Novel functional insights into ischemic stroke biology provided by the first genome-wide association study of stroke in indigenous Africans

Rufus O. Akinyemi; Hemant K. Tiwari; Vinodh Srinivasasainagendra; Onoja Akpa; Fred S. Sarfo; Albert Akpalu; Kolawole Wahab; Reginald Obiako; Morenikeji Komolafe; Lukman Owolabi; Godwin O. Osaigbovo; Olga A. Mamaeva; Brian A. Halloran; Joshua Akinyemi; Daniel Lackland; Olugbo Y. Obiabo; Taofik Sunmonu; Innocent I. Chukwuonye; Oyedunni Arulogun; Carolyn Jenkins; Abiodun Adeoye; Atinuke Agunloye; Okechukwu S. Ogah; Godwin Ogbole; Adekunle Fakunle; Ezinne Uvere; Motunrayo M. Coker; Akinkunmi Okekunle; Osahon Asowata; Samuel Diala; Mayowa Ogunronbi; Osi Adeleye; Ruth Laryea; Raelle Tagge; Sunday Adeniyi; Nathaniel Adusei; Wisdom Oguike; Paul Olowoyo; Olayinka Adebajo; Abimbola Olalere; Olayinka Oladele; Joseph Yaria; Bimbo Fawale; Philip Ibinaye; Olalekan Oyinloye; Yaw Mensah; Omotola Oladimeji; Josephine Akpalu; Benedict Calys-Tagoe; Hamisu A. Dambatta; Adesola Ogunniyi; Rajesh Kalaria; Donna Arnett; Charles Rotimi; Bruce Ovbiagele; Mayowa O. Owolabi

doi:10.1186/s13073-023-01273-5

Novel functional insights into ischemic stroke biology provided by the first genome-wide association study of stroke in indigenous Africans

Rufus O. Akinyemi
, Hemant K. Tiwari
, Vinodh Srinivasasainagendra
, Onoja Akpa
, Fred S. Sarfo
, Albert Akpalu
, Kolawole Wahab
, Reginald Obiako
, Morenikeji Komolafe
, Lukman Owolabi
, Godwin O. Osaigbovo
, Olga A. Mamaeva
, Brian A. Halloran
, Joshua Akinyemi
, Daniel Lackland
, Olugbo Y. Obiabo
, Taofik Sunmonu
, Innocent I. Chukwuonye
, Oyedunni Arulogun
, Carolyn Jenkins

Abiodun Adeoye, Atinuke Agunloye, Okechukwu S. Ogah, Godwin Ogbole, Adekunle Fakunle, Ezinne Uvere, Motunrayo M. Coker, Akinkunmi Okekunle, Osahon Asowata, Samuel Diala, Mayowa Ogunronbi, Osi Adeleye, Ruth Laryea, Raelle Tagge, Sunday Adeniyi, Nathaniel Adusei, Wisdom Oguike, Paul Olowoyo, Olayinka Adebajo, Abimbola Olalere, Olayinka Oladele, Joseph Yaria, Bimbo Fawale, Philip Ibinaye, Olalekan Oyinloye, Yaw Mensah, Omotola Oladimeji, Josephine Akpalu, Benedict Calys-Tagoe, Hamisu A. Dambatta, Adesola Ogunniyi, Rajesh Kalaria, Donna Arnett, Charles Rotimi, Bruce Ovbiagele, Mayowa O. Owolabi

Department of Medicine And Therapeutics

College of Medicine, University of Ibadan
Department of Biostatistics
Kwame Nkrumah University of Science and Technology
University of Ghana
University of Ilorin
Ahmadu Bello University
Obafemi Awolowo University
Aminu Kano Teaching Hospital
University of Jos
University of Alabama at Birmingham School of Public Health
University of Alabama at Birmingham
Medical University of South Carolina
Delta State University/Delta State University Teaching Hospital
Federal Medical Centre
University of Ibadan
Osun State University
Seoul National University
University of California at San Francisco
Federal Teaching Hospital
Newcastle University
University of South Carolina
National Human Genome Research Institute (NHGRI)
University College Hospital, Ibadan
Lebanese American University
Blossom Specialist Medical Center

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

Background: African ancestry populations have the highest burden of stroke worldwide, yet the genetic basis of stroke in these populations is obscure. The Stroke Investigative Research and Educational Network (SIREN) is a multicenter study involving 16 sites in West Africa. We conducted the first-ever genome-wide association study (GWAS) of stroke in indigenous Africans. Methods: Cases were consecutively recruited consenting adults (aged > 18 years) with neuroimaging-confirmed ischemic stroke. Stroke-free controls were ascertained using a locally validated Questionnaire for Verifying Stroke-Free Status. DNA genotyping with the H3Africa array was performed, and following initial quality control, GWAS datasets were imputed into the NIH Trans-Omics for Precision Medicine (TOPMed) release2 from BioData Catalyst. Furthermore, we performed fine-mapping, trans-ethnic meta-analysis, and in silico functional characterization to identify likely causal variants with a functional interpretation. Results: We observed genome-wide significant (P-value < 5.0E−8) SNPs associations near AADACL2 and miRNA (MIR5186) genes in chromosome 3 after adjusting for hypertension, diabetes, dyslipidemia, and cardiac status in the base model as covariates. SNPs near the miRNA (MIR4458) gene in chromosome 5 were also associated with stroke (P-value < 1.0E−6). The putative genes near AADACL2, MIR5186, and MIR4458 genes were protective and novel. SNPs associations with stroke in chromosome 2 were more than 77 kb from the closest gene LINC01854 and SNPs in chromosome 7 were more than 116 kb to the closest gene LINC01446 (P-value < 1.0E−6). In addition, we observed SNPs in genes STXBP5-AS1 (chromosome 6), GALTN9 (chromosome 12), FANCA (chromosome 16), and DLGAP1 (chromosome 18) (P-value < 1.0E−6). Both genomic regions near genes AADACL2 and MIR4458 remained significant following fine mapping. Conclusions: Our findings identify potential roles of regulatory miRNA, intergenic non-coding DNA, and intronic non-coding RNA in the biology of ischemic stroke. These findings reveal new molecular targets that promise to help close the current gaps in accurate African ancestry-based genetic stroke’s risk prediction and development of new targeted interventions to prevent or treat stroke.

