Link Frederik, Li Yujia, Zhao Jieling, Munker Stefan, Fan Weiguo, Nwosu Zeribe C, Yao Ye, Wang Shanshan, Huang Chenjun, Liebe Roman, Hammad Seddik, Liu Hui, Shao Chen, Gao Chunfang, Sun Bing, Török Natalie J, Ding Huiguo, Ebert Matthias Pa, Weng Honglei, Ten Dijke Peter, Drasdo Dirk, Dooley Steven, Wang Sai
Department of Medicine II, University Medical Center Mannheim, Medical Faculty Mannheim, Heidelberg University, Mannheim, Germany.
INRIA de Saclay, Palaiseau, France.
Gut. 2025 Feb 6;74(3):424-439. doi: 10.1136/gutjnl-2024-333213.
Extracellular matrix protein 1 (ECM1) serves as a gatekeeper of hepatic fibrosis by maintaining transforming growth factor-β1 (TGF-β1) in its latent form. ECM1 knockout (KO) causes latent (L) TGF-β1 activation, resulting in hepatic fibrosis with rapid mortality. In chronic liver disease (CLD), ECM1 decreases with increasing CLD severity. We investigate the regulatory role of ECM1 in TGF-β1 bioavailability and its impact on CLD progression.
RNAseq was performed to analyse hepatic gene expression. Functional assays were performed using hepatic stellate cells (HSCs), -KO and -KO mice, patient liver tissue and computer simulations.
Expression of LTGF-β1 activators, including thrombospondins (TSPs), ADAMTS proteases and matrix metalloproteinases (MMPs), increased along with profibrotic gene expression in liver tissue of -KO mice. In HSCs, overexpression of ECM1 prevented LTGF-β1 activation mediated by TSP-1, ADAMTS1, and MMP-2/9. In vitro interaction assays demonstrated that ECM1 inhibited LTGF-β1 activation by interacting with TSP-1 and ADAMTS1 via their respective, intrinsic KRFK or KTFR amino acid sequences and by suppressing MMP-2/9 proteolytic activity. In mice, ECM1 overexpression attenuated KRFK-induced LTGF-β1 activation while KTFR treatment reversed -KO-mediated and -KO-mediated liver injury. In patients with CLD, ECM1 expression was inversely correlated with TSP-1, ADAMTS1, MMP-2/9 expression and LTGF-β1 activation. And, these results were complemented by a computational compartment model representing the key network of cellular phenotypes and predicted interactions in liver fibrogenesis.
Our findings underscore the hepatoprotective effect of ECM1, which interferes with mediators of LTGF-β1 activation, suggesting ECM1 or its representative peptide as potential antifibrotic therapies in CLD.
细胞外基质蛋白1(ECM1)通过维持转化生长因子-β1(TGF-β1)的潜伏形式,充当肝纤维化的守门员。ECM1基因敲除(KO)会导致潜伏性(L)TGF-β1激活,从而导致肝纤维化并伴有快速死亡。在慢性肝病(CLD)中,ECM1随着CLD严重程度的增加而减少。我们研究了ECM1在TGF-β1生物利用度中的调节作用及其对CLD进展的影响。
进行RNA测序以分析肝脏基因表达。使用肝星状细胞(HSC)、基因敲除小鼠和基因敲除小鼠、患者肝组织以及计算机模拟进行功能测定。
在基因敲除小鼠的肝组织中,包括血小板反应蛋白(TSP)、含血小板反应蛋白基序的解聚蛋白样金属蛋白酶(ADAMTS)和基质金属蛋白酶(MMP)在内的潜伏性TGF-β1激活剂的表达随着促纤维化基因表达的增加而增加。在肝星状细胞中,ECM1的过表达可防止由TSP-1、ADAMTS1和MMP-2/9介导的潜伏性TGF-β1激活。体外相互作用分析表明,ECM1通过分别与TSP-1和ADAMTS1的固有KRFK或KTFR氨基酸序列相互作用,并通过抑制MMP-2/9的蛋白水解活性来抑制潜伏性TGF-β1激活。在小鼠中,ECM1过表达减弱了KRFK诱导的潜伏性TGF-β1激活,而KTFR处理则逆转了基因敲除介导的和基因敲除介导的肝损伤。在CLD患者中,ECM1表达与TSP-1、ADAMTS1、MMP-2/9表达和潜伏性TGF-β1激活呈负相关。并且,这些结果得到了一个计算隔室模型的补充,该模型代表了细胞表型的关键网络以及肝纤维化形成中的预测相互作用。
我们的研究结果强调了ECM1的肝保护作用,它干扰了潜伏性TGF-β1激活的介质,表明ECM1或其代表性肽作为CLD中潜在的抗纤维化疗法。
