Apobec1 complementation factor overexpression promotes hepatic steatosis, fibrosis, and hepatocellular cancer
Valerie Blanc, Jesse D. Riordan, Saeed Soleymanjahi, Joseph H. Nadeau, ILKe Nalbantoglu, Yan Xie, Elizabeth A. Molitor, Blair B. Madison, Elizabeth M. Brunt, Jason C. Mills, Deborah C. Rubin, Irene O. Ng, Yeonjung Ha, Lewis R. Roberts, Nicholas O. Davidson
Valerie Blanc, Jesse D. Riordan, Saeed Soleymanjahi, Joseph H. Nadeau, ILKe Nalbantoglu, Yan Xie, Elizabeth A. Molitor, Blair B. Madison, Elizabeth M. Brunt, Jason C. Mills, Deborah C. Rubin, Irene O. Ng, Yeonjung Ha, Lewis R. Roberts, Nicholas O. Davidson
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Research Article Hepatology Metabolism

Apobec1 complementation factor overexpression promotes hepatic steatosis, fibrosis, and hepatocellular cancer

Abstract

The RNA-binding protein Apobec1 complementation factor (A1CF) regulates posttranscriptional ApoB mRNA editing, but the range of RNA targets and the long-term effect of altered A1CF expression on liver function are unknown. Here we studied hepatocyte-specific A1cf-transgenic (A1cf+/Tg), A1cf+/Tg Apobec1–/–, and A1cf–/– mice fed chow or high-fat/high-fructose diets using RNA-Seq, RNA CLIP-Seq, and tissue microarrays from human hepatocellular cancer (HCC). A1cf+/Tg mice exhibited increased hepatic proliferation and steatosis, with increased lipogenic gene expression (Mogat1, Mogat2, Cidea, Cd36) associated with shifts in polysomal RNA distribution. Aged A1cf+/Tg mice developed spontaneous fibrosis, dysplasia, and HCC, and this development was accelerated on a high-fat/high-fructose diet and was independent of Apobec1. RNA-Seq revealed increased expression of mRNAs involved in oxidative stress (Gstm3, Gpx3, Cbr3), inflammatory response (Il19, Cxcl14, Tnfα, Ly6c), extracellular matrix organization (Mmp2, Col1a1, Col4a1), and proliferation (Kif20a, Mcm2, Mcm4, Mcm6), and a subset of mRNAs (including Sox4, Sox9, Cdh1) were identified in RNA CLIP-Seq. Increased A1CF expression in human HCC correlated with advanced fibrosis and with reduced survival in a subset with nonalcoholic fatty liver disease. In conclusion, we show that hepatic A1CF overexpression selectively alters polysomal distribution and mRNA expression, promoting lipogenic, proliferative, and inflammatory pathways leading to HCC.

Authors

Valerie Blanc, Jesse D. Riordan, Saeed Soleymanjahi, Joseph H. Nadeau, ILKe Nalbantoglu, Yan Xie, Elizabeth A. Molitor, Blair B. Madison, Elizabeth M. Brunt, Jason C. Mills, Deborah C. Rubin, Irene O. Ng, Yeonjung Ha, Lewis R. Roberts, Nicholas O. Davidson

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Figure 10

Differentially expressed genes in primary hepatocytes from young A1cf+/Tg mice in relation to A1CF RNA CLIP targets.

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Differentially expressed genes in primary hepatocytes from young A1cf+/T...
(A) Heatmap of 966 differentially altered genes in primary hepatocytes from A1cf+/Tg mice. Upregulation of Cd36 RNA in A1cf+/Tg hepatocytes represented as mean ± SEM (n = 6), **P < 0.01 (unpaired t test). (B) Venn diagram showing two A1CF RNA CLIP targets (Dram1 and Phlda2) upregulated in A1cf+/Tg hepatocytes with mRNA expression, validated by qPCR, shown as mean ± SEM (n = 6), *P < 0.05 (unpaired t test).