STING coordinates resolution of inflammation during wound repair by modulating macrophage trafficking through STAT3

Efficient cutaneous wound healing requires a coordinated transition between inflammatory phases mediated by dynamic changes in leukocyte subset populations. Here, we identify STING as a key innate immune mediator governing timely resolution of inflammation by regulating macrophage dynamics during sk...

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Bibliographic Details
Published in:Journal of leukocyte biology 2024-08
Main Authors: Chen, Cheng, Cai, Xin, Liu, Zhihui, Zhang, Weiguang, Yang, Jiacai, Tang, Yuanyang, Chen, Yunxia, Huang, Yong, Hu, Wengang, Zhang, Xiaorong, Zhou, Junyi, Wu, Yanjun, Yin, Wenjing, Shang, Ruoyu, Lu, Qudong, Sheng, Hao, Ju, Zhenyu, Luo, Gaoxing, He, Weifeng
Format: Article
Language:English
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Summary:Efficient cutaneous wound healing requires a coordinated transition between inflammatory phases mediated by dynamic changes in leukocyte subset populations. Here, we identify STING as a key innate immune mediator governing timely resolution of inflammation by regulating macrophage dynamics during skin repair. Using a mouse model, we show STING deficiency caused delayed wound closure associated with abnormal persistence of TNF-α+ leukocytes. This resulted from the impaired macrophage recruitment. STING controlled the trafficking of bone marrow myeloid cells into blood and wounds, intrinsically enhancing macrophage migratory capacity through STAT3 activation. Specifically, STING modulated the production of monocyte chemokines and their receptors CCR2/CCR5 to enable efficient egress and wound infiltration. Consequently, disrupted systemic and local STING-STAT3-chemokine signaling combine to delay macrophage influx. This study elucidates STING as a critical rheostat tuning macrophage responses through STAT3 to orchestrate inflammatory resolution necessary for efficient wound healing. Our findings have broad implications for targeting STING therapeutically in both regenerative medicine and inflammatory disease contexts. STING regulates the macrophage trafficking through STAT3 in wound healing.
ISSN:1938-3673
1938-3673
DOI:10.1093/jleuko/qiae175