Potent Anti-Cancer Molecule In Tumors Can Be Reawakened
In mice studies, targeting the SET protein revives p53, a potent tumor suppressor, and prevents cancer growth
A potent cancer-fighting molecule in our cells can be reawakened by reducing levels of a protein--called SET--that is often found in excess in cancer cells, a new study from Columbia University’s Herbert Irving Comprehensive Cancer Center has found.
The study was published online Sept. 14 in the journal Nature by Wei Gu, PhD, the Abraham and Mildred Goldstein Professor in the Department of Pathology & Cell Biology and the Institute for Cancer Genetics at Columbia, and Donglai Wang, PhD, a postdoctoral research scientist in Dr. Gu’s lab.
The cancer-fighting molecule p53 plays a key role in preventing tumor initiation and progression. In response to oncogenic stress, p53 prevents tumor initiation by turning on several defense mechanisms, such as cell cycle arrest and apoptosis. Most cancers can only survive when the p53 gene is mutated or the p53 protein is somehow inactivated. In cases where the p53 protein is simply inactive, it may be possible to reawaken the protein to stop cancer growth.
The Columbia researchers looked for ways to reawaken p53 by examining the protein’s C-terminal domain (CTD). Acetylation of the C-terminal domain regulates p53 activity, and the domain appears to be a “docking site” for negative p53 regulators. But the identity of these negative regulators, as well as the precise effects of acetylation, has not been established.
The new study reveals that one of these negative regulators is the SET protein, which turns off p53 activity by binding to p53’s docking site, but only when the docking site is not acetylated.
SET is frequently present in cancer cells in excess, and the researchers found that depleting SET from several different types of human cancer cells increased the activity of p53 without changing endogenous p53 levels. Knocking down SET suppressed the growth of xenografted tumor cells with normal p53 but did not affect tumor growth in cells without p53.
“In the presence of SET, tumors grow much bigger and faster, demonstrating that the p53-SET interaction plays a key role in regulating p53-mediated tumor suppression,” Dr. Gu said. “Therefore, targeting SET by small molecules or chemical compounds in the future may serve as a potential therapeutic strategy for those tumors containing wild-type p53.”
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The study is titled, “Acetylation-regulated interaction between p53 and SET reveals a widespread regulatory mode.” The authors are: Donglai Wang (CUMC), Ning Kon (CUMC), Gorka Lasso (CUMC), Le Jiang (CUMC), Wenchuan Leng (National Center for Protein Sciences, Beijing), Wei-Guo Zhu (Shenzhen University School of Medicine, Shenzhen, China), Jun Qin (National Center for Protein Sciences, Beijing, and Baylor College of Medicine), and Wei Gu (CUMC).
The authors declare no conflicts of interest.
This work was supported by the NIH (5R01CA193890, 5RO1CA190477, 5RO1CA085533, 2P01CA080058, GM030518 and CA121852).
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