‘Self-eating’ stem cell process may be the key to new regenerative therapies – Penn Today

The self-eating process in embryonic stem cells known as chaperone-mediated autophagy (CMA) and a related metabolite may serve as promising new therapeutic targets to repair or regenerate damaged cells and organs,Penn Medicineresearchers show in a new study published online inScience.

Human bodies contain more than 200 different types of specialized cells. All of them can be derived from embryonic stem (ES) cells, which relentlessly self-renew while retaining the ability to differentiate into any cell type in adult animals, a state known as pluripotency. Researchers have known that the cells metabolism plays a role in this process; however, it wasnt clear exactly how the cells internal wiring works to keep that state and ultimately decide stem cell fate.

The new preclinical study, for the first time, shows how the stem cells keeps CMA at low levels to promote that self-renewal, and when the stem cell is ready, it switches that suppression off to enhance CMA, among other activities, and differentiate into specialized cells.

Its an intriguing discovery in the field of stem cell biology and for researchers looking to develop therapies for tissue or organ regeneration, says senior authorXiaolu Yang, a professor of cancer biology at the Abramson Family Cancer Research Institute in the Perelman School of Medicine. We reveal two novel ways to potentially manipulate the self-renewal and differentiation of stem cells: CMA and a metabolite, known as alpha-ketoglutarate, that is regulated by CMA. Rationally intervening or guiding these functions could be a powerful way to increase the efficiency of regenerative medicine approaches.

This story is by Melissa Moody. Read more at Penn Medicine News.

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'Self-eating' stem cell process may be the key to new regenerative therapies - Penn Today

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