ZRANB3 is an African-specific type 2 diabetes locus associated with beta-cell mass and insulin response

Adeyemo, Adebowale; Zaghloul, Norann A.; Chen, Guanjie; Doumatey, Ayo P.; Leitch, Carmen C.; Hostelley, Timothy L.; Nesmith, Jessica E.; Zhou, Jie; Bentley, Amy R.; Shriner, Daniel; Fasanmade, O.A; Okafor, Godfrey; Eghan, Benjamin; Agyenim-Boateng, Kofi; Chandrasekharappa, Settara C.; Adeleye, Jokotade; Balogun, Williams; Owusu, Samuel; Amoah, Albert; Acheampong, Joseph; Johnson, Thomas; Oli, Johnnie; Adebamowo, Clement; Study, South Africa Zulu Type Diabetes Case-Control; Collins, Francis S.; Dunston, Georgia M.; Rotimi, Charles N.

doi:10.1038/s41467-019-10967-7

Cited by 75 publications

(64 citation statements)

References 72 publications

(78 reference statements)

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“…Such study should preferably also include neighboring Horn of African populations, including Djibouti and Eritrea, for whom there are no or little genomic data available. To explore mechanisms involving disease alleles or pharmacogenetic variants, approaches recently reported by Adeyemo et al 7 will be useful to employ.…”

Section: Discussionmentioning

confidence: 99%

Genome-wide analyses disclose the distinctive HLA architecture and the pharmacogenetic landscape of the Somali population

Ali

Aalto²,

Jonasson

et al. 2020

Sci Rep

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African populations are underrepresented in medical genomics studies. for the Somali population, there is virtually no information on genomic markers with significance to precision medicine. Here, we analyzed nearly 900,000 genomic markers in samples collected from 95 unrelated individuals in the north eastern Somalia. ADMiXtURe program for estimation of individual ancestries revealed a homogenous Somali population. principal component analysis with pLinK software showed approximately 60% East African and 40% West Eurasian genes in the Somali population, with a close relation to the Cushitic and Semitic speaking Ethiopian populations. We report the unique features of human leukocyte antigens (HLA) in the Somali population, which seem to differentiate from all other neighboring regions compared. Current study identified high prevalence of the diabetes type 1 (T1D) predisposing HLA DR-DQ haplotypes in Somalia. This finding may explain the increased T1D risk observed among Somali children. In addition, ethnic Somalis were found to host the highest frequencies observed thus far for several pharmacogenetic variants, including UGT1A4*2. In conclusion, we report that the Somali population displays genetic traits of significance to health and disease. The Somali dataset is publicly available and will add more information to the few genomic datasets available for African populations. Africa harbors the largest human genetic variation in the world 1-5 and many human gene variants are found only in Africa 6 including those associated with drug response. Yet, many ethnic populations in Sub-Saharan Africa are not represented in medical genomics studies found in the literature, mainly because of the generally lower level of medical research conducted in Sub-Saharan Africa compared with developed countries due to insufficient research infrastructures or resources. As a result, most of the human genetic variation present in Africa is yet unexplored. Some efforts have been made in recent years to better understand African genetic variation. These include studies that examined genetic markers for diabetes 7,8 and those investigating the genetic selection in Africa as a result of disease exposure or environmental adaptation 4,9. However, the need for more genomic data from African populations still persists, notably for underrepresented ethnolinguistic groups, including the Somali population, where there is still lack of information on genetic markers for drug responses, immunity and diseases. Somalia is located in the Horn of Africa (Somalia, Djibouti, Ethiopia, Eritrea,), a historic site for human migrations into either direction of Africa or Eurasia 10-13. Rock art paintings in multiple sites of Northern Somalia show Neolithic human activities in this part of East Africa 14,15. Later Himyarite and Sabaean inscriptions found in the same Somali region suggest existence of socio-cultural mingling with the ancient Axumite-South Arabian sphere 15. Due to the geographic location of Somalia, the Somalis have both African and non-Africa...

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Section: Discussionmentioning

confidence: 99%

Genome-wide analyses disclose the distinctive HLA architecture and the pharmacogenetic landscape of the Somali population

Ali

Aalto²,

Jonasson

et al. 2020

Sci Rep

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“…For example, a recent genome-wide analysis on genetic susceptibility to type 2 diabetes (T2D) in sub-Saharan Africans from Nigeria, Ghana and Kenya, identified a previously-unreported genome-wide significant locus that is specific to African populations (and monomorphic in European and Asians), while the same study showed transferability of 32 established T2D loci. 23 Taken together, the underrepresentation of Africans in international genetic research and variation databases, combined with the greater genetic diversity in African populations, results in some reported variants in genes that are included on the consensus lists may not cause disease in Africans, whilst actual pathogenic variants not yet reported from African populations may not have been considered or included. Also, African genomic studies risk identifying many variants of unknown significance that will likely turn out to be benign.…”

Section: What Results To Return?mentioning

confidence: 99%

Returning incidental findings in African genomics research

Wonkam

Vries

2019

Nat Genet

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“…We selected 10 candidate MRs for experimental validation based on their activity in T2D-enriched clusters and their association with diabetes susceptibility loci in GWAS studies. They included: AFF3 40 , BACH2 41 , BNC2 42 , GAS7 43 , MYT1L 44 , NFATC3 45 , RFX7 46 , TSHZ2 47 , ZRANB3 48 , and ZNF385D 49 . Critically, their mRNA expression was not significantly different based on scRNA-seq analysis, suggesting that these proteins could not have been identified using more traditional approaches (Supplementary Data 3).…”

Section: Resultsmentioning

confidence: 99%

AFF3 and BACH2 are master regulators of metabolic inflexibility, β/α-cell transition, and dedifferentiation in type 2 diabetes

Son

Ding

Accii

et al. 2019

Preprint

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ZRANB3 is an African-specific type 2 diabetes locus associated with beta-cell mass and insulin response

Cited by 75 publications

References 72 publications

Genome-wide analyses disclose the distinctive HLA architecture and the pharmacogenetic landscape of the Somali population

Genome-wide analyses disclose the distinctive HLA architecture and the pharmacogenetic landscape of the Somali population

Returning incidental findings in African genomics research

AFF3 and BACH2 are master regulators of metabolic inflexibility, β/α-cell transition, and dedifferentiation in type 2 diabetes

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