Myeloid- and epithelial-derived RELMα contribute to tissue repair following lung helminth infection

Stefanie N. Sveiven, Sang Yong Kim, Valeria Barrientos, Jiang Li, Jennell Jennett, Samuel Asiedu, Kyle Anesko, Tara M. Nordgren, Meera G. Nair
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Abstract

Soil-transmitted helminth (STH) infections impact billions of individuals globally; however, there is a need to clarify the long-term impacts of these infections on pulmonary health owing to their transient migration and subsequent damage to the lungs. In mouse models of these infections using Nippostrongylus brasiliensis , lung pathology persists at later time points post single infection. These studies also indicate the persistent transcriptional expression of resistin-like molecule α (RELMα), an immunomodulatory protein induced in type 2 immunity and alternatively activated macrophages. Using constitutive and tamoxifen-inducible cell-specific RELMα knockout mouse strains, we identified that epithelial- and myeloid-derived RELMα protein remained elevated at 30 days post infection and altered the immune cell signature and gene expression in lung compartments. Histopathological assessment of alveolar damage revealed a role for RELMα in tissue repair, suggesting the importance of sustained RELMα expression for lung recovery from helminth infection. Acellular three-dimensional (3D) lung scaffolds were prepared from the lungs of wild-type (WT), RELMα KO-naive, or 30 days post N. brasiliensis -infected mice to assess their ability to support epithelial cell growth. N. brasiliensis infection significantly altered the scaffold and impaired epithelial cell growth and metabolic activity, especially in the RELMα KO scaffolds. These findings underscore a need to identify the long-term impacts of helminth infection on human pulmonary disease, particularly as alveolar destruction can develop into chronic obstructive pulmonary disease (COPD), which remains among the top global causes of death. Translation of these findings to human protein resistin, with sequence homology to RELMα therapeutic opportunities in lung repair.
髓系和上皮来源的RELMα有助于肺蠕虫感染后的组织修复
土壤传播的蠕虫(STH)感染影响全球数十亿人;然而,有必要澄清这些感染对肺部健康的长期影响,因为它们的短暂迁移和随后对肺部的损害。在使用巴西尼波圆线虫感染的小鼠模型中,肺部病理在单次感染后的较晚时间点持续存在。这些研究还表明抵抗素样分子α (RELMα)的持续转录表达,这是一种在2型免疫和选择性激活巨噬细胞中诱导的免疫调节蛋白。使用组成型和他莫昔芬诱导的细胞特异性RELMα敲除小鼠菌株,我们发现上皮和髓源性RELMα蛋白在感染后30天保持升高,并改变肺室的免疫细胞特征和基因表达。肺泡损伤的组织病理学评估揭示了RELMα在组织修复中的作用,提示持续表达RELMα对蠕虫感染后肺恢复的重要性。从野生型(WT)、RELMα KO-naive或巴西奈索菌感染后30天的小鼠肺部制备无细胞三维(3D)肺支架,以评估其支持上皮细胞生长的能力。巴西孢子虫感染显著改变了支架,损害了上皮细胞的生长和代谢活性,尤其是在RELMα KO支架中。这些发现强调有必要确定蠕虫感染对人类肺部疾病的长期影响,特别是肺泡破坏可发展为慢性阻塞性肺疾病(COPD),这仍然是全球最大的死亡原因之一。将这些发现转化为人类抵抗蛋白,与RELMα序列同源,在肺修复中的治疗机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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