Hepatocyte-specific CCAAT/enhancer binding protein α restricts liver fibrosis progression
Tingting Yan, … , Haiping Hao, Frank J. Gonzalez
Tingting Yan, … , Haiping Hao, Frank J. Gonzalez
Published April 1, 2024
Citation Information: J Clin Invest. 2024;134(7):e166731. https://doi.org/10.1172/JCI166731.
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Hepatocyte-specific CCAAT/enhancer binding protein α restricts liver fibrosis progression

Abstract

Metabolic dysfunction–associated steatohepatitis (MASH) — previously described as nonalcoholic steatohepatitis (NASH) — is a major driver of liver fibrosis in humans, while liver fibrosis is a key determinant of all-cause mortality in liver disease independent of MASH occurrence. CCAAT/enhancer binding protein α (CEBPA), as a versatile ligand-independent transcriptional factor, has an important function in myeloid cells, and is under clinical evaluation for cancer therapy. CEBPA is also expressed in hepatocytes and regulates glucolipid homeostasis; however, the role of hepatocyte-specific CEBPA in modulating liver fibrosis progression is largely unknown. Here, hepatic CEBPA expression was found to be decreased during MASH progression both in humans and mice, and hepatic CEBPA mRNA was negatively correlated with MASH fibrosis in the human liver. CebpaΔHep mice had markedly enhanced liver fibrosis induced by a high-fat, high-cholesterol, high-fructose diet or carbon tetrachloride. Temporal and spatial hepatocyte-specific CEBPA loss at the progressive stage of MASH in CebpaΔHep,ERT2 mice functionally promoted liver fibrosis. Mechanistically, hepatocyte CEBPA directly repressed Spp1 transactivation to reduce the secretion of osteopontin, a fibrogenesis inducer of hepatic stellate cells. Forced hepatocyte-specific CEBPA expression reduced MASH-associated liver fibrosis. These results demonstrate an important role for hepatocyte-specific CEBPA in liver fibrosis progression, and may help guide the therapeutic discoveries targeting hepatocyte CEBPA for the treatment of liver fibrosis.

Authors

Tingting Yan, Nana Yan, Yangliu Xia, Vorthon Sawaswong, Xinxin Zhu, Henrique Bregolin Dias, Daisuke Aibara, Shogo Takahashi, Keisuke Hamada, Yoshifumi Saito, Guangming Li, Hui Liu, Hualong Yan, Thomas J. Velenosi, Kristopher W. Krausz, Jing Huang, Shioko Kimura, Yaron Rotman, Aijuan Qu, Haiping Hao, Frank J. Gonzalez

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Figure 1

Hepatic CEBPA expression is decreased by MASH and tracks with human liver fibrosis.

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Hepatic CEBPA expression is decreased by MASH and tracks with human live...
(A) CEBPA mRNA in human livers. n = 13 for normal group, and n = 28 for MASH group. (BD) Correlation of CEBPA mRNA with fibrosis gene mRNAs in human livers by nonparametric Pearson’s test. (EG) Representative Western blot of CEBPA p42 and p30 protein in human livers (E) and quantitation (FG, n = 12). (H and I) Representative images of CEBPA (red), hepatocyte marker HepPar1 (green), and DAPI (blue) immunofluorescence in liver biopsies from patients with histologically normal livers, F0-4 MASLD livers and quantitation of the percentage of CEBPA positive cells among HepPar1 positive cells (pink indicates red nuclear CEBPA merged with blue DAPI; n = 3 for control normal livers, n = 9 for F0, n = 9 for F1, n = 7 for F2, n = 6 for F3 and n = 7 for F4 MASLD livers). (JN) Cebpa mRNA in liver (J, n = 5) and primary hepatocytes (K, n = 4), representative liver CEBPA p42 and p30 protein (L), representative CEBPA IHC staining (M) and quantitation (N, n = 3) of C57BL/6N mice fed HFCFD for 13 or 26 weeks. Data represent mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001 by 2-tailed unpaired student’s t test for A, F, and G, while 1-way ANOVA followed by Dunnett’s multiple-comparisons test for IK and N, compared with control group. Scale bar: 50 μm.