Natural and Artificial Hematopoietic Cell Reprogramming.

IF 1.7 4区医学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Cellular reprogramming Pub Date : 2026-02-01 Epub Date: 2026-02-12 DOI:10.1177/21524971261424117

Dong Yu, Wenpei Liu, Feng Liu, Lin Cheng

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引用次数: 0

Abstract

Hematopoietic cell reprogramming, defined as the conversion from one hematopoietic or immune cell type into another, has been shown to hold transformative potential for advancing our understanding of hematopoiesis, disease mechanisms, and therapeutic innovation. This process occurs via transdifferentiation, dedifferentiation, or transitional plasticity, driven by transcriptional, epigenetic, and microenvironmental cues, which may be achieved by physiological or pathological stressors in vivo, or genetic or chemical strategies in vitro. Nevertheless, challenges persist, including low reprogramming efficiency, unstable phenotype, and safety concerns. Advancements in multi-omics, gene editing, and chemical biology are enhancing the efficacy of reprogramming protocols and facilitating clinical translatability. The integration of these strategies, in conjunction with artificial intelligence-driven screening and single-cell analytics, has the potential to facilitate the development of personalized cell therapies for cancers, immune disorders, and regenerative medicine. Additionally, the realization of this potential is contingent upon the resolution of challenges related to delivery, specificity, and long-term efficacy.

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自然和人工造血细胞重编程。

造血细胞重编程，被定义为从一种造血或免疫细胞类型转化为另一种，已被证明具有促进我们对造血、疾病机制和治疗创新的理解的变革潜力。这一过程通过转分化、去分化或过渡可塑性发生，由转录、表观遗传和微环境因素驱动，这些因素可能由体内的生理或病理应激源或体外的遗传或化学策略实现。然而，挑战依然存在，包括低重编程效率、不稳定表型和安全问题。多组学、基因编辑和化学生物学的进步正在增强重编程协议的有效性，并促进临床可翻译性。这些策略的整合，结合人工智能驱动的筛选和单细胞分析，有可能促进癌症、免疫疾病和再生医学的个性化细胞疗法的发展。此外，实现这一潜力取决于解决与递送、特异性和长期疗效相关的挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cellular reprogramming CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY

CiteScore

2.50

自引率

6.20%

发文量

审稿时长

3 months

期刊介绍： Cellular Reprogramming is the premier journal dedicated to providing new insights on the etiology, development, and potential treatment of various diseases through reprogramming cellular mechanisms. The Journal delivers information on cutting-edge techniques and the latest high-quality research and discoveries that are transforming biomedical research. Cellular Reprogramming coverage includes: Somatic cell nuclear transfer and reprogramming in early embryos Embryonic stem cells Nuclear transfer stem cells (stem cells derived from nuclear transfer embryos) Generation of induced pluripotent stem (iPS) cells and/or potential for cell-based therapies Epigenetics Adult stem cells and pluripotency.