Molecular alterations underlying cerebral impairment in hyperammonemic disorders such as in hepatic encephalopathy (HE) are only poorly understood. Using transcriptomics and proteomics on brains of mice with systemic hyperammonemia resulting from knockout of hepatic glutamine synthetase (LGS-KO) we identified up to 214 genes and 34 proteins whose expressions were altered in brains of LGS-KO mice in a brain region-specific way. Differentially expressed genes were enriched for those related to oxidative stress, cell proliferation, heme metabolism and others. Due to their particularly high expression changes, coactivator associated arginine methyltransferase 1 (CARM1), TROVE2 and Lipocalin-2 (LCN2) were selected for further analyses. All selected candidates were expressed by astrocytes in rodent brain and challenging cultured astrocytes with NH4Cl changed their protein and mRNA levels similar to what was found in brains of LGS-KO mice. Further functional analyses suggested a role of CARM1 for senescence, TROVE2 for RNA quality control and LCN2 for disturbed iron homeostasis in ammonia-exposed astrocytes. LCN2 protein and Trove2 mRNA were also elevated in cerebral cortex of ammonium acetate-challenged rats and in post mortem brain tissue from patients with liver cirrhosis and HE, respectively. This study identified new molecular players potentially relevant for cerebral dysfunction in HE.
Keywords: Ammonia; Astrocytes; Hepatic encephalopathy; Oxidative stress.
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