Reproducible lung protective effects of a TGFβR1/ALK5 inhibitor in a bleomycin-induced and spirometry-confirmed model of IPF in male mice.

IF 2.2 Q3 PHYSIOLOGY

Physiological Reports Pub Date : 2024-10-01 DOI:10.14814/phy2.70077

Asbjørn Graver Petersen, Stefanie H Korntner, Jamal Bousamaki, Denise Oró, Alba Manresa Arraut, Susanne E Pors, Casper Gravesen Salinas, Maja Worm Andersen, Martin Rønn Madsen, Yaohui Nie, Jordan Butts, Manuel Roqueta-Rivera, Ulf Simonsen, Henrik H Hansen, Michael Feigh

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引用次数: 0

Abstract

This study comprehensively validated the bleomycin (BLEO) induced mouse model of IPF for utility in preclinical drug discovery. To this end, the model was rigorously evaluated for reproducible phenotype and TGFβ-directed treatment outcomes. Lung disease was profiled longitudinally in male C57BL6/JRJ mice receiving a single intratracheal instillation of BLEO (n = 10-12 per group). A TGFβR1/ALK5 inhibitor (ALK5i) was profiled in six independent studies in BLEO-IPF mice, randomized/stratified to treatment according to baseline body weight and non-invasive whole-body plethysmography. ALK5i (60 mg/kg/day) or vehicle (n = 10-16 per study) was administered orally for 21 days, starting 7 days after intratracheal BLEO installation. BLEO-IPF mice recapitulated functional, histological and biochemical hallmarks of IPF, including declining expiratory/inspiratory capacity and inflammatory and fibrotic lung injury accompanied by markedly elevated TGFβ levels in bronchoalveolar lavage fluid and lung tissue. Pulmonary transcriptome signatures of inflammation and fibrosis in BLEO-IPF mice were comparable to reported data in IPF patients. ALK5i promoted reproducible and robust therapeutic outcomes on lung functional, biochemical and histological endpoints in BLEO-IPF mice. The robust lung fibrotic disease phenotype, along with the consistent and reproducible lung protective effects of ALK5i treatment, makes the spirometry-confirmed BLEO-IPF mouse model highly applicable for profiling novel drug candidates for IPF.

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一种 TGFβR1/ALK5 抑制剂在博莱霉素诱导并经肺活量测定证实的雄性小鼠 IPF 模型中具有可重复的肺保护作用。

这项研究全面验证了博莱霉素（BLEO）诱导的IPF小鼠模型在临床前药物研发中的实用性。为此，对该模型的表型和TGFβ导向治疗结果的可重复性进行了严格评估。雄性 C57BL6/JRJ 小鼠接受一次 BLEO 气管内灌注（每组 n = 10-12）后，肺部疾病得到纵向分析。在对BLEO-IPF小鼠进行的六项独立研究中，对TGFβR1/ALK5抑制剂（ALK5i）进行了分析，并根据基线体重和非侵入性全身胸压测量法对治疗进行了随机/分层。ALK5i（60 毫克/千克/天）或载体（每项研究 n = 10-16）口服给药 21 天，从气管内安装 BLEO 7 天后开始。BLEO-IPF小鼠再现了IPF的功能、组织学和生化特征，包括呼气/吸气能力下降、肺部炎症和纤维化损伤以及支气管肺泡灌洗液和肺组织中TGFβ水平的显著升高。BLEO-IPF小鼠肺部炎症和纤维化的转录组特征与已报道的IPF患者数据相当。ALK5i对BLEO-IPF小鼠肺功能、生化和组织学终点的治疗效果具有可重复性和稳健性。强健的肺纤维化疾病表型，加上ALK5i治疗的一致且可重复的肺保护作用，使经肺活量测定确认的BLEO-IPF小鼠模型非常适合用于分析治疗IPF的新型候选药物。

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

Physiological Reports PHYSIOLOGY-

CiteScore

4.20

自引率

4.00%

发文量

374

审稿时长

9 weeks

期刊介绍： Physiological Reports is an online only, open access journal that will publish peer reviewed research across all areas of basic, translational, and clinical physiology and allied disciplines. Physiological Reports is a collaboration between The Physiological Society and the American Physiological Society, and is therefore in a unique position to serve the international physiology community through quick time to publication while upholding a quality standard of sound research that constitutes a useful contribution to the field.