The m6A methyltransferase METTL16 negatively regulates MCP1 expression in mesenchymal stem cells during monocyte recruitment
Zhaoqiang Zhang, Zhongyu Xie, Jiajie Lin, Zehang Sun, Zhikun Li, Wenhui Yu, Yipeng Zeng, Guiwen Ye, Jinteng Li, Feng Ye, Zepeng Su, Yunshu Che, Peitao Xu, Chenying Zeng, Peng Wang, Yanfeng Wu, Huiyong Shen
Zhaoqiang Zhang, Zhongyu Xie, Jiajie Lin, Zehang Sun, Zhikun Li, Wenhui Yu, Yipeng Zeng, Guiwen Ye, Jinteng Li, Feng Ye, Zepeng Su, Yunshu Che, Peitao Xu, Chenying Zeng, Peng Wang, Yanfeng Wu, Huiyong Shen
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Research Article Immunology Stem cells

The m6A methyltransferase METTL16 negatively regulates MCP1 expression in mesenchymal stem cells during monocyte recruitment

Abstract

Mesenchymal stem cells (MSCs) possess strong immunoregulatory functions, one aspect of which is recruiting monocytes from peripheral vessels to local tissue by secreting monocyte chemoattractant protein 1 (MCP1). However, the regulatory mechanisms of MCP1 secretion in MSCs are still unclear. Recently, the N6-methyladenosine (m6A) modification was reported to be involved in the functional regulation of MSCs. In this study, we demonstrated that methyltransferase-like 16 (METTL16) negatively regulated MCP1 expression in MSCs through the m6A modification. Specifically, the expression of METTL16 in MSCs decreased gradually and was negatively correlated with the expression of MCP1 after coculture with monocytes. Knocking down METTL16 markedly enhanced MCP1 expression and the ability to recruit monocytes. Mechanistically, knocking down METTL16 decreased MCP1 mRNA degradation, which was mediated by the m6A reader YTH N6-methyladenosine RNA-binding protein 2 (YTHDF2). We further revealed that YTHDF2 specifically recognized m6A sites on MCP1 mRNA in the CDS region and thus negatively regulated MCP1 expression. Moreover, an in vivo assay showed that MSCs transfected with METTL16 siRNA showed greater ability to recruit monocytes. These findings reveal a potential mechanism by which the m6A methylase METTL16 regulates MCP1 expression through YTHDF2-mediated mRNA degradation and suggest a potential strategy to manipulate MCP1 expression in MSCs.

Authors

Zhaoqiang Zhang, Zhongyu Xie, Jiajie Lin, Zehang Sun, Zhikun Li, Wenhui Yu, Yipeng Zeng, Guiwen Ye, Jinteng Li, Feng Ye, Zepeng Su, Yunshu Che, Peitao Xu, Chenying Zeng, Peng Wang, Yanfeng Wu, Huiyong Shen

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Figure 1

MCP1 expression is negatively correlated with the m6A methylase METTL16 in MSCs.

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MCP1 expression is negatively correlated with the m6A methylase METTL16 ...
(A) Schematic diagram of the MSC and monocyte coculture system. (B and C) m6A modification levels of MCP1 mRNA of MSCs (n = 3) cultured without (0 hour) or with monocytes for 6 hours, 12 hours, and 36 hours. (D and E) Relative mRNA expression of MCP1 and METTL16 of MSCs (n = 9) cultured with monocytes at different time points. (F) Representative blot images of MCP1, METTL16, METTL14, METTL3, ALKBH5, and FTO of MSCs (n = 9) cultured with monocytes at different time points. (G and H) The mean intensity ratio of MCP1 and METTL16 of MSCs (n = 9) cultured with monocytes at different time points. (I) The correlation between MCP1 mRNA and METTL16 mRNA expression in the MSCs cocultured with monocytes (R2 = 0.7760, P < 0.0001). Data are presented as the mean ± SD. One-way ANOVA followed by Bonferroni’s test was performed by comparison with the 0-hour group (BE, G, and H). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001. MSCs, mesenchymal stem cells; MCP1, monocyte chemoattractant protein 1.