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Syk 的抑制作用通过代谢重排和 H₂S 产生促进成纤维细胞的化学重编程。

Inhibition of Syk promotes chemical reprogramming of fibroblasts via metabolic rewiring and H S production.

机构信息

The MOE Key Laboratory of Biosystems Homeostasis & Protection and Zhejiang Provincial Key Laboratory for Cancer Molecular Cell Biology, Life Sciences Institute, Zhejiang University, Hangzhou, China.

State Key Laboratory of Organ Failure Research, Department of Developmental Biology, School of Basic Medical Sciences, Southern Medical University, Guangzhou, China.

出版信息

EMBO J. 2021 Jun 1;40(11):e106771. doi: 10.15252/embj.2020106771. Epub 2021 Apr 28.

DOI:10.15252/embj.2020106771
PMID:33909912
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8167362/
Abstract

Chemical compounds have recently been introduced as alternative and non-integrating inducers of pluripotent stem cell fate. However, chemical reprogramming is hampered by low efficiency and the molecular mechanisms remain poorly characterized. Here, we show that inhibition of spleen tyrosine kinase (Syk) by R406 significantly promotes mouse chemical reprogramming. Mechanistically, R406 alleviates Syk / calcineurin (Cn) / nuclear factor of activated T cells (NFAT) signaling-mediated suppression of glycine, serine, and threonine metabolic genes and dependent metabolites. Syk inhibition upregulates glycine level and downstream transsulfuration cysteine biosynthesis, promoting cysteine metabolism and cellular hydrogen sulfide (H S) production. This metabolic rewiring decreased oxidative phosphorylation and ROS levels, enhancing chemical reprogramming. In sum, our study identifies Syk-Cn-NFAT signaling axis as a new barrier of chemical reprogramming and suggests metabolic rewiring and redox homeostasis as important opportunities for controlling cell fates.

摘要

最近,人们引入了化学化合物作为多能干细胞命运的替代物和非整合诱导物。然而,化学重编程受到效率低的阻碍,其分子机制仍未得到很好的描述。在这里,我们表明,通过 R406 抑制脾酪氨酸激酶(Syk)可显著促进小鼠的化学重编程。在机制上,R406 缓解了 Syk /钙调神经磷酸酶(Cn)/活化 T 细胞核因子(NFAT)信号转导介导的甘氨酸、丝氨酸和苏氨酸代谢基因及其依赖代谢物的抑制作用。Syk 抑制作用上调甘氨酸水平和下游转硫胱氨酸生物合成,促进半胱氨酸代谢和细胞内硫化氢(H S)的产生。这种代谢重编程降低了氧化磷酸化和 ROS 水平,增强了化学重编程。总之,我们的研究确定了 Syk-Cn-NFAT 信号轴作为化学重编程的新障碍,并表明代谢重编程和氧化还原稳态是控制细胞命运的重要机会。

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