Chronic Disruption of the Late Cholesterol Synthesis Leads to Female-Prevalent Liver Cancer.
Kaja Blagotinšek CokanŽiga UrlepGregor LorbekMadlen Matz-SojaCene SkubicMartina PeršeJera JerucPeter JuvanTadeja ReženDamjana RozmanPublished in: Cancers (2020)
While the role of cholesterol in liver carcinogenesis remains controversial, hepatocellular carcinoma generally prevails in males. Herein, we uncover pathways of female-prevalent progression to hepatocellular carcinoma due to chronic repression of cholesterogenic lanosterol 14α-demethylase (CYP51) in hepatocytes. Tumors develop in knock-out mice after year one, with 2:1 prevalence in females. Metabolic and transcription factor networks were deduced from the liver transcriptome data, combined by sterol metabolite and blood parameter analyses, and interpreted with relevance to humans. Female knock-outs show increased plasma cholesterol and HDL, dampened lipid-related transcription factors FXR, LXRα:RXRα, and importantly, crosstalk between reduced LXRα and activated TGF-β signalling, indicating a higher susceptibility to HCC in aging females. PI3K/Akt signalling and ECM-receptor interaction are common pathways that are disturbed by sex-specific altered genes. Additionally, transcription factors (SOX9)2 and PPARα were recognized as important for female hepatocarcinogenesis, while overexpressed Cd36, a target of nuclear receptor RORC, is a new male-related regulator of ECM-receptor signalling in hepatocarcinogenesis. In conclusion, we uncover the sex-dependent metabolic reprogramming of cholesterol-related pathways that predispose for hepatocarcinogenesis in aging females. This is important in light of increased incidence of liver cancers in post-menopausal women.
Keyphrases
- transcription factor
- pi k akt
- low density lipoprotein
- signaling pathway
- genome wide identification
- dna binding
- risk factors
- stem cells
- genome wide
- gene expression
- polycystic ovary syndrome
- drug induced
- liver injury
- metabolic syndrome
- dna methylation
- adipose tissue
- cell cycle arrest
- pregnant women
- type diabetes
- single cell
- binding protein
- bioinformatics analysis
- high fat diet induced
- epithelial mesenchymal transition
- nk cells
- wild type