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Predicted gene expression in ancestrally diverse populations leads to discovery of susceptibility loci for lifestyle and cardiometabolic traits.
Highland, Heather M; Wojcik, Genevieve L; Graff, Mariaelisa; Nishimura, Katherine K; Hodonsky, Chani J; Baldassari, Antoine R; Cote, Alanna C; Cheng, Iona; Gignoux, Christopher R; Tao, Ran; Li, Yuqing; Boerwinkle, Eric; Fornage, Myriam; Haessler, Jeffrey; Hindorff, Lucia A; Hu, Yao; Justice, Anne E; Lin, Bridget M; Lin, Danyu; Stram, Daniel O; Haiman, Christopher A; Kooperberg, Charles; Le Marchand, Loic; Matise, Tara C; Kenny, Eimear E; Carlson, Christopher S; Stahl, Eli A; Avery, Christy L; North, Kari E; Ambite, Jose Luis; Buyske, Steven; Loos, Ruth J; Peters, Ulrike; Young, Kristin L; Bien, Stephanie A; Huckins, Laura M.
Afiliação
  • Highland HM; Department of Epidemiology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA. Electronic address: heather.highland@unc.edu.
  • Wojcik GL; Department of Epidemiology, Johns Hopkins Bloomberg School of Public Health, Baltimore, MD 21205, USA.
  • Graff M; Department of Epidemiology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA.
  • Nishimura KK; Public Health Sciences, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, USA.
  • Hodonsky CJ; Department of Epidemiology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA; Center for Public Health Genomics, University of Virginia, Charlottesville, VA 22908, USA.
  • Baldassari AR; Department of Epidemiology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA.
  • Cote AC; Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.
  • Cheng I; Department of Epidemiology and Biostatistics, University of California, San Francisco, San Francisco, CA 94143, USA.
  • Gignoux CR; Colorado Center for Personalized Medicine, University of Colorado Anschutz Medical Campus, Aurora, CO 80045, USA.
  • Tao R; Department of Biostatistics, Vanderbilt University Medical Center, Nashville, TN 37232, USA; Vanderbilt Genetics Institute, Vanderbilt University Medical Center, Nashville, TN 37232, USA.
  • Li Y; Department of Epidemiology and Biostatistics, University of California, San Francisco, San Francisco, CA 94143, USA.
  • Boerwinkle E; Human Genetics Center, School of Public Health, The University of Texas Health Science Center, Houston, TX 77030, USA.
  • Fornage M; Human Genetics Center, School of Public Health, The University of Texas Health Science Center, Houston, TX 77030, USA; Brown Foundation Institute for Molecular Medicine, McGovern Medical School, The University of Texas Health Science Center, Houston, TX 77030, USA.
  • Haessler J; Public Health Sciences, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, USA.
  • Hindorff LA; Division of Genomic Medicine, NIH National Human Genome Research Institute, Bethesda, MD 20892, USA.
  • Hu Y; Public Health Sciences, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, USA.
  • Justice AE; Department of Population Health Sciences, Geisinger Health System, Danville, PA 17822, USA.
  • Lin BM; Biostatistics, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA.
  • Lin D; Biostatistics, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA.
  • Stram DO; Preventive Medicine, Keck School of Medicine, University of Southern California, Los Angeles, CA 90033, USA.
  • Haiman CA; Preventive Medicine, Keck School of Medicine, University of Southern California, Los Angeles, CA 90033, USA.
  • Kooperberg C; Public Health Sciences, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, USA; School of Public Health, University of Washington, Seattle, WA 98195, USA.
  • Le Marchand L; University of Hawaii, Honolulu, HI 96813, USA.
  • Matise TC; Genetics, Rutgers University, New Brunswick, NJ 08901-8554, USA.
  • Kenny EE; Institute for Genomic Health, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.
  • Carlson CS; Public Health Sciences, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, USA.
  • Stahl EA; Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.
  • Avery CL; Department of Epidemiology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA.
  • North KE; Department of Epidemiology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA.
  • Ambite JL; Information Sciences Institute, University of Southern California, Marina del Rey, CA 90292, USA.
  • Buyske S; Statistics, Rutgers University, New Brunswick, NJ 08901-8554, USA.
  • Loos RJ; Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.
  • Peters U; Public Health Sciences, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, USA; School of Public Health, University of Washington, Seattle, WA 98195, USA.
  • Young KL; Department of Epidemiology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27514, USA.
  • Bien SA; Public Health Sciences, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, USA.
  • Huckins LM; Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA; Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA; Department of Psychiatry, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA; Icahn Institute for Genomics an
Am J Hum Genet ; 109(4): 669-679, 2022 04 07.
Article em En | MEDLINE | ID: mdl-35263625
ABSTRACT
One mechanism by which genetic factors influence complex traits and diseases is altering gene expression. Direct measurement of gene expression in relevant tissues is rarely tenable; however, genetically regulated gene expression (GReX) can be estimated using prediction models derived from large multi-omic datasets. These approaches have led to the discovery of many gene-trait associations, but whether models derived from predominantly European ancestry (EA) reference panels can map novel associations in ancestrally diverse populations remains unclear. We applied PrediXcan to impute GReX in 51,520 ancestrally diverse Population Architecture using Genomics and Epidemiology (PAGE) participants (35% African American, 45% Hispanic/Latino, 10% Asian, and 7% Hawaiian) across 25 key cardiometabolic traits and relevant tissues to identify 102 novel associations. We then compared associations in PAGE to those in a random subset of 50,000 White British participants from UK Biobank (UKBB50k) for height and body mass index (BMI). We identified 517 associations across 47 tissues in PAGE but not UKBB50k, demonstrating the importance of diverse samples in identifying trait-associated GReX. We observed that variants used in PrediXcan models were either more or less differentiated across continental-level populations than matched-control variants depending on the specific population reflecting sampling bias. Additionally, variants from identified genes specific to either PAGE or UKBB50k analyses were more ancestrally differentiated than those in genes detected in both analyses, underlining the value of population-specific discoveries. This suggests that while EA-derived transcriptome imputation models can identify new associations in non-EA populations, models derived from closely matched reference panels may yield further insights. Our findings call for more diversity in reference datasets of tissue-specific gene expression.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Doenças Cardiovasculares / Estudo de Associação Genômica Ampla Tipo de estudo: Prognostic_studies / Risk_factors_studies Limite: Humans Idioma: En Ano de publicação: 2022 Tipo de documento: Article
Texto completo
Imprimir
XML
PubMed Links
Buscar no Google

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Doenças Cardiovasculares / Estudo de Associação Genômica Ampla Tipo de estudo: Prognostic_studies / Risk_factors_studies Limite: Humans Idioma: En Ano de publicação: 2022 Tipo de documento: Article