干细胞
生物
生殖系
细胞生物学
转录组
成体干细胞
细胞
遗传学
内皮干细胞
细胞分化
谱系(遗传)
干细胞因子
计算生物学
干细胞衰老理论
造血
干细胞巢
细胞效价
利基
模块化设计
细胞培养
干细胞标记物
电池类型
诱导多能干细胞
作者
Amelie A. Raz,Hafidh S. Hassan,Yukiko Yamashita
标识
DOI:10.1073/pnas.2533973123
摘要
Adult stem cells maintain tissue homeostasis, yet are themselves vulnerable to loss. One common mechanism to replace lost stem cells is dedifferentiation, in which progeny revert to stem cell identity. It is a paradox how stem cells and progeny retain the same stem cell potential while exhibiting distinct current identities of self-renewal, differentiation, and dedifferentiation. Here, we show that the Drosophila male germline lineage solves this paradox via two parallel and complementary mechanisms to separate potential and identity. First, differentiating progeny maintain stem cell potency by inheriting perdurant stem cell mRNAs without actively transcribing them. Second, two known niche signals (Bmp and Jak-Stat) activate distinct sets of targets, defining three identities (self-renewal, differentiation, and dedifferentiation) based on the combination of their on/off states. Together, this study reveals how a pool of dedifferentiation-competent progeny is maintained to regenerate stem cells as needed without resulting in stem cell overproduction and resolves the puzzle of why most stem cell systems require multiple independent niche signals.
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