Complement factor H–deficient mice develop spontaneous hepatic tumors
Jennifer Laskowski, … , Raphael A. Nemenoff, Joshua M. Thurman
Jennifer Laskowski, … , Raphael A. Nemenoff, Joshua M. Thurman
Published May 5, 2020
Citation Information: J Clin Invest. 2020;130(8):4039-4054. https://doi.org/10.1172/JCI135105.
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Research Article Immunology Oncology

Complement factor H–deficient mice develop spontaneous hepatic tumors

Abstract

Hepatocellular carcinoma (HCC) is difficult to detect, carries a poor prognosis, and is one of few cancers with an increasing yearly incidence. Molecular defects in complement factor H (CFH), a critical regulatory protein of the complement alternative pathway (AP), are typically associated with inflammatory diseases of the eye and kidney. Little is known regarding the role of CFH in controlling complement activation within the liver. While studying aging CFH-deficient (fH–/–) mice, we observed spontaneous hepatic tumor formation in more than 50% of aged fH–/– males. Examination of fH–/– livers (3–24 months) for evidence of complement-mediated inflammation revealed widespread deposition of complement-activation fragments throughout the sinusoids, elevated transaminase levels, increased hepatic CD8+ and F4/80+ cells, overexpression of hepatic mRNA associated with inflammatory signaling pathways, steatosis, and increased collagen deposition. Immunostaining of human HCC biopsies revealed extensive deposition of complement fragments within the tumors. Investigating the Cancer Genome Atlas also revealed that increased CFH mRNA expression is associated with improved survival in patients with HCC, whereas mutations are associated with worse survival. These results indicate that CFH is critical for controlling complement activation in the liver, and in its absence, AP activation leads to chronic inflammation and promotes hepatic carcinogenesis.

Authors

Jennifer Laskowski, Brandon Renner, Matthew C. Pickering, Natalie J. Serkova, Peter M. Smith-Jones, Eric T. Clambey, Raphael A. Nemenoff, Joshua M. Thurman

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Figure 4

Analysis of liver mRNA reveals upregulation of multiple inflammatory signaling pathways in fH–/– mice.

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Analysis of liver mRNA reveals upregulation of multiple inflammatory sig...
(A) Volcano plot of fH–/– liver mRNA DE compared with WT covariate and (B) the fold change of the 10 most DE mRNA. Bonferroni’s P values are shown below. (C) Heatmap of myeloid innate immune pathways (data are displayed on the same scale due to Z-transformation; increasing, neutral, or reduced expression indicated by orange, black, or blue, respectively). (DI) DE of mRNA in fH–/– livers compared with WT livers. Box-and-whisker plots (DF) showing the composite pathway scores for 3 of the most differentially expressed pathways. ****P < 0.0001, t = 11.01, df = 7.954 (D); ***P = 0.0002, t = 6.777, df = 7.816 (E); ***P = 0.0006, t = 6.033, df = 6.752 (F); unpaired, 2-tailed t test with Welch’s correction. For box-and-whisker plots: box = 25th–75th percentile, line = median, and whiskers = maximum and minimum values. (GI) The most DE genes (Bonferroni-adjusted P ≤ 0.25) within each of the 3 corresponding composite pathways (DF). For all experiments, n = 5 males (3 months old) per group. DE, differential expression; Sig, signaling.