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Liver injury in non-alcoholic fatty liver disease is associated with urea cycle enzyme dysregulation.

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2022-03-01

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Gallego-Durán, Rocío
Ampuero, Javier
Pastor-Ramírez, Helena
Álvarez-Amor, Leticia
Del Campo, Jose Antonio
Maya-Miles, Douglas
Montero-Vallejo, Rocío
Cárdenas-García, Antonio
Pareja, Mª Jesús
Gato-Zambrano, Sheila

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The main aim was to evaluate changes in urea cycle enzymes in NAFLD patients and in two preclinical animal models mimicking this entity. Seventeen liver specimens from NAFLD patients were included for immunohistochemistry and gene expression analyses. Three-hundred-and-eighty-two biopsy-proven NAFLD patients were genotyped for rs1047891, a functional variant located in carbamoyl phosphate synthetase-1 (CPS1) gene. Two preclinical models were employed to analyse CPS1 by immunohistochemistry, a choline deficient high-fat diet model (CDA-HFD) and a high fat diet LDLr knockout model (LDLr -/-). A significant downregulation in mRNA was observed in CPS1 and ornithine transcarbamylase (OTC1) in simple steatosis and NASH-fibrosis patients versus controls. Further, age, obesity (BMI > 30 kg/m2), diabetes mellitus and ALT were found to be risk factors whereas A-allele from CPS1 was a protective factor from liver fibrosis. CPS1 hepatic expression was diminished in parallel with the increase of fibrosis, and its levels reverted up to normality after changing diet in CDA-HFD mice. In conclusion, liver fibrosis and steatosis were associated with a reduction in both gene and protein expression patterns of mitochondrial urea cycle enzymes. A-allele from a variant on CPS1 may protect from fibrosis development. CPS1 expression is restored in a preclinical model when the main trigger of the liver damage disappears.

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Animals
Carbamoyl-Phosphate Synthase (Ammonia)
Diet, High-Fat
Disease Models, Animal
Humans
Liver
Liver Cirrhosis
Mice
Mice, Inbred C57BL
Non-alcoholic Fatty Liver Disease
Urea

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