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N6-methyladenosine of <i>Socs1</i> modulates macrophage inflammatory response in different stiffness environments

Zhekai Hu, Yuqing Li, Weihao Yuan, Lijian Jin, WK Leung, Chengfei Zhang, Yanqi Yang

2022International Journal of Biological Sciences30 citationsDOIOpen Access PDF

Abstract

Macrophages exhibit diverse functions within various tissues during the inflammatory response, and the physical properties of tissues also modulate the characteristics of macrophages. However, the underlying N6-methyladenosine (m 6 A)-associated molecular mechanisms remain unclear. Accordingly, we examined the potential role of m 6 A in macrophage activation and stiffness sensing. Intriguingly, we found that the macrophage inflammatory response and global levels of m 6 A were stiffness-dependent and that this was due to mechanically loosening the chromatin and epigenetic modification (H3K36me2 and HDAC3). In addition, we targeted suppressor of cytokine signalling 1 (Socs1) m 6 A methylation in a stiffness-dependent manner by screening the sequencing data and found that a higher stiffness hydrogel activated Jak-STAT and NFB signalling and suppressed Fto gene expression. Next, by using the CRISPR/Cas9 system to knockout the FTO gene in macrophages, we demonstrated that FTO affects the stiffness-controlled macrophage inflammatory response by sustaining the negative feedback generated by SOCS1. Finally, we determined that the m 6 A reader YTHDF1 binds Socs1 mRNA and thereby maintains expression of SOCS1. Our results suggest that the FTO/Socs1/YTHDF1 regulatory axis is vital to the stiffness-controlled macrophage inflammatory response and that the deletion of FTO affects the negative feedback control exerted by SOCS1. Our findings increase understanding of the regulatory mechanisms involved in macrophage activation and the control of inflammation.

Topics & Concepts

Suppressor of cytokine signaling 1Cell biologyInflammationMacrophageBiologySuppressor of cytokine signallingRegulation of gene expressionChemistrySOCS3ImmunologySignal transductionGeneGeneticsSuppressorSTAT3In vitroRNA modifications and cancerCancer-related gene regulationEpigenetics and DNA Methylation