单细胞多基因组发现糖原代谢差异是物种特异性发育速度的基础

Alexandra de la Porte, Julia Schröder, Moritz Thomas, Johanna Geuder, Michael Sterr, Xavier Pastor, Leslie E. Sanderson, Tahsin Stefan Barakat, Wolfgang Enard, Carsten Marr, Christian Schröter, Micha Drukker
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引用次数: 0

摘要

不同哺乳动物物种的胚胎发育具有各自的时间尺度。这些时间尺度在体外多能干细胞分化过程中得以重现。调节哺乳动物物种间细胞分化速度的特定基因和分子途径仍有待确定。在这里,我们使用单细胞多组学分析小鼠、犬和人类多能细胞的神经分化,以确定分化速度的调节因子。我们证明,物种特异性转录组动态反映在染色质水平上,但神经分化的速度对细胞生长和循环的操作不敏感。利用我们数据的单细胞分辨率,我们发现受 UDP-葡萄糖焦磷酸化酶 2(UGP2)调控的糖原储存水平是多能细胞的一个物种依赖性特征,并表明 UGP2 突变细胞中糖原储存的降低与神经分化的加速有关。控制能量储存可能是调节细胞分化速度的一般策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Single-cell multiome uncovers differences in glycogen metabolism underlying species-specific speed of development
Embryos from different mammalian species develop at characteristic timescales. These timescales are recapitulated during the differentiation of pluripotent stem cells in vitro. Specific genes and molecular pathways that modulate cell differentiation speed between mammalian species remain to be determined. Here we use single-cell multi-omic analysis of neural differentiation of mouse, cynomolgus and human pluripotent cells to identify regulators for differentiation speed. We demonstrate that species-specific transcriptome dynamics are mirrored at the chromatin level, but that the speed of neural differentiation is insensitive to manipulations of cell growth and cycling. Exploiting the single-cell resolution of our data, we identify glycogen storage levels regulated by UDP-glucose pyrophosphorylase 2 (UGP2) as a species-dependent trait of pluripotent cells, and show that lowered glycogen storage in UGP2 mutant cells is associated with accelerated neural differentiation. The control of energy storage could be a general strategy for the regulation of cell differentiation speed.
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