. Transmission electron microscopy showed swollen mitochondria and ruptures of the cell membrane. This study demonstrates that PDT induces a significant time-dependent and dose-related increase in tumour cell volume. We suggest that the PDT-induced swelling of tumour cells contributes to the increase of interstitial fluid pressure and to impairment of microvascular perfusion of tumours.