Organ‐Specific Dedifferentiation and Epigenetic Remodeling in In Vivo Reprogramming
Beom‐Ki Jo, Seung‐Yeon Lee, Hee‐Ji Eom, Jumee Kim, Hyuk‐Jin Cha

TL;DR
This paper reviews how using Yamanaka factors in living organisms can help tissues regenerate and rejuvenate, but highlights the need for careful control to avoid risks.
Contribution
The paper synthesizes recent advances in in vivo reprogramming, emphasizing its regenerative potential and safety challenges.
Findings
Transient OSKM expression can restore regenerative competence in multiple tissues.
Mechanistic parallels exist between injury-induced dedifferentiation and OSKM-mediated reprogramming.
Safety concerns include teratoma formation and loss of cell identity.
Abstract
The advent of in vivo reprogramming through transient expression of the Yamanaka factors (OCT4, SOX2, KLF4, and c‐MYC) holds strong promise for regenerative medicine, despite ongoing concerns about safety and clinical applicability. This review synthesizes recent advances in in vivo reprogramming, focusing on its potential to restore regenerative competence and promote rejuvenation across diverse tissues, including the retina, skeletal muscle, heart, liver, brain, and intestine. We highlight mechanistic parallels and distinctions between injury‐induced dedifferentiation and OSKM‐mediated reprogramming, emphasizing the roles of dedifferentiation, transient regenerative progenitors, and epigenetic remodeling. Critical safety considerations—such as teratoma formation, organ failure, and loss of cell identity—are discussed alongside strategies designed to mitigate these risks, like cyclic…
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Taxonomy
TopicsPluripotent Stem Cells Research · CRISPR and Genetic Engineering · Congenital heart defects research
