Liver epithelial focal adhesion kinase modulates fibrogenesis and hedgehog signaling
Yun Weng, Tyler J. Lieberthal, Vivian X. Zhou, Maya Lopez-Ichikawa, Manuel Armas-Phan, Tristan K. Bond, Miya C. Yoshida, Won-Tak Choi, Tammy T. Chang
Yun Weng, Tyler J. Lieberthal, Vivian X. Zhou, Maya Lopez-Ichikawa, Manuel Armas-Phan, Tristan K. Bond, Miya C. Yoshida, Won-Tak Choi, Tammy T. Chang
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Research Article Cell biology Hepatology

Liver epithelial focal adhesion kinase modulates fibrogenesis and hedgehog signaling

Abstract

Focal adhesion kinase (FAK) is an important mediator of extracellular matrix–integrin mechano-signal transduction that regulates cell motility, survival, and proliferation. As such, FAK is being investigated as a potential therapeutic target for malignant and fibrotic diseases, and numerous clinical trials of FAK inhibitors are underway. The function of FAK in nonmalignant, nonmotile epithelial cells is not well understood. We previously showed that hepatocytes demonstrated activated FAK near stiff collagen tracts in fibrotic livers. In this study, we examined the role of liver epithelial FAK by inducing fibrotic liver disease in mice with liver epithelial FAK deficiency. We found that mice that lacked FAK in liver epithelial cells developed more severe liver injury and worse fibrosis as compared with controls. Increased fibrosis in liver epithelial FAK-deficient mice was linked to the activation of several profibrotic pathways, including the hedgehog/smoothened pathway. FAK-deficient hepatocytes produced increased Indian hedgehog in a manner dependent on matrix stiffness. Furthermore, expression of the hedgehog receptor, smoothened, was increased in macrophages and biliary cells of hepatocyte-specific FAK-deficient fibrotic livers. These results indicate that liver epithelial FAK has important regulatory roles in the response to liver injury and progression of fibrosis.

Authors

Yun Weng, Tyler J. Lieberthal, Vivian X. Zhou, Maya Lopez-Ichikawa, Manuel Armas-Phan, Tristan K. Bond, Miya C. Yoshida, Won-Tak Choi, Tammy T. Chang

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Figure 7

FAKfl/fl mice treated with AAV8-TBG-Null (Virus WT) or AAV8-TBG-Cre (Virus KO), as well as FAKfl/fl Alb-Cre (Bred WT) and FAKfl/fl Alb-Cre+ (Bred KO) mice, were given 0.1% DDC diet to induce liver fibrosis.

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FAKfl/fl mice treated with AAV8-TBG-Null (Virus WT) or AAV8-TBG-Cre (Vir...
Whole-liver tissue from these mice was analyzed by RNA-Seq. (A) Heatmap shows hierarchical clustering of 896 significantly differentially expressed genes. Each column represents the averaged normalized expression of 3 samples (n = 3). (B) There were 8 gene clusters based upon expression patterns across the 4 groups. Cluster 1 contained 16 genes; cluster 2, 2 genes; cluster 3, 82 genes; cluster 4, 110 genes; cluster 5, 156 genes; cluster 6, 327 genes; cluster 7, 110 genes; and cluster 8, 93 genes. (C) GO analysis identified several processes and pathways that were upregulated in KO mice in both Virus and Bred methods of FAK deletion. Two-way ANOVA showed that there was significant interaction between the method of FAK deletion (Virus vs. Bred) and the genotype (WT vs. KO) for differentially regulated genes in the collagen fibril and epithelial-mesenchymal transition (EMT) categories (P < 0.05). The method of FAK deletion was a significant source of variation for collagen fibril, Smo, TGF-β, and EMT pathways (P < 0.01). For all 6 categories, genotype was a significant source of variation (P < 0.0001). Post hoc Tukey’s honestly significant difference test between the groups showed *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001. Expression levels of representative genes in the (D) Smo, (E) Wnt, and (F) TGF-β pathways were compared by Student’s 2-tailed t test, *P < 0.05 and **P < 0.01. For DF, sample size was 3 per group (n = 3). Data represent individual data points and mean ± SEM.