JMJD3 激活的透明质酸合成在炎症环境中驱动肌肉再生。

JMJD3 activated hyaluronan synthesis drives muscle regeneration in an inflammatory environment.

机构信息

Sprott Center for Stem Cell Research, Regenerative Medicine Program, Ottawa Hospital Research Institute, Ottawa, ON, Canada.

Department of Cellular and Molecular Medicine, University of Ottawa, Ottawa, ON, Canada.

出版信息

Science. 2022 Aug 5;377(6606):666-669. doi: 10.1126/science.abm9735. Epub 2022 Aug 4.

DOI:10.1126/science.abm9735

PMID:35926054

Abstract

Muscle stem cells (MuSCs) reside in a specialized niche that ensures their regenerative capacity. Although we know that innate immune cells infiltrate the niche in response to injury, it remains unclear how MuSCs adapt to this altered environment for initiating repair. Here, we demonstrate that inflammatory cytokine signaling from the regenerative niche impairs the ability of quiescent MuSCs to reenter the cell cycle. The histone H3 lysine 27 (H3K27) demethylase JMJD3, but not UTX, allowed MuSCs to overcome inhibitory inflammation signaling by removing trimethylated H3K27 (H3K27me3) marks at the locus to initiate production of hyaluronic acid, which in turn established an extracellular matrix competent for integrating signals that direct MuSCs to exit quiescence. Thus, JMJD3-driven hyaluronic acid synthesis plays a proregenerative role that allows MuSC adaptation to inflammation and the initiation of muscle repair.

摘要

肌卫星细胞（MuSCs）位于一个特殊的微环境中，这个微环境确保了它们的再生能力。虽然我们知道先天免疫细胞会在损伤后渗透到这个微环境中，但目前尚不清楚 MuSCs 如何适应这种改变的环境来启动修复。在这里，我们证明了来自再生微环境的炎症细胞因子信号会损害静止的 MuSCs 重新进入细胞周期的能力。组蛋白 H3 赖氨酸 27（H3K27）去甲基酶 JMJD3，但不是 UTX，允许 MuSCs 通过去除基因座上的三甲基化 H3K27（H3K27me3）标记来克服抑制性炎症信号，从而启动透明质酸的产生，透明质酸反过来建立了一个能够整合信号的细胞外基质，这些信号指导 MuSCs 退出静止状态。因此，JMJD3 驱动的透明质酸合成发挥了促进再生的作用，使 MuSC 能够适应炎症并启动肌肉修复。

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JMJD3 激活的透明质酸合成在炎症环境中驱动肌肉再生。

JMJD3 activated hyaluronan synthesis drives muscle regeneration in an inflammatory environment.

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