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Chemically induced reprogramming to reverse cellular aging

Jae-Hyun Yang, Christopher A. Petty, Thomas Dixon-McDougall, Maria Vina Lopez, Alexander Tyshkovskiy, Sun Y. Maybury‐Lewis, Xiao Tian, Nabilah Ibrahim, Zhili Chen, Patrick Griffin, Matthew Arnold, Jien Li, Oswaldo A. Martinez, Alexander Behn, Ryan Rogers-Hammond, Suzanne Angeli, Vadim N. Gladyshev, David Sinclair

2023Aging131 citationsDOIOpen Access PDF

Abstract

A hallmark of eukaryotic aging is a loss of epigenetic information, a process that can be reversed. We have previously shown that the ectopic induction of the Yamanaka factors OCT4, SOX2, and KLF4 (OSK) in mammals can restore youthful DNA methylation patterns, transcript profiles, and tissue function, without erasing cellular identity, a process that requires active DNA demethylation. To screen for molecules that reverse cellular aging and rejuvenate human cells without altering the genome, we developed high-throughput cell-based assays that distinguish young from old and senescent cells, including transcription-based aging clocks and a real-time nucleocytoplasmic compartmentalization (NCC) assay. We identify six chemical cocktails, which, in less than a week and without compromising cellular identity, restore a youthful genome-wide transcript profile and reverse transcriptomic age. Thus, rejuvenation by age reversal can be achieved, not only by genetic, but also chemical means.

Topics & Concepts

ReprogrammingKLF4SOX2EpigeneticsBiologyCell biologyDNA demethylationDNA methylationTranscriptomeEpigenomicsGeneticsTranscription factorCellGene expressionGeneEpigenetics and DNA MethylationPluripotent Stem Cells ResearchGenetics, Aging, and Longevity in Model Organisms