Most studies of human genomic variation, nutrition, and metabolic traits have focused on non- African populations. However, Africa is an important region to study as it is the site of origin of modern humans. Africa contains the greatest levels o human genetic variation and is the source of the worldwide range expansion of modern humans to regions outside of Africa. Several common complex diseases of metabolic origin, such as obesity, type 2 diabetes and certain cardiovascular diseases occur at higher frequency in African Americans, and are on the rise in urban centers in Africa. It has been postulated that this is due to genetic variants adaptive for past environments with intermittent access to food but maladaptive in nutritionally replete Westernized environments. Metabolomics technology has begun to provide insight into metabolic processes and can be used for biomarker identification for disease risk and provide insight into metabolic pathways associated with risk. Given the intimate relationship between nutrition and metabolism and subsequent disease risk, metabolomics provides a unique and powerful tool in nutritional research. In this proposal, we will exploit metabolomic profiling to interrogate extant plasma from a unique set of ethnically diverse, well phenotyped indigenous African populations who practice different subsistence patterns (agriculture, pastoralism, agro- pastoralism, and hunting-gathering) who vary markedly in markers of cardiometabolic risk. We will perform untargeted metabolomics profiling in a sample of 365 individuals and will do targeted profiling of informative metabolites in a sample of 1500 ethnically diverse Africans to identify differences in metabolites and metabolic pathways that correlate with diet and anthropometric and cardiovascular phenotypes associated with disease risk. We will integrate these data with a large genome-wide Single Nucleotide Polymorphism (SNP) and whole genome sequence dataset collected in the same individuals to gain insight into how genetic, nutritional and other environmental factors contribute to variation in cardiometabolic risk traits in ethnically diverse African populations.
We will perform untargeted and targeted metabolomic profiling in a sample of 1500 ethnically diverse Africans to identify differences in metabolites an metabolic pathways that correlate with diet and anthropometric and cardiovascular phenotypes associated with disease risk. We will integrate these data with a large genomic dataset collected in the same individuals to gain insight into how genetic, nutritional and other environmental factors contribute to variation in cardiometabolic risk traits in ethnically diverse African populations.
Hey, Jody; Chung, Yujin; Sethuraman, Arun et al. (2018) Phylogeny Estimation by Integration over Isolation with Migration Models. Mol Biol Evol 35:2805-2818 |
Nielsen, Rasmus; Akey, Joshua M; Jakobsson, Mattias et al. (2017) Tracing the peopling of the world through genomics. Nature 541:302-310 |
Kelly, Derek E; Hansen, Matthew E B; Tishkoff, Sarah A (2017) Global variation in gene expression and the value of diverse sampling. Curr Opin Syst Biol 1:102-108 |
Hansen, Matthew E B; Hunt, Steven C; Stone, Rivka C et al. (2016) Shorter telomere length in Europeans than in Africans due to polygenetic adaptation. Hum Mol Genet 25:2324-2330 |
Stone, Rivka C; Horvath, Kent; Kark, Jeremy D et al. (2016) Telomere Length and the Cancer-Atherosclerosis Trade-Off. PLoS Genet 12:e1006144 |
Fan, Shaohua; Hansen, Matthew E B; Lo, Yancy et al. (2016) Going global by adapting local: A review of recent human adaptation. Science 354:54-59 |
Beltrame, Marcia Holsbach; Rubel, Meagan A; Tishkoff, Sarah A (2016) Inferences of African evolutionary history from genomic data. Curr Opin Genet Dev 41:159-166 |
Sudmant, Peter H; Mallick, Swapan; Nelson, Bradley J et al. (2015) Global diversity, population stratification, and selection of human copy-number variation. Science 349:aab3761 |
Tishkoff, Sarah (2015) GENETICS. Strength in small numbers. Science 349:1282-3 |