重编程
生物
表观遗传学
癌症
表观基因组
癌症研究
恶性肿瘤
疾病
癌细胞
癌基因
细胞周期
肿瘤微环境
计算生物学
后生
生物信息学
癌症干细胞
细胞分化
附带损害
衰老
干细胞
DNA甲基化
癌变
肿瘤发生
细胞
癌症治疗
认知重构
转录组
染色质
体细胞
谱系(遗传)
端粒酶
系统生物学
免疫疗法
分子医学
摘要
Cancer is increasingly recognized not as a fixed genetic condition but as a dynamic and plastic disease state driven by reversible epigenetic, transcriptional and microenvironmental cues. This evolving understanding supports a therapeutic paradigm shift: from eradicating malignant cells to reprogramming them toward quiescence, differentiation or functional normalization. This review explores diverse strategies for redirecting cancer cell fate, including differentiation therapy, epigenetic remodeling, lineage reprogramming, senescence induction and tumor microenvironment resetting. These approaches exploit intrinsic cellular plasticity and contextual adaptability, offering novel avenues to contain malignancy and overcome resistance. By reframing cancer as a potentially reversible phenotype, this therapeutic strategy demands redefinition of clinical endpoints, incorporation of dynamic biomarkers, and development of integrative treatment frameworks. Ultimately, reprogramming‑based oncology holds the promise of transforming aggressive malignancies into manageable conditions while minimizing the collateral damage associated with conventional cytotoxic therapies.
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