Duration: 4:12

August 25, 2010 A novel mechanism used by adenovirus to sidestep the cell's suicide program, could go a long way to explain how tumor suppressor genes are silenced in tumor cells and pave the way for a new type of targeted cancer therapy, report researchers at the Salk Institute for Biological Studies in the Aug. 26, 2010 issue of Nature. When a cell is under stress, the tumor suppressor p53 springs into action activating an army of foot soldiers that initiate a built-in "auto-destruct" mechanism that eliminates virus-infected or otherwise abnormal cells from the body. Just like tumor cells, adenoviruses, which cause upper-respiratory infections, need to get p53 out of the way to multiply successfully. "Instead of inactivating p53 directly, adenovirus renders the 'guardian of the genome' powerless by targeting the genome itself," explains Clodagh O'Shea, Ph.D., an assistant professor in the Molecular and Cell Biology Laboratory, who led the study. O'Shea hopes to exploit these new insights to understand how high levels of wild type p53 might be inactivated in cancer as well as the mechanisms that induce aberrant silencing of tumor suppressor gene loci in cancer cells. "Our study really changes the longstanding definition of how p53 is inactivated in adenovirus-infected cells and will finally allow us to develop true p53 tumor selective oncolytic therapies."