Differential involvement of reactive oxygen species in apoptosis induced by two classes of selenium compounds in human prostate cancer cells

Abstract

Selenium is a promising chemopreventive agent for prostate cancer, possiblyviaan induction of apoptosis. Earlier studies have shown that selenite induces DNA single strand breaks (SSBs), reactive oxygen species (ROS), p53 Ser‐15 phosphorylation and caspase‐dependent and ‐independent apoptosis, whereas a methylselenol precursor methylseleninic acid (MSeA) induces caspase‐mediated apoptosis regardless of p53 status. Here we address three main questions: What types of ROS are induced by selenitevs.MSeA in LNCaP (p53 wild type, androgen‐responsive) and DU145 (mutant p53, androgen‐independent) prostate cancer cells? Does ROS generation depend on androgen signaling? What are the relationships among ROS, DNA SSBs, p53 and caspases? We show that selenite (5 μM) induced superoxide and hydrogen peroxide in LNCaP cells much more than in DU145 cells and the ROS generation was not affected by physiological androgen stimulation. MSeA (10 μM) induced apoptosis without either type of ROS in both cell lines. In LNCaP cells, we established superoxide as a primary mediator for selenite‐induced DNA SSBs, p53 activation and caspase‐mediated apoptosis. Furthermore a p53‐dominant negative mutant attenuated selenite‐induced ROS, leading to a proportionate protection against apoptosis. The results support the p53‐mitochondria axis in a feedback loop for sustaining superoxide production to lead to efficient caspase‐mediated apoptosis by selenite. In contrast, caspase‐mediated apoptosis induced by MSeA does not involve ROS induction. Since p53 is frequently mutated or deleted in prostate cancer and many other cancers, our results suggest that genotoxicvs.nongenotoxic classes of selenium may exert differential apoptosis efficacy depending on the p53 status of the cancer cells.