在博莱霉素诱导的小鼠炎症和纤维化过程中,全身和局部条件性 CD11c+髓系细胞耗竭会产生相反的效果

IF 3.1 4区 医学 Q3 IMMUNOLOGY
Gabriel Augusto Oliveira Lopes, Braulio Henrique Freire Lima, Camila Simões Freitas, Andiara Cardoso Peixoto, Frederico Marianetti Soriani, Geovanni Dantas Cassali, Bernhard Ryffel, Mauro Martins Teixeira, Fabiana Simão Machado, Remo Castro Russo
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引用次数: 0

摘要

理由 在包括特发性肺纤维化(IPF)在内的各种肺部疾病中均可观察到 CD11c+ 髓系细胞水平升高。树突状细胞(DC)和巨噬细胞(MΦ)是指导适应性免疫的关键抗原递呈细胞(APC)。然而,CD11c+髓系细胞在肺细胞外基质(ECM)积累和肺纤维化中的作用却鲜为人知。 目的 我们旨在研究在博莱霉素诱导的小鼠肺纤维化过程中消耗 CD11c+ 髓系细胞(包括 DC 和巨噬细胞)的影响。 方法 我们使用白喉毒素(DTx)受体(DTR)转基因小鼠模型(CD11c-DTR-Tg),通过两种方法消耗 CD11c+ 髓系细胞:通过腹腔注射(i.p.)进行全身消耗(SD),通过鼻内灌注(i.n.)进行局部消耗(LD)。然后,我们评估了在博莱霉素诱导的肺部炎症和纤维化过程中CD11c+细胞耗竭的影响。 结果 输注博莱霉素14天后,髓系细胞,特别是F4/80-MHCII+CD11c+ DCs和F4/80 + MHCII+CD11c+ MΦ逐渐聚集,随后出现死亡和肺纤维化。与野生型(WT)小鼠相比,通过在CD11c-DTR-Tg小鼠体内注射DTx系统性地消耗CD11c+ DCs和MΦ可防止博莱霉素诱导的死亡和肺纤维化。全身耗竭可减少髓系细胞、气道炎症(支气管肺泡灌洗液(BAL)中的白细胞总数、中性粒细胞和 CD4+ 淋巴细胞)、炎症和纤维化介质以及纤维化相关 mRNA(胶原-1α1 和 α-SMA)。观察到抗炎细胞因子 IL-10 和 CXCL9 水平升高,从而降低了肺羟脯氨酸含量和 Ashcroft 纤维化评分。相反,局部消耗 CD11c+ 细胞会增加急性白细胞涌入(主要是中性粒细胞、DCs 和 BAL 中的 MΦ)导致的死亡率,这与 IL-1β 相关,并伴有肺部过度炎症和早期纤维化的发展。 结论 全身性消耗 CD11c+ 细胞可防止博莱霉素诱导的炎症和纤维化,强调了表达 F4/80-MHCII+CD11c+ DCs 和 F4/80 + MHCII+CD11c+ MΦ 的髓系细胞在协调肺内炎症环境中的重要性,它们可能是维持肺慢性炎症的细胞因子来源,导致进行性纤维化和死亡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Opposite effects of systemic and local conditional CD11c+ myeloid cell depletion during bleomycin-induced inflammation and fibrosis in mice

Opposite effects of systemic and local conditional CD11c+ myeloid cell depletion during bleomycin-induced inflammation and fibrosis in mice

Rationale

Elevated levels of CD11c+ myeloid cells are observed in various pulmonary disorders, including Idiopathic Pulmonary Fibrosis (IPF). Dendritic cells (DCs) and macrophages (MΦ) are critical antigen-presenting cells (APCs) that direct adaptive immunity. However, the role of CD11c+ myeloid cells in lung extracellular matrix (ECM) accumulation and pulmonary fibrosis is poorly understood.

Objective

We aimed to investigate the impact of depleting CD11c+ myeloid cells, including DCs and macrophages, during bleomycin-induced pulmonary fibrosis in mice.

Methods

We used a diphtheria toxin (DTx) receptor (DTR) transgenic mouse model (CD11c-DTR-Tg) to deplete CD11c+ myeloid cells through two methods: Systemic Depletion (SD) via intraperitoneal injection (i.p.) and local depletion (LD) via intranasal instillation (i.n.). We then assessed the effects of CD11c+ cell depletion during bleomycin-induced lung inflammation and fibrosis.

Results

Fourteen days after bleomycin instillation, there was a progressive accumulation of myeloid cells, specifically F4/80-MHCII+CD11c+ DCs and F4/80 + MHCII+CD11c+ MΦ, preceding mortality and pulmonary fibrosis. Systemic depletion of CD11c+ DCs and MΦ via i.p. DTx administration in CD11c-DTR-Tg mice protected against bleomycin-induced mortality and pulmonary fibrosis compared to wild-type (WT) mice. Systemic depletion reduced myeloid cells, airway inflammation (total leukocytes, neutrophils, and CD4+ lymphocytes in bronchoalveolar lavage (BAL), inflammatory and fibrogenic mediators, and fibrosis-related mRNAs (Collagen-1α1 and α-SMA). Increased anti-inflammatory cytokine IL-10 and CXCL9 levels were observed, resulting in lower lung hydroxyproline content and Ashcroft fibrosis score. Conversely, local depletion of CD11c+ cells increased mortality by acute leukocyte influx (predominantly neutrophils, DCs, and MΦ in BAL) correlated to IL-1β, with lung hyper-inflammation and early fibrosis development.

Conclusion

Systemic depletion of CD11c+ cells confers protection against inflammation and fibrosis induced by Bleomycin, underscoring the significance of myeloid cells expressing F4/80-MHCII+CD11c+ DCs and F4/80 + MHCII+CD11c+ MΦ orchestrating the inflammatory milieu within the lungs, potentially as a source of cytokines sustaining pulmonary chronic inflammation leading to progressive fibrosis and mortality.

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来源期刊
Immunity, Inflammation and Disease
Immunity, Inflammation and Disease Medicine-Immunology and Allergy
CiteScore
3.60
自引率
0.00%
发文量
146
审稿时长
8 weeks
期刊介绍: Immunity, Inflammation and Disease is a peer-reviewed, open access, interdisciplinary journal providing rapid publication of research across the broad field of immunology. Immunity, Inflammation and Disease gives rapid consideration to papers in all areas of clinical and basic research. The journal is indexed in Medline and the Science Citation Index Expanded (part of Web of Science), among others. It welcomes original work that enhances the understanding of immunology in areas including: • cellular and molecular immunology • clinical immunology • allergy • immunochemistry • immunogenetics • immune signalling • immune development • imaging • mathematical modelling • autoimmunity • transplantation immunology • cancer immunology
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