Genetic risk factors for BMI and obesity in an ethnically diverse population: results from the population architecture using genomics and epidemiology (PAGE) study. Fesinmeyer, M. D., North, K. E., Ritchie, M. D., Lim, U., Franceschini, N., Wilkens, L. R., Gross, M. D., Bůžková, P., Glenn, K., Quibrera, P. M., Fernández-Rhodes, L., Li, Q., Fowke, J. H., Li, R., Carlson, C. S., Prentice, R. L., Kuller, L. H., Manson, J. E., Matise, T. C., Cole, S. A., Chen, C. T. L., Howard, B. V., Kolonel, L. N., Henderson, B. E., Monroe, K. R., Crawford, D. C., Hindorff, L. A., Buyske, S., Haiman, C. A., Le Marchand, L., & Peters, U. Obesity (Silver Spring, Md.), 21(4):835–846, April, 2013.
doi  abstract   bibtex   
Several genome-wide association studies (GWAS) have demonstrated that common genetic variants contribute to obesity. However, studies of this complex trait have focused on ancestrally European populations, despite the high prevalence of obesity in some minority groups. As part of the "Population Architecture using Genomics and Epidemiology (PAGE)" Consortium, we investigated the association between 13 GWAS-identified single-nucleotide polymorphisms (SNPs) and BMI and obesity in 69,775 subjects, including 6,149 American Indians, 15,415 African-Americans, 2,438 East Asians, 7,346 Hispanics, 604 Pacific Islanders, and 37,823 European Americans. For the BMI-increasing allele of each SNP, we calculated β coefficients using linear regression (for BMI) and risk estimates using logistic regression (for obesity defined as BMI ≥ 30) followed by fixed-effects meta-analysis to combine results across PAGE sites. Analyses stratified by racial/ethnic group assumed an additive genetic model and were adjusted for age, sex, and current smoking. We defined "replicating SNPs" (in European Americans) and "generalizing SNPs" (in other racial/ethnic groups) as those associated with an allele frequency-specific increase in BMI. By this definition, we replicated 9/13 SNP associations (5 out of 8 loci) in European Americans. We also generalized 8/13 SNP associations (5/8 loci) in East Asians, 7/13 (5/8 loci) in African Americans, 6/13 (4/8 loci) in Hispanics, 5/8 in Pacific Islanders (5/8 loci), and 5/9 (4/8 loci) in American Indians. Linkage disequilibrium patterns suggest that tagSNPs selected for European Americans may not adequately tag causal variants in other ancestry groups. Accordingly, fine-mapping in large samples is needed to comprehensively explore these loci in diverse populations.
@article{fesinmeyer_genetic_2013,
	title = {Genetic risk factors for {BMI} and obesity in an ethnically diverse population: results from the population architecture using genomics and epidemiology ({PAGE}) study.},
	volume = {21},
	issn = {1930-739X},
	doi = {10.1002/oby.20268},
	abstract = {Several genome-wide association studies (GWAS) have demonstrated that common genetic variants contribute to obesity. However, studies of this complex trait have focused on ancestrally European populations, despite the high prevalence of obesity in some minority groups. As part of the "Population Architecture using Genomics and Epidemiology (PAGE)" Consortium, we investigated the association between 13 GWAS-identified single-nucleotide polymorphisms (SNPs) and BMI and obesity in 69,775 subjects, including 6,149 American Indians, 15,415 African-Americans, 2,438 East Asians, 7,346 Hispanics, 604 Pacific Islanders, and 37,823 European Americans. For the BMI-increasing allele of each SNP, we calculated β coefficients using linear regression (for BMI) and risk estimates using logistic regression (for obesity defined as BMI ≥ 30) followed by fixed-effects meta-analysis to combine results across PAGE sites. Analyses stratified by racial/ethnic group assumed an additive genetic model and were adjusted for age, sex, and current smoking. We defined "replicating SNPs" (in European Americans) and "generalizing SNPs" (in other racial/ethnic groups) as those associated with an allele frequency-specific increase in BMI. By this definition, we replicated 9/13 SNP associations (5 out of 8 loci) in European Americans. We also generalized 8/13 SNP associations (5/8 loci) in East Asians, 7/13 (5/8 loci) in African Americans, 6/13 (4/8 loci) in Hispanics, 5/8 in Pacific Islanders (5/8 loci), and 5/9 (4/8 loci) in American Indians. Linkage disequilibrium patterns suggest that tagSNPs selected for European Americans may not adequately tag causal variants in other ancestry groups. Accordingly, fine-mapping in large samples is needed to comprehensively explore these loci in diverse populations.},
	number = {4},
	journal = {Obesity (Silver Spring, Md.)},
	author = {Fesinmeyer, Megan D. and North, Kari E. and Ritchie, Marylyn D. and Lim, Unhee and Franceschini, Nora and Wilkens, Lynne R. and Gross, Myron D. and Bůžková, Petra and Glenn, Kimberly and Quibrera, P. Miguel and Fernández-Rhodes, Lindsay and Li, Qiong and Fowke, Jay H. and Li, Rongling and Carlson, Christopher S. and Prentice, Ross L. and Kuller, Lewis H. and Manson, Joann E. and Matise, Tara C. and Cole, Shelley A. and Chen, Christina T. L. and Howard, Barbara V. and Kolonel, Laurence N. and Henderson, Brian E. and Monroe, Kristine R. and Crawford, Dana C. and Hindorff, Lucia A. and Buyske, Steven and Haiman, Christopher A. and Le Marchand, Loic and Peters, Ulrike},
	month = apr,
	year = {2013},
	pmid = {23712987},
	keywords = {Alleles, Body Mass Index, Ethnic Groups, Gene Frequency, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Linkage Disequilibrium, Metagenomics, Obesity, Phenotype, Polymorphism, Risk Factors, Single Nucleotide, epidemiology, genetics, methods},
	pages = {835--846},
}

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