Abstract
Induced pluripotent stem cells (IPSCs), with their unlimited regenerative capacity, carry the promise for tissue replacement to counter age‐related decline. However, attempts to realize in vivo iPSC have invariably resulted in the formation of teratomas. Partial reprogramming in prematurely aged mice has shown promising results in alleviating age‐related symptoms without teratoma formation. Does partial reprogramming lead to rejuvenation (i.e., “younger” cells), rather than dedifferentiation, which bears the risk of cancer? Here, we analyse the dynamics of cellular age during human iPSC reprogramming and find that partial reprogramming leads to a reduction in the epigenetic age of cells. We also find that the loss of somatic gene expression and epigenetic age follows different kinetics, suggesting that they can be uncoupled and there could be a safe window where rejuvenation can be achieved with a minimized risk of cancer.
Highlights
The human aging process is accompanied by multiple degenerative diseases
The generation of induced pluripotent stem cells allows the reprogramming of somatic cells back to an embryonic stem cell (ESC)‐like state with an unlimited regenerative capacity. This has led to multiple strategies for tissue replacement in degenerative diseases (Takahashi et al, 2007)
In vivo experiments with induced pluripotent stem cells (iPSCs) have shown that continuous expression of Yamanaka factors (Oct4, Sox2, Klf4 and c‐Myc, OSKM) in adult mice invariably leads to cancer (Abad et al, 2013; Ohnishi et al, 2014)
Summary
The human aging process is accompanied by multiple degenerative diseases. Our understanding of such aging related disorders is, fragmented, and the existence and nature of a general underlying cause are still much debated (Faragher, 2015; Gladyshev & Gladyshev, 2016). 2. What is the extent of rejuvenation upon reaching a partially reprogrammed state (e.g., years of epigenetic age decrease)?
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