Inhibition of Syk promotes chemical reprogramming of fibroblasts via metabolic rewiring and H2 S production

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

Weiyun Wang ¹, Shaofang Ren ², Yunkun Lu ¹, Xi Chen ¹, Juanjuan Qu ³, Xiaojie Ma ¹, Qian Deng ¹, Zhensheng Hu ¹, Yan Jin ¹, Ziyu Zhou ¹, Wenyan Ge ¹, Yibing Zhu ¹, Nannan Yang ⁴, Qin Li ¹, Jiaqi Pu ¹, Guo Chen ¹, Cunqi Ye ¹, Hao Wang ⁴ ⁵, Xiaoyang Zhao ², Zhiqiang Liu ³, Saiyong Zhu ¹ ⁶

Affiliations

1 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.
2 State Key Laboratory of Organ Failure Research, Department of Developmental Biology, School of Basic Medical Sciences, Southern Medical University, Guangzhou, China.
3 College of Life Science, Shanxi University, Taiyuan, China.
4 Prenatal Diagnosis Center, Hangzhou Women's Hospital, Hangzhou, China.
5 Department of Cell Biology and Medical Genetics, School of Medicine, Zhejiang University, Hangzhou, China.
6 Second Affiliated Hospital, School of Medicine, Zhejiang University, Hangzhou, China.

PMID: 33909912 DOI: 10.15252/embj.2020106771

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 (H₂ 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.

Keywords

R406; Syk; chemical reprogramming; hydrogen sulfide; metabolism.

Products

Inhibitors & Agonists

Cat. No.

Product Name

Description

Target

Research Area
HY-10981

Lenvatinib

99.85%, VEGFR/FGFR抑制剂

VEGFR; FGFR; PDGFR; c-Kit; RET

Cancer
HY-10585

Valproic acid

99.19%, HDAC抑制剂

Organoid; HDAC; Autophagy; Mitophagy; HIV; Notch; Apoptosis; Endogenous Metabolite

Neurological Disease; Metabolic Disease; Infection; Cancer
HY-10255A

Sunitinib

99.04%, Multi-targeted RTK 抑制剂

VEGFR; PDGFR; IRE1; Mitophagy; Autophagy; Apoptosis

Cancer
HY-13038A

Fostamatinib

99.50%, Syk/FLT3 抑制剂

Syk; FLT3

Inflammation/Immunology; Cancer
HY-10475

AM580

99.70%, RARα激动剂

RAR/RXR; Autophagy

Cancer

Other Products

Cat. No.

Product Name

Category/Application
HY-L009

Kinase Inhibitor Library

According to Signaling Pathway or Protein Family

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