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 8

Hh/Smo pathway gene expression was determined in FAK-deficient hepatocytes and fibrotic hepatocyte-specific FAK-deficient liver.

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Hh/Smo pathway gene expression was determined in FAK-deficient hepatocyt...
(A) Isolated hepatocytes from 6- to 8-week-old FAKfl/fl Alb-Cre (WT) and FAKfl/fl Alb-Cre+ (FAK–/–) mice on normal chow diet were cultured on collagen-coated polyacrylamide gels of 140 Pa, 1 kPa, or 6 kPa stiffness. Ihh mRNA expression was determined by qRT-PCR 24 hours later. Sample size n = 5–6 per group. (B) Stellate cells were isolated from WT and FAK–/– mice with DDC-induced fibrosis. Expression of Hh/Smo pathway genes and stellate cell activation markers was determined by qRT-PCR. Sample size n = 4 per group. (C) Three-color multiplexed RNAscope analysis of Smo, Adgre1, and Krt19 was performed on DDC-induced fibrotic liver tissues of FAKfl/fl mice treated with AAV8-TBG-Null (Null) or AAV8-TBG-Cre (Cre). Images are representative of n = 4 per group. Scale bar: 20 μm. (D) Number of Smo+ dots that were colocalized with Adgre1+ macrophages. (E) Number of Smo+ dots that were colocalized with Krt19+ biliary cells. For D and E, 10 portal areas were analyzed per mouse, and at least 20 Adgre1+ or Krt19+ cells were analyzed per portal area; sample size was n = 4 per group. *P < 0.05, **P < 0.01, and ***P < 0.001 by Student’s 2-tailed t test. Data represent individual data points and mean ± SEM.