Genome Medicine (Jul 2023)

Ancestry-driven metabolite variation provides insights into disease states in admixed populations

  • Kaylia M. Reynolds,
  • Andrea R. V. R. Horimoto,
  • Bridget M. Lin,
  • Ying Zhang,
  • Nuzulul Kurniansyah,
  • Bing Yu,
  • Eric Boerwinkle,
  • Qibin Qi,
  • Robert Kaplan,
  • Martha Daviglus,
  • Lifang Hou,
  • Laura Y. Zhou,
  • Jianwen Cai,
  • Saame Raza Shaikh,
  • Tamar Sofer,
  • Sharon R. Browning,
  • Nora Franceschini

DOI
https://doi.org/10.1186/s13073-023-01209-z
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 13

Abstract

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Abstract Background Metabolic pathways are related to physiological functions and disease states and are influenced by genetic variation and environmental factors. Hispanics/Latino individuals have ancestry-derived genomic regions (local ancestry) from their recent admixture that have been less characterized for associations with metabolite abundance and disease risk. Methods We performed admixture mapping of 640 circulating metabolites in 3887 Hispanic/Latino individuals from the Hispanic Community Health Study/Study of Latinos (HCHS/SOL). Metabolites were quantified in fasting serum through non-targeted mass spectrometry (MS) analysis using ultra-performance liquid chromatography-MS/MS. Replication was performed in 1856 nonoverlapping HCHS/SOL participants with metabolomic data. Results By leveraging local ancestry, this study identified significant ancestry-enriched associations for 78 circulating metabolites at 484 independent regions, including 116 novel metabolite-genomic region associations that replicated in an independent sample. Among the main findings, we identified Native American enriched genomic regions at chromosomes 11 and 15, mapping to FADS1/FADS2 and LIPC, respectively, associated with reduced long-chain polyunsaturated fatty acid metabolites implicated in metabolic and inflammatory pathways. An African-derived genomic region at chromosome 2 was associated with N-acetylated amino acid metabolites. This region, mapped to ALMS1, is associated with chronic kidney disease, a disease that disproportionately burdens individuals of African descent. Conclusions Our findings provide important insights into differences in metabolite quantities related to ancestry in admixed populations including metabolites related to regulation of lipid polyunsaturated fatty acids and N-acetylated amino acids, which may have implications for common diseases in populations.

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