Cathepsin D is essential for the degradomic shift of macrophages required to resolve liver fibrosis

IF 7 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Paloma Ruiz-Blázquez , María Fernández-Fernández , Valeria Pistorio , Celia Martinez-Sanchez , Michele Costanzo , Paula Iruzubieta , Ekaterina Zhuravleva , Júlia Cacho-Pujol , Silvia Ariño , Alejandro Del Castillo-Cruz , Susana Núñez , Jesper B. Andersen , Margherita Ruoppolo , Javier Crespo , Carmen García-Ruiz , Luigi Michele Pavone , Thomas Reinheckel , Pau Sancho-Bru , Mar Coll , José C. Fernández-Checa , Anna Moles
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引用次数: 0

Abstract

Background and objectives

Fibrosis contributes to 45% of deaths in industrialized nations and is characterized by an abnormal accumulation of extracellular matrix (ECM). There are no specific anti-fibrotic treatments for liver fibrosis, and previous unsuccessful attempts at drug development have focused on preventing ECM deposition. Because liver fibrosis is largely acknowledged to be reversible, regulating fibrosis resolution could offer novel therapeutical options. However, little is known about the mechanisms controlling ECM remodeling during resolution. Changes in proteolytic activity are essential for ECM homeostasis and macrophages are an important source of proteases. Herein, in this study we evaluate the role of macrophage-derived cathepsin D (CtsD) during liver fibrosis.

Methods

CtsD expression and associated pathways were characterized in single-cell RNA sequencing and transcriptomic datasets in human cirrhosis. Liver fibrosis progression, reversion and functional characterization were assessed in novel myeloid-CtsD and hepatocyte-CtsD knock-out mice.

Results

Analysis of single-cell RNA sequencing datasets demonstrated CtsD was expressed in macrophages and hepatocytes in human cirrhosis. Liver fibrosis progression, reversion and functional characterization were assessed in novel myeloid-CtsD (CtsDΔMyel) and hepatocyte-CtsD knock-out mice. CtsD deletion in macrophages, but not in hepatocytes, resulted in enhanced liver fibrosis. Both inflammatory and matrisome proteomic signatures were enriched in fibrotic CtsDΔMyel livers. Besides, CtsDΔMyel liver macrophages displayed functional, phenotypical and secretomic changes, which resulted in a degradomic phenotypical shift, responsible for the defective proteolytic processing of collagen I in vitro and impaired collagen remodeling during fibrosis resolution in vivo. Finally, CtsD-expressing mononuclear phagocytes of cirrhotic human livers were enriched in lysosomal and ECM degradative signaling pathways.

Conclusions

Our work describes for the first-time CtsD-driven lysosomal activity as a central hub for restorative macrophage function during fibrosis resolution and opens new avenues to explore their degradome landscape to inform drug development.

Abstract Image

Abstract Image

cathepsin d 对巨噬细胞的降解转移至关重要,而巨噬细胞的降解转移是解决肝纤维化所必需的。
背景和目的:在工业化国家,肝纤维化导致 45% 的死亡,其特征是细胞外基质 (ECM) 的异常积累。目前还没有针对肝纤维化的特异性抗纤维化治疗方法,以往不成功的药物开发尝试主要集中在防止 ECM 沉积方面。由于肝纤维化在很大程度上被认为是可逆的,因此调节肝纤维化的缓解可提供新的治疗方案。然而,人们对缓解过程中控制 ECM 重塑的机制知之甚少。蛋白水解活性的变化对 ECM 的平衡至关重要,而巨噬细胞是蛋白酶的重要来源。在本研究中,我们评估了巨噬细胞衍生的 cathepsin D(CtsD)在肝纤维化过程中的作用:方法:在人类肝硬化的单细胞 RNA 测序和转录组数据集中鉴定了 CtsD 的表达和相关通路。在新型髓系-CtsD基因敲除小鼠和肝细胞-CtsD基因敲除小鼠中评估了肝纤维化的进展、逆转和功能特征:结果:单细胞RNA测序数据集分析表明,CtsD在人类肝硬化患者的巨噬细胞和肝细胞中均有表达。在新型髓系-CtsD(CtsDΔMyel)和肝细胞-CtsD基因敲除小鼠中评估了肝纤维化的进展、逆转和功能特征。巨噬细胞中的 CtsD 基因缺失会导致肝纤维化加重,而肝细胞中的 CtsD 基因缺失不会导致肝纤维化加重。在纤维化的CtsDΔMyel肝脏中,炎症和母质组蛋白质组特征都被富集。此外,CtsDΔMyel肝巨噬细胞在功能、表型和分泌组学方面都发生了变化,导致了降解表型的转变,造成了体外胶原蛋白I蛋白水解过程的缺陷和体内纤维化缓解过程中胶原蛋白重塑的受损。最后,肝硬化患者肝脏中表达 CtsD 的单核吞噬细胞丰富了溶酶体和 ECM 降解信号通路:我们的工作首次描述了 CtsD 驱动的溶酶体活动是巨噬细胞在纤维化消解过程中恢复功能的中心枢纽,并为探索其降解组景观为药物开发提供信息开辟了新途径。
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来源期刊
Molecular Metabolism
Molecular Metabolism ENDOCRINOLOGY & METABOLISM-
CiteScore
14.50
自引率
2.50%
发文量
219
审稿时长
43 days
期刊介绍: Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.
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