代谢重编程作为肺纤维化中成纤维细胞激活的驱动因素。

Metabolic Reprogramming as a Driver of Fibroblast Activation in PulmonaryFibrosis.

机构信息

Department of Medicine, Center for Translational Research and Division of Pulmonary, Allergy and Critical Care Medicine and; Jane & Leonard Korman Respiratory Institute, Thomas Jefferson University, Philadelphia, Pennsylvania.

出版信息

Am J Med Sci. 2019 May;357(5):394-398. doi: 10.1016/j.amjms.2019.02.003. Epub 2019 Feb 12.

DOI:10.1016/j.amjms.2019.02.003

PMID:30879738

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6478549/

Abstract

Pulmonary fibrosis refers to a heterogeneous group of disorders that scar the lung, most often irreversibly. To date, there are limited effective treatments for these conditions, despite decades of research in this area of investigation. In pulmonary fibrosis, the principle cell responsible for producing the vast majority of scar tissue is the fibroblast, making these cells ideally suited for drug targeting. For decades, the major experimental approach to blocking the activity of lung fibroblasts has been either to inhibit the interaction of fibroblast growth factors with their receptors or interfere with downstream effector molecules regulating extracellular matrix production. However, emerging evidence now indicates that lung fibroblasts also undergo dramatic metabolic reprogramming in the setting of growth factor stimulation. These discoveries, along with preclinical investigations showing marked reductions in lung fibrosis after targeting specific metabolic pathways, has led to a total rethinking of drug development in the pulmonary fibrosis field. Here, we review the major metabolic pathways and highlight some of the key metabolic events that occur in the transition of fibroblasts from quiescent to activated states. Moreover, we discuss the emerging evidence linking changes in fibroblast metabolism to pulmonary fibrosis and propose how targeting specific metabolic pathways could be employed in the treatment of fibrotic lung diseases.

摘要

肺纤维化是一组异质性疾病，导致肺部瘢痕形成，大多数情况下是不可逆转的。尽管在这一研究领域已经进行了几十年的研究，但迄今为止，这些疾病的有效治疗方法仍然有限。在肺纤维化中，产生绝大多数瘢痕组织的主要细胞是成纤维细胞，这使得这些细胞非常适合作为药物靶点。几十年来，阻止肺成纤维细胞活性的主要实验方法是抑制成纤维细胞生长因子与其受体的相互作用，或干扰调节细胞外基质产生的下游效应分子。然而，现在新出现的证据表明，在生长因子刺激下，肺成纤维细胞也会发生显著的代谢重编程。这些发现，以及临床前研究表明，靶向特定代谢途径后，肺纤维化明显减少，这导致了肺纤维化领域药物开发的全面重新思考。在这里，我们综述了主要的代谢途径，并强调了成纤维细胞从静止状态向激活状态转变过程中发生的一些关键代谢事件。此外，我们还讨论了将成纤维细胞代谢变化与肺纤维化联系起来的新证据，并提出了如何利用靶向特定代谢途径来治疗纤维性肺病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5970/6478549/7cbc735a2cb0/nihms-1521383-f0001.jpg

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