4.7 Review

Direct cell reprogramming: approaches, mechanisms and progress

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NATURE REVIEWS MOLECULAR CELL BIOLOGY
卷 22, 期 6, 页码 410-424

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NATURE PORTFOLIO
DOI: 10.1038/s41580-021-00335-z

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资金

  1. NIH/NHLBI [R01HL139880, R01HL139976, R01HL128331, R01HL144551]
  2. AHA [18TPA34180058]

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Direct reprogramming converts cells from one lineage into another without going through a pluripotent state, and it is a promising strategy for generating functional cells for therapeutic purposes. Recent advancements include using defined factors for lineage conversion, enhancing reprogrammed cell maturation, and addressing challenges in in vivo direct reprogramming for translational applications.
Direct reprogramming converts cells from one lineage into cells of another without going through an intermediary pluripotent state. This Review describes our current understanding of the molecular mechanisms underlying direct reprogramming as well as the progress in improving its efficiency and the maturation of reprogrammed cells, and the challenges associated with its translational applications. The reprogramming of somatic cells with defined factors, which converts cells from one lineage into cells of another, has greatly reshaped our traditional views on cell identity and cell fate determination. Direct reprogramming (also known as transdifferentiation) refers to cell fate conversion without transitioning through an intermediary pluripotent state. Given that the number of cell types that can be generated by direct reprogramming is rapidly increasing, it has become a promising strategy to produce functional cells for therapeutic purposes. This Review discusses the evolution of direct reprogramming from a transcription factor-based method to a small-molecule-driven approach, the recent progress in enhancing reprogrammed cell maturation, and the challenges associated with in vivo direct reprogramming for translational applications. It also describes our current understanding of the molecular mechanisms underlying direct reprogramming, including the role of transcription factors, epigenetic modifications, non-coding RNAs, and the function of metabolic reprogramming, and highlights novel insights gained from single-cell omics studies.

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