Peripheral nerve-derived CSF1 induces BMP2 expression in macrophages to promote nerve regeneration and wound healing.

IF 6.4 1区 医学 Q1 CELL & TISSUE ENGINEERING npj Regenerative Medicine Pub Date : 2024-11-21 DOI:10.1038/s41536-024-00379-7
Kai Wang, Binyu Song, Yuhan Zhu, Juanli Dang, Tong Wang, Yajuan Song, Yi Shi, Shuang You, Sijia Li, Zhou Yu, Baoqiang Song
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Abstract

The precise mechanisms regulating inflammatory and prorepair macrophages have not been fully elucidated, despite the pivotal role played by innate immunity in wound healing. We first employed a denervation wound model to validate the crosstalk between neurons and macrophages. Compared to normal wound healing, the denervation wound healing process involved fewer macrophages, decreased angiogenesis, and delayed wound healing. Consistent with the results of the scRNA-seq libraries, the number of early-phase wound proinflammatory and late-phase wound prorepair macrophages were decreased during the denervation wound healing process. We profiled early-phase and late-phase skin wounds in mice at the transcriptional and functional levels and compared them to those of normal wounds. We revealed a neuroimmune regulatory pathway driven by peripheral nerve-derived CSF1 that induces BMP2 expression in prorepair macrophages and enhances nerve regeneration. Crosstalk between neurons and macrophages facilitates the healing process of wounds and provides a potential strategy for wound healing therapy.

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外周神经源性 CSF1 可诱导巨噬细胞表达 BMP2,从而促进神经再生和伤口愈合。
尽管先天性免疫在伤口愈合中发挥着关键作用,但调节炎性和促修复巨噬细胞的确切机制尚未完全阐明。我们首先利用神经支配伤口模型来验证神经元与巨噬细胞之间的相互影响。与正常伤口愈合相比,去神经支配伤口愈合过程中巨噬细胞数量减少,血管生成减少,伤口愈合延迟。与 scRNA-seq 文库的结果一致,在神经支配伤口愈合过程中,早期伤口促炎巨噬细胞和晚期伤口促修复巨噬细胞的数量都有所减少。我们从转录和功能水平分析了小鼠早期和晚期皮肤伤口,并与正常伤口进行了比较。我们揭示了由外周神经衍生的 CSF1 驱动的神经免疫调节通路,该通路可诱导促修复巨噬细胞中 BMP2 的表达并促进神经再生。神经元和巨噬细胞之间的串联促进了伤口的愈合过程,为伤口愈合治疗提供了一种潜在的策略。
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来源期刊
npj Regenerative Medicine
npj Regenerative Medicine Engineering-Biomedical Engineering
CiteScore
10.00
自引率
1.40%
发文量
71
审稿时长
12 weeks
期刊介绍: Regenerative Medicine, an innovative online-only journal, aims to advance research in the field of repairing and regenerating damaged tissues and organs within the human body. As a part of the prestigious Nature Partner Journals series and in partnership with ARMI, this high-quality, open access journal serves as a platform for scientists to explore effective therapies that harness the body's natural regenerative capabilities. With a focus on understanding the fundamental mechanisms of tissue damage and regeneration, npj Regenerative Medicine actively encourages studies that bridge the gap between basic research and clinical tissue repair strategies.
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