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靶向 AXL 受体防治与吸烟相关的肺纤维化。

Targeting the AXL Receptor in Combating Smoking-related Pulmonary Fibrosis.

机构信息

Division of Pulmonary and Critical Care Medicine, and Center for Comparative Respiratory Biology and Medicine, Department of Internal Medicine, and.

Division of Nephrology, Department of Internal Medicine, University of California, Davis, Davis, California; and.

出版信息

Am J Respir Cell Mol Biol. 2021 Jun;64(6):734-746. doi: 10.1165/rcmb.2020-0303OC.

DOI:10.1165/rcmb.2020-0303OC
PMID:33730527
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8456879/
Abstract

Tobacco smoking is a well-known risk factor for both fibrogenesis and fibrotic progression; however, the mechanisms behind these processes remain enigmatic. RTKs (receptor tyrosine kinases) have recently been reported to drive profibrotic phenotypes in fibroblasts during pulmonary fibrosis (PF). Using a phospho-RTK array screen, we identified the RTK AXL as a top upregulated RTK in response to smoke. Both expression and signaling activity of AXL were indeed elevated in lung fibroblasts exposed to tobacco smoke, whereas no significant change to the levels of a canonical AXL ligand, Gas6 (growth arrest-specific 6), was seen upon smoke treatment. Notably, we found that smoke-exposed human lung fibroblasts exhibited highly proliferative and invasive activities and were capable of inducing fibrotic lung lesions in mice. Conversely, genetic suppression of AXL in smoke-exposed fibroblasts cells led to suppression of AXL downstream pathways and aggressive phenotypes. We further demonstrated that AXL interacted with MARCKS (myristoylated alanine-rich C kinase substrate) and cooperated with MARCKS in regulating downstream signaling activity and fibroblast invasiveness. Pharmacological inhibition of AXL with AXL-specific inhibitor R428 showed selectivity for smoke-exposed fibroblasts. In all, our data suggest that AXL is a potential marker for smoke-associated PF and that targeting of the AXL pathway is a potential therapeutic strategy in treating tobacco smoking-related PF.

摘要

吸烟是纤维发生和纤维化进展的已知危险因素;然而,这些过程背后的机制仍然是个谜。受体酪氨酸激酶(RTKs)最近被报道在肺纤维化(PF)期间驱动成纤维细胞的致纤维化表型。通过磷酸化 RTK 阵列筛选,我们发现 RTK AXL 是对烟雾反应中上调最多的 RTK。烟草烟雾暴露确实会增加肺成纤维细胞中 AXL 的表达和信号转导活性,而烟雾处理后 AXL 的典型配体 Gas6(生长停滞特异性 6)水平没有明显变化。值得注意的是,我们发现暴露于烟雾的人肺成纤维细胞表现出高度增殖和侵袭活性,并且能够在小鼠中诱导纤维化肺病变。相反,在暴露于烟雾的成纤维细胞中抑制 AXL 的遗传表达会抑制 AXL 下游途径和侵袭性表型。我们进一步证明 AXL 与 MARCKS(豆蔻酰化丙氨酸丰富的 C 激酶底物)相互作用,并与 MARCKS 合作调节下游信号转导活性和成纤维细胞侵袭性。AXL 特异性抑制剂 R428 抑制 AXL 表现出对暴露于烟雾的成纤维细胞的选择性。总之,我们的数据表明 AXL 是与吸烟相关的 PF 的一个潜在标志物,靶向 AXL 途径是治疗与吸烟相关的 PF 的一种潜在治疗策略。

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AXL receptor tyrosine kinase as a promising anti-cancer approach: functions, molecular mechanisms and clinical applications.AXL 受体酪氨酸激酶作为一种有前途的抗癌方法:功能、分子机制和临床应用。
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Tackling MARCKS-PIP3 circuit attenuates fibroblast activation and fibrosis progression.靶向 MARCKS-PIP3 通路可抑制成纤维细胞活化和纤维化进展。
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The TAMing of the Idiopathic Pulmonary Fibrosis Myofibroblast. One Step Closer?特发性肺纤维化肌成纤维细胞的驯化。又近了一步?
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Targeting of TAM Receptors Ameliorates Fibrotic Mechanisms in Idiopathic Pulmonary Fibrosis.靶向 TAM 受体可改善特发性肺纤维化中的纤维化机制。
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Ginsenoside Rg1 Ameliorates Cigarette Smoke-Induced Airway Fibrosis by Suppressing the TGF-1/Smad Pathway In Vivo and In Vitro.人参皂苷Rg1通过在体内和体外抑制TGF-1/Smad信号通路改善香烟烟雾诱导的气道纤维化。
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