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Stress granule assembly impairs macrophage efferocytosis to aggravate allergic rhinitis in mice

Author

Listed:
  • Ye Zhou

    (Second Military Medical University)

  • Zixuan Yang

    (Second Affiliated Hospital of Second Military Medical University
    No. 940 Hospital of Joint Logistics Support Force of People’s Liberation Army)

  • Yuanyuan Wang

    (Second Military Medical University)

  • Yue Dong

    (Second Military Medical University)

  • Tianyu Wang

    (Second Affiliated Hospital of Second Military Medical University)

  • Yunhui Li

    (Second Military Medical University)

  • Caiquan Liang

    (Second Affiliated Hospital of Second Military Medical University)

  • Yanfang Liu

    (Second Military Medical University)

  • Zhixuan Li

    (Second Military Medical University)

  • Shanrong Liu

    (Second Military Medical University)

  • Liangchen Gui

    (Second Military Medical University)

  • Yiwen Fan

    (Second Military Medical University)

  • Ting Lei

    (Second Military Medical University)

  • Kaiwei Jia

    (Second Military Medical University)

  • Liyuan Zhang

    (Second Military Medical University)

  • Mu Wang

    (Second Military Medical University)

  • Wen Nie

    (Second Military Medical University)

  • Long Chen

    (Second Military Medical University)

  • Mingrui Ma

    (Second Military Medical University)

  • Yanfeng Wu

    (Second Military Medical University)

  • Cuiping Zhong

    (No. 940 Hospital of Joint Logistics Support Force of People’s Liberation Army)

  • Huanhai Liu

    (Second Affiliated Hospital of Second Military Medical University)

  • Jin Hou

    (Second Military Medical University)

Abstract

Cytoplasmic stress granules (SG) assemble in response to stress-induced translational arrest and are key signaling hubs orchestrating cell fate and regulating various physiological and pathological processes. However, the role of SG formation in the progression of allergic diseases is incompletely understood. Here, by analyzing the nasal tissues of allergic rhinitis (AR) mouse models and AR patients, we find that SGs assemble specifically in the macrophages within the nasal mucosa and promote AR progression by restraining the efferocytotic ability of macrophages, ultimately resulting in reduced Mres generation and IL-10 production. Mechanistically, intracellular m7G-modified Lrp1 mRNA, encoding for a typical efferocytosis receptor, is transported by the m7G reader QKI7 into stress-induced SGs, where Lrp1 mRNA is sequestered away from the translation machinery, ultimately resulting in reduced macrophage efferocytosis. Therefore, SG assembly impairs macrophage efferocytosis and aggravates AR, and the inhibition of SGs bears considerable potential in the targeted therapy.

Suggested Citation

  • Ye Zhou & Zixuan Yang & Yuanyuan Wang & Yue Dong & Tianyu Wang & Yunhui Li & Caiquan Liang & Yanfang Liu & Zhixuan Li & Shanrong Liu & Liangchen Gui & Yiwen Fan & Ting Lei & Kaiwei Jia & Liyuan Zhang , 2025. "Stress granule assembly impairs macrophage efferocytosis to aggravate allergic rhinitis in mice," Nature Communications, Nature, vol. 16(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60920-0
    DOI: 10.1038/s41467-025-60920-0
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