Photodynamic Therapy and Adaptive Immunity Induced by Reactive Oxygen Species: Recent Reports

Simple Summary Photodynamic therapy (PDT) is a cancer treatment that uses photogenerated reactive oxygen species (ROS) to damage target cells. The unique mechanism of action of PDT involves the systemic or local administration of a photosensitizing compound (photosensitizer), which is then activated by light of a specific energy. PDT induces a very strong local inflammatory response. A number of adaptive mechanisms are induced within the tumor, related to increased amino acid metabolism and damage to lymphatic vessels. In this review, we are describing the adaptive immune response induced by ROS and generated by PDT.Abstract Cancer is one of the most significant causes of death worldwide. Despite the rapid development of modern forms of therapy, results are still unsatisfactory. The prognosis is further worsened by the ability of cancer cells to metastasize. Thus, more effective forms of therapy, such as photodynamic therapy, are constantly being developed. The photodynamic therapeutic regimen involves administering a photosensitizer that selectively accumulates in tumor cells or is present in tumor vasculature prior to irradiation with light at a wavelength corresponding to the photosensitizer absorbance, leading to the generation of reactive oxygen species. Reactive oxygen species are responsible for the direct and indirect destruction of cancer cells. Photodynamically induced local inflammation has been shown to have the ability to activate an adaptive immune system response resulting in the destruction of tumor lesions and the creation of an immune memory. This paper focuses on presenting the latest scientific reports on the specific immune response activated by photodynamic therapy. We present newly discovered mechanisms for the induction of the adaptive response by analyzing its various stages, and the possible difficulties in generating it. We also present the results of research over the past 10 years that have focused on improving the immunological efficacy of photodynamic therapy for improved cancer therapy.