Heat shock proteins (HSPs) serve as the chaperones, antiaggregants and cytoprotectants in both normal and stress conditions [Matthew et al. 2004]. Under the stress stimuli, such as the temperature, chemical toxins, heavy metals and also UV or specific light illumination, HSPs will be induced to protect living cell from damage. Both hyperthermia and Photodynamic therapy (PDT) can induce cellular apoptosis and the expression of heat shock proteins as well. It is noticeable that several families of heat shock proteins are involved in cell apoptosis pathway [Steven et al, 2000]. In this study, we investigated the gene expression of RNA and protein level of HSPs after the treatment of PDT and hyperthermia. We discovered that the expression of HSPs induced by hyperthermia was temperature-dependant, especially for HSP70, and the optimal condition was 43℃ for 30 minutes. The RNA and protein expression of HSPs increased in concordance with the duration after hyperthermia. HSP70 had strongest expression after hyperthermia. Hyperthermia, however, did not change HSP60 expression significantly. For PDT, the RNA expression of HSPs was slightly increased by different irradiation energy. And the protein expression of HSPs was show to be dose-dependant. Similar to the study of hyperthermia, the expression of HSPs increased after PDT and reached the peak at 12 hours (2 hours for RNA level). HSP70 was induced more rapidly and began to decrease after 9 hours. On the other hand, HSP60 and HSP27 remained relative stable all the time. Generally PDT was more effective than hyperthermia in inducing HSP60 expression. The result of this study revealed the effect on PDT and hyperthermia of gene expression and helped us to understand the regulation of HSP expression.