Notch-mediated hepatocyte MCP-1 secretion causes liver fibrosis
Jinku Kang, Jorge Postigo-Fernandez, KyeongJin Kim, Changyu Zhu, Junjie Yu, Marica Meroni, Brent Mayfield, Alberto Bartolomé, Dianne H. Dapito, Anthony W. Ferrante Jr., Paola Dongiovanni, Luca Valenti, Remi J. Creusot, Utpal B. Pajvani
Jinku Kang, Jorge Postigo-Fernandez, KyeongJin Kim, Changyu Zhu, Junjie Yu, Marica Meroni, Brent Mayfield, Alberto Bartolomé, Dianne H. Dapito, Anthony W. Ferrante Jr., Paola Dongiovanni, Luca Valenti, Remi J. Creusot, Utpal B. Pajvani
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Research Article Gastroenterology Metabolism

Notch-mediated hepatocyte MCP-1 secretion causes liver fibrosis

Abstract

Patients with nonalcoholic steatohepatitis (NASH) have increased expression of liver monocyte chemoattractant protein-1 (MCP-1), but its cellular source and contribution to various aspects of NASH pathophysiology remain debated. We demonstrated increased liver CCL2 (which encodes MCP-1) expression in patients with NASH, and commensurately, a 100-fold increase in hepatocyte Ccl2 expression in a mouse model of NASH, accompanied by increased liver monocyte-derived macrophage (MoMF) infiltrate and liver fibrosis. To test repercussions of increased hepatocyte-derived MCP-1, we generated hepatocyte-specific Ccl2-knockout mice, which showed reduced liver MoMF infiltrate as well as decreased liver fibrosis. Forced hepatocyte MCP-1 expression provoked the opposite phenotype in chow-fed wild-type mice. Consistent with increased hepatocyte Notch signaling in NASH, we observed a close correlation between markers of Notch activation and CCL2 expression in patients with NASH. We found that an evolutionarily conserved Notch/recombination signal binding protein for immunoglobulin kappa J region binding site in the Ccl2 promoter mediated transactivation of the Ccl2 promoter in NASH diet–fed mice. Increased liver MoMF infiltrate and liver fibrosis seen in opposite gain-of-function mice was ameliorated with concomitant hepatocyte Ccl2 knockout or CCR2 inhibitor treatment. Hepatocyte Notch activation prompts MCP-1–dependent increase in liver MoMF infiltration and fibrosis.

Authors

Jinku Kang, Jorge Postigo-Fernandez, KyeongJin Kim, Changyu Zhu, Junjie Yu, Marica Meroni, Brent Mayfield, Alberto Bartolomé, Dianne H. Dapito, Anthony W. Ferrante Jr., Paola Dongiovanni, Luca Valenti, Remi J. Creusot, Utpal B. Pajvani

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Figure 2

Hepatocyte-derived MCP-1 is necessary and sufficient to induce liver fibrosis.

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Hepatocyte-derived MCP-1 is necessary and sufficient to induce liver fib...
(A) Experimental schematic for hepatocyte-specific MCP-1 gain of function by hydrodynamic injection of control (pLive-empty) or MCP-1 (pLive-MCP1) vectors in WT male mice (n = 8 mice/group). (B) Liver MCP-1 protein and quantitation from hepatocyte-specific MCP-1 gain of function by hydrodynamic injection of control (pLive-empty) or MCP-1 (pLive-MCP1) vectors in WT male mice (n = 4 mice/group). MCP-1 and actin blots are derived from the same samples run contemporaneously in parallel gels. (C) Gene expression for markers of hepatic stellate cell (HSC) activity from hepatocyte-specific MCP-1 gain of function by hydrodynamic injection of control (pLive-empty) or MCP-1 (pLive-MCP1) vectors in WT male mice (n = 8 mice/group). (D) Representative IHC image of Col1a1 protein expression from hepatocyte-specific MCP-1 gain of function by hydrodynamic injection of control (pLive-empty) or MCP-1 (pLive-MCP1) vectors in WT male mice. (E) Sirius red staining and quantitation from hepatocyte-specific MCP-1 gain of function by hydrodynamic injection of control (pLive-empty) or MCP-1 (pLive-MCP1) vectors in WT male mice (n = 6 mice/group). Scale bars: 50 μm. All data are shown with group means ± SEM; *, P < 0.05, **, P < 0.01, ***, P < 0.001 by 2-tailed t test.