Molecular imaging in experimental pulmonary fibrosis reveals that nintedanib unexpectedly modulates CCR2 immune cell infiltration.

IF 9.7 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL EBioMedicine Pub Date : 2024-11-07 DOI:10.1016/j.ebiom.2024.105431

Hasan Farooq, Hannah P Luehmann, Jeffrey R Koenitzer, Gyu Seong Heo, Deborah H Sultan, Devesha H Kulkarni, Sean P Gunsten, Rekha M Sashti, Tao Huang, Amanda R Keller, Kory J Lavine, Jeffrey J Atkinson, Laura M Wingler, Yongjian Liu, Steven L Brody

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Abstract

Background: Pulmonary fibrosis is a challenging clinical problem with lung pathology featuring immune cell infiltrates, fibroblast expansion, and matrix deposition. Molecular analysis of diseased lungs and preclinical models have uncovered C-C chemokine receptor type 2 (CCR2)+ monocyte egress from the bone marrow into the lung, where they acquire profibrotic activities. Current drug treatment is focused on fibroblast activity. Alternatively, therapeutic targeting and monitoring CCR2+ cells may be an effective patient management strategy.

Methods: Inhibition of CCR2+ cells and, as a benchmark, the clinical antifibrotic agent, nintedanib, were used in mouse lung fibrosis models. Lungs were evaluated directly for CCR2+ cell infiltration and by non-invasive CCR2+ positron emission tomography imaging (CCR2-PET).

Findings: Lung CCR2+ cells were significantly elevated in the bleomycin model as determined by tissue evaluation and CCR2-PET imaging. A protective treatment protocol with an oral CCR2 inhibitor was compared to oral nintedanib. While we expected disparate effects on CCR2+ cells, each drug similarly decreased lung CCR2+ cells and fibrosis. Chemotaxis assays showed nintedanib indirectly inhibited C-C motif chemokine 2 (CCL2)-mediated migration of CCR2+ cells. Even delayed therapeutic administration of nintedanib in bleomycin and the silicosis progressive fibrosis models decreased the accumulation of CCR2+ lung cells. In these treatments early CCR2-PET imaging predicted the later development of fibrosis.

Interpretation: The inhibition of CCR2+ cell egress is likely a critical controller for stabilising lung fibrosis, as provided by nintedanib. Imaging with CCR2-PET may be useful to monitor nintedanib treatment responses, guide decision-making in the treatment of patients with progressive pulmonary fibrosis, and as a biomarker for drug development.

Funding: National Institutes of Health (NIH), R01HL131908 (SLB), R35HL145212 (YL), P41EB025815 (YL), K01DK133670 (DHK); Barnes Jewish Hospital Foundation (SLB).

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实验性肺纤维化的分子成像显示，宁替尼能出人意料地调节 CCR2 免疫细胞的浸润。

背景：肺纤维化是一个具有挑战性的临床问题，其肺部病理特征是免疫细胞浸润、成纤维细胞扩张和基质沉积。对患病肺部和临床前模型的分子分析发现，C-C 趋化因子受体 2 型（CCR2）+ 单核细胞从骨髓进入肺部，并在肺部获得促纤维化活性。目前的药物治疗主要针对成纤维细胞的活性。另外，针对 CCR2+ 细胞的治疗和监测可能是一种有效的患者管理策略：方法：在小鼠肺纤维化模型中使用 CCR2+ 细胞抑制剂和临床抗纤维化药物宁替达尼（nintedanib）作为基准。直接评估肺部CCR2+细胞浸润情况，并通过无创CCR2+正电子发射断层扫描成像（CCR2-PET）进行评估：通过组织评估和CCR2-PET成像确定，博莱霉素模型中肺CCR2+细胞明显升高。我们将口服 CCR2 抑制剂的保护性治疗方案与口服宁替达尼进行了比较。虽然我们预计两种药物对CCR2+细胞的影响不同，但每种药物都同样减少了肺部CCR2+细胞和纤维化。趋化试验显示，宁替达尼间接抑制了C-C趋化因子2（CCL2）介导的CCR2+细胞迁移。即使在博莱霉素和矽肺进行性纤维化模型中延迟服用宁替达尼，也能减少CCR2+肺细胞的聚集。在这些治疗中，早期的CCR2-PET成像可预测后期纤维化的发展：正如宁替达尼（nintedanib）所提供的那样，抑制CCR2+细胞出口可能是稳定肺纤维化的关键控制因素。CCR2-PET成像可用于监测宁替达尼的治疗反应，指导进行性肺纤维化患者的治疗决策，并可作为药物开发的生物标记物：美国国立卫生研究院（NIH），R01HL131908（SLB），R35HL145212（YL），P41EB025815（YL），K01DK133670（DHK）；巴恩斯犹太医院基金会（SLB）。

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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来源期刊

EBioMedicine Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology

CiteScore

17.70

自引率

0.90%

发文量

579

审稿时长

5 weeks

期刊介绍： eBioMedicine is a comprehensive biomedical research journal that covers a wide range of studies that are relevant to human health. Our focus is on original research that explores the fundamental factors influencing human health and disease, including the discovery of new therapeutic targets and treatments, the identification of biomarkers and diagnostic tools, and the investigation and modification of disease pathways and mechanisms. We welcome studies from any biomedical discipline that contribute to our understanding of disease and aim to improve human health.