线粒体状态决定了涡虫中功能不同的干细胞群体。

Mitochondrial state determines functionally divergent stem cell population in planaria.

机构信息

Integrative Chemical Biology, Institute for Stem Cell Science and Regenerative Medicine, Bengaluru, India; SASTRA University, Thirumalaisamudram, Thanjavur, India.

National Centre for Biological Sciences, Bengaluru, India.

出版信息

Stem Cell Reports. 2021 May 11;16(5):1302-1316. doi: 10.1016/j.stemcr.2021.03.022. Epub 2021 Apr 15.

DOI:10.1016/j.stemcr.2021.03.022

PMID:33861990

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8185449/

Abstract

Mitochondrial state changes were shown to be critical for stem cell function. However, variation in the mitochondrial content in stem cells and the implication, if any, on differentiation is poorly understood. Here, using cellular and molecular studies, we show that the planarian pluripotent stem cells (PSCs) have low mitochondrial mass compared with their progenitors. Transplantation experiments provided functional validation that neoblasts with low mitochondrial mass are the true PSCs. Further, the mitochondrial mass correlated with OxPhos and inhibiting the transition to OxPhos dependent metabolism in cultured cells resulted in higher PSCs. In summary, we show that low mitochondrial mass is a hallmark of PSCs in planaria and provide a mechanism to isolate live, functionally active, PSCs from different cell cycle stages (G0/G1 and S, G2/M). Our study demonstrates that the change in mitochondrial metabolism, a feature of PSCs is conserved in planaria and highlights its role in organismal regeneration.

摘要

线粒体状态变化被证明对干细胞功能至关重要。然而，干细胞中线粒体含量的变化及其对分化的影响尚不清楚。在这里，我们使用细胞和分子研究表明，与祖细胞相比，扁形动物多能干细胞 (PSC) 的线粒体质量较低。移植实验提供了功能验证，即具有低线粒体质量的成体干细胞是真正的 PSC。此外，线粒体质量与 OxPhos 相关，在培养细胞中抑制向 OxPhos 依赖性代谢的转变会导致更高的 PSC。总之，我们表明低线粒体质量是扁形动物 PSC 的标志，并提供了一种从不同细胞周期阶段（G0/G1 和 S、G2/M）分离活的、功能活跃的 PSC 的机制。我们的研究表明，线粒体代谢的变化是 PSC 的一个特征，在扁形动物中是保守的，并强调了它在机体再生中的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee47/8185449/44c94d9e5bb9/gr1.jpg

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线粒体状态决定了涡虫中功能不同的干细胞群体。

Mitochondrial state determines functionally divergent stem cell population in planaria.

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