News Note: Study provides link between tumor suppression and DNA damage
- Posted: November 7, 2010
NCI scientists have linked p53, a protein that can suppress tumor formation and influence cellular aging, with TRF2, a protein that forms a complex that protects the ends of chromosomes from undergoing erosion. The ends of chromosomes are known as telomeres, and these end-pieces have been shown to influence cell longevity as well as cancer. While activated p53 can be an indicator of DNA damage due to telomere malfunction, this study is the first to show that p53 also functions by negatively regulating the telomere-binding protein TRF2, thus suggesting the presence of a novel feedback loop. The study, lead by Curtis C. Harris, M.D., with coworkers Kaori Fujita, Ph.D., and Izumi Horikawa, M.D., of the Laboratory of Human Carcinogenesis, Center for Cancer Research, appeared online in Nature Cell Biology on Nov. 7, 2010.
Telomeres are capped at each end to protect them from degrading and from being recognized as damaged DNA. At the end of their lifespan, telomeres lose this protection and DNA-damage signaling pathways are triggered that activate p53. Harris and his team found that p53 controls TRF2 levels, through an intermediary component known as Siah-1. In this experiment, TRF2 was found to be repressed and Siah-1 was induced in normal human tissue cells when p53 was activated. The scientists also found that p53 affects DNA damage signaling from uncapped telomeres, as well as regulating the telomere-capping complex. This suggests that the p53-Siah-1-TRF2 pathway plays an integral part in orchestrating the DNA damage response of telomeres. Both p53 and telomeres have therapeutic significance in cancer. This discovery, therefore, provides not only a new mechanistic insight into p53- and telomere-based cancer therapeutics currently used or tested, but also the experimental basis for the development of new therapies, according to the scientists.