ABSTRACT
Transient receptor potential melastatin-2 (TRPM2) is an emerging chemotherapeutic target due to its involvement in poly(ADP-ribose) metabolism and the ability to induce anticancer effects after antagonism of its functions. Normally functioning as a nonspecific cation channel that is activated by free ADP-ribose, TRPM2 is involved with many cellular processes, including the induction of cell death after oxidative stress. What is becoming clear is that antagonism of TRPM2 selectively induces anticancer effects in several types of cancer. We previously demonstrated decreased growth and proliferation, increased levels of DNA damage, and the selective induction of cell death in breast cancer and melanoma cells. Due to these effects, it appears that TRPM2 has a novel role in cancer cells. Further, this novel role appears to involve nuclear function, because our studies, as well as those from other independent groups, demonstrate a nuclear localization of TRPM2 in various types of cancers. Thus, as an emerging therapeutic target, it is important to describe research techniques that can be utilized to analyze TRPM2 function, determine its effects in cancerous and noncancerous cells, and provide molecular biological methods to inhibit or downregulate its function.
