Variants in MARC1 and HSD17B13 reduce severity of NAFLD in children, perturb phospholipid metabolism, and suppress fibrotic pathways

2020 
Background & aims: Genome-wide association studies in adults have identified variants in HSD17B13 and MARC1 as protective against NAFLD. It is not known if they are similarly protective in children and, more generally, whether the peri-portal inflammation of pediatric NAFLD and lobular inflammation seen in adults share common genetic influences. Therefore, we aimed to: establish if these variants are associated with NAFLD in children, and to investigate the function of these variants in hepatic metabolism using metabolomics. Methods: 960 children (590 with NAFLD, 394 with liver histology) were genotyped for rs72613567T>TA in HSD17B13, rs2642438G>A in MARC1. Genotype-histology associations were tested using ordinal regression. Untargeted hepatic proteomics and plasma lipidomics were performed in a subset of samples. In silico tools were used to model the effect of rs2642438G>A (p.Ala165Thr) on MARC1. Results: rs72613567T>TA in HSD17B13 was associated with lower odds of NAFLD diagnosis (OR 0.7 (95%CI 0.6-0.9) and lower grade of portal inflammation (P A in MARC1 was associated with lower grade of hepatic steatosis (P=0.02). Proteomics found reduced expression of HSD17B13 in carriers of the protective allele, whereas MARC1 levels were not affected by genotype. Both variants showed downregulation of hepatic fibrotic pathways, upregulation of retinol metabolism and perturbation of phospholipid species. Modelling suggests that p.Ala165Thr would disrupt the stability and metal-binding of MARC1. Conclusions: There are shared genetic mechanisms between pediatric and adult NAFLD, despite their differences in histology. MARC1 and HSD17B13 are involved in phospholipid metabolism and suppress fibrosis in NAFLD.
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