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Writer's pictureDavid Ojcius

RNA molecule that regulates cellular aging.

Study revealed novel unrecognized regulator of senescence, SNORA13, a member of a family of noncoding RNAs known as small nucleolar RNAs that function as guides for chemical modification of other RNA molecules.



A team led by UT Southwestern Medical Center researchers has discovered a new way that cells regulate senescence, an irreversible end to cell division. The findings, published in Cell, could one day lead to new interventions for a variety of conditions associated with aging, including neurodegenerative and cardiovascular diseases, diabetes, and cancer, as well as new therapies for a collection of diseases known as ribosomopathies.

"There is great interest in reducing senescence to slow or reverse aging or aging-associated diseases. We discovered a noncoding RNA that when inhibited strongly impairs senescence, suggesting that it could be a therapeutic target for conditions associated with aging," said Joshua Mendell, M.D., Ph.D., Professor of Molecular Biology and a member of the Harold C. Simmons Comprehensive Cancer Center at UT Southwestern. He is also a Howard Hughes Medical Institute Investigator.

Dr. Mendell led the study with co-first authors Yujing Cheng, Ph.D., a recent graduate of the Genetics, Development, and Disease graduate program; and Siwen Wang, M.D., a former postdoctoral researcher, both in the Mendell Lab.

Cellular senescence is a "double-edged sword," Dr. Mendell explained. Cells sometimes undergo senescence when a cancer-causing mutation arises, halting uncontrolled cell division and preventing tumors from developing. On the other hand, too much senescence contributes to aging and degenerative diseases.

The Mendell Lab has long studied noncoding RNAs, finding new roles for these molecules in both health and disease. In this newest study, he and his colleagues used a technique for regulating gene activity called CRISPR interference to individually inactivate thousands of noncoding RNAs in human cells that carried a cancer-causing mutation. Usually, this mutation prompts cells to become senescent; however, inactivating a noncoding RNA involved in senescence caused the cells to continue dividing.


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