Abstract B45: The short-term effects of arsenic on Cdk5-dependent apoptosis of prostate cancer cells

Abstract

Abstract Arsenic compounds have been used widely in medicine to treat a variety of diseases. However, it has also been believed to involve the carcinogenesis of prostate cancer and the hormone disruption might be one of the causes. Our previous results indicate that digoxin treatment leads to apoptosis of prostate cancer cells through Cdk5 overactivation, in which the regular activator of Cdk5, p35, is cleaved into more potent one, p25. Here, our latest data showed that arsenic also caused p35 cleavage and subsequently Cdk5 overactivation in prostate cancer cells. Similarly, this arsenic- induced stimulatory effect on Cdk5 resulted in apoptosis of prostate cancer cells accompanying with the degradation of androgen receptor in LNCaP cells. This result implies that androgen is no longer a trophic factor for prostate cancer cells after arsenic treatment. Although STAT3 was identified by us as a Cdk5 substrate responding to tumor growth, arsenic-triggered Cdk5 overactivation did not increase STAT3 phosphorylation. In conclusion, although long-term exposure of arsenic possibly causes prostate cancer, our present results provide evidence indicating that in vitro and short-term treatments of arsenic might lead to apoptosis of prostate cancer cell lines through Cdk5 overactivation pathway. This study may arouse the new indication for the old chemical and also shed light on the application on cancer therapy. Citation Information: Clin Cancer Res 2010;16(14 Suppl):B45.