New findings from HHMI Janelia and MD Anderson Cancer Center provide significant insights into the molecular mechanisms of aging. HHMI Janelia's open-access atlas and data portal offer researchers valuable resources to study cellular aging in C. elegans worms. Concurrently, MD Anderson researchers have identified a small molecule activator of TERT (telomerase reverse transcriptase) that reverses multiple hallmarks of aging in mouse models and human cell lines without evidence of cancer risk. Published in CellCellPress, these discoveries could pave the way for new anti-aging therapies, potentially addressing age-related inflammation and improving brain and muscle function.
Activating molecular target reverses multiple hallmarks of aging MD Anderson researchers identify molecule that reduces age-related inflammation and improves brain and muscle function in preclinical models Researchers at The University of Texas MD Anderson Cancer Center have… https://t.co/jBABzTTG3Z
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Activating a molecular target reverses multiple hallmarks of aging, new study demonstrates @CellCellPress https://t.co/Erf550QD2l
Telomeres and anti-aging redux A small molecule activator of TERT (telomerase reverse transcriptase) reverse hallmarks of aging in mouse model and in human cell lines, without evidence of cancer risk https://t.co/6jptz3VFV5 @CellCellPress @RonDePinho @MDAndersonNews https://t.co/DUfYAZS3RY
Telomeres and anti-aging redux A small molecule activator of TERT (telomerase reverse transcriptase) reverse hallmarks of aging in mouse model and in human cell lines, without evidence of cancer risk https://t.co/6jptz3VFV5 @CellCellPress @RonDePinho @MDAn https://t.co/5M22e2mEOh
New findings from @hhmijanelia about how cells and tissues in worms age give researchers insight into aging on the molecular level. The new open-access atlas and accompanying user-friendly data portal also serve as a resource for other researchers. 🔗 https://t.co/EuqUdtXQ10 https://t.co/iwDa5qgr8C