Trimethylamine n-oxide (TMAO) is a plasma metabolite linked to adverse cardiometabolic health with complex regulation involving diet, sex, and host genetics. We explored the role of these factors in the genetic regulation of TMAO by performing a primary-level meta-analysis in 1,482 female and male Diversity Outbred (DO) mice from five distinct studies conducted in various regions of the United States. We identified a quantitative trait locus (QTL) associated with TMAO concentration at ~86 megabase pairs on mouse chromosome 12 with a highly significant LOD score of 67.67. Alleles at the chromosome 12 QTL inherited from the Cast/EiJ (CAST) and PWK/PhJ (PWK) mouse strains primarily drove the association with reduced TMAO concentrations. The chromosome 12 QTL remained significant in sex-stratified analyses and the mode of inheritance appeared additive; furthermore, the QTL was regulated by sex-by-genotype and sex-by-diet interactions. Using a CAST/EiJ X C57BL/6J F2 cross, positional candidates were prioritized by eQTL analysis. Further analysis in a study utilizing the eight DO founding strains identified that Acyp1 was differentially expressed in hepatic tissue from CAST mice, prompting investigation into its genetic regulation. Acyp1 demonstrated relevant cis- and trans-regulation and was significantly correlated with TMAO and hepatic Fmo3. However, no significant relationships between Acyp1 and TMAO were identified in mice inactivated for Acyp1 or with AAV overexpression of Acyp1 in the liver. Genes within the chromosome 12 QTL have synteny with humans and may translate to the genetic regulation of human plasma TMAO concentrations and atherosclerosis.
Sutton, K., Gertz, E. R., Evans, L. W., Budke, D., Huda, N., Yam, P., Kim, M., Rutkowsky, J., Shih, D., Hartiala, J., Pomp, D., Lusis, A. J., Allayee, H., Bennett, B. J.
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