Original language	English
Article number	25
Journal	Genome Medicine
Volume	16
Issue number	1
DOIs	https://doi.org/10.1186/s13073-023-01273-5
Publication status	Published - Dec 2024

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

African ancestry, Ischemic stroke, SNP, miRNA
GWAS
Genomics
Stroke

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10.1186/s13073-023-01273-5

Cite this

Akinyemi, R. O., Tiwari, H. K., Srinivasasainagendra, V., Akpa, O., Sarfo, F. S., Akpalu, A., Wahab, K., Obiako, R., Komolafe, M., Owolabi, L., Osaigbovo, G. O., Mamaeva, O. A., Halloran, B. A., Akinyemi, J., Lackland, D., Obiabo, O. Y., Sunmonu, T., Chukwuonye, I. I., Arulogun, O., ... Owolabi, M. O. (2024). Novel functional insights into ischemic stroke biology provided by the first genome-wide association study of stroke in indigenous Africans. Genome Medicine, 16(1), Article 25. https://doi.org/10.1186/s13073-023-01273-5

@article{884b6a35791b4a8497a6407a5b9e6a95,

title = "Novel functional insights into ischemic stroke biology provided by the first genome-wide association study of stroke in indigenous Africans",

abstract = "Background: African ancestry populations have the highest burden of stroke worldwide, yet the genetic basis of stroke in these populations is obscure. The Stroke Investigative Research and Educational Network (SIREN) is a multicenter study involving 16 sites in West Africa. We conducted the first-ever genome-wide association study (GWAS) of stroke in indigenous Africans. Methods: Cases were consecutively recruited consenting adults (aged > 18 years) with neuroimaging-confirmed ischemic stroke. Stroke-free controls were ascertained using a locally validated Questionnaire for Verifying Stroke-Free Status. DNA genotyping with the H3Africa array was performed, and following initial quality control, GWAS datasets were imputed into the NIH Trans-Omics for Precision Medicine (TOPMed) release2 from BioData Catalyst. Furthermore, we performed fine-mapping, trans-ethnic meta-analysis, and in silico functional characterization to identify likely causal variants with a functional interpretation. Results: We observed genome-wide significant (P-value < 5.0E−8) SNPs associations near AADACL2 and miRNA (MIR5186) genes in chromosome 3 after adjusting for hypertension, diabetes, dyslipidemia, and cardiac status in the base model as covariates. SNPs near the miRNA (MIR4458) gene in chromosome 5 were also associated with stroke (P-value < 1.0E−6). The putative genes near AADACL2, MIR5186, and MIR4458 genes were protective and novel. SNPs associations with stroke in chromosome 2 were more than 77 kb from the closest gene LINC01854 and SNPs in chromosome 7 were more than 116 kb to the closest gene LINC01446 (P-value < 1.0E−6). In addition, we observed SNPs in genes STXBP5-AS1 (chromosome 6), GALTN9 (chromosome 12), FANCA (chromosome 16), and DLGAP1 (chromosome 18) (P-value < 1.0E−6). Both genomic regions near genes AADACL2 and MIR4458 remained significant following fine mapping. Conclusions: Our findings identify potential roles of regulatory miRNA, intergenic non-coding DNA, and intronic non-coding RNA in the biology of ischemic stroke. These findings reveal new molecular targets that promise to help close the current gaps in accurate African ancestry-based genetic stroke{\textquoteright}s risk prediction and development of new targeted interventions to prevent or treat stroke.",

keywords = "African ancestry, Ischemic stroke, SNP, miRNA, GWAS, Genomics, Stroke",

author = "Akinyemi, \{Rufus O.\} and Tiwari, \{Hemant K.\} and Vinodh Srinivasasainagendra and Onoja Akpa and Sarfo, \{Fred S.\} and Albert Akpalu and Kolawole Wahab and Reginald Obiako and Morenikeji Komolafe and Lukman Owolabi and Osaigbovo, \{Godwin O.\} and Mamaeva, \{Olga A.\} and Halloran, \{Brian A.\} and Joshua Akinyemi and Daniel Lackland and Obiabo, \{Olugbo Y.\} and Taofik Sunmonu and Chukwuonye, \{Innocent I.\} and Oyedunni Arulogun and Carolyn Jenkins and Abiodun Adeoye and Atinuke Agunloye and Ogah, \{Okechukwu S.\} and Godwin Ogbole and Adekunle Fakunle and Ezinne Uvere and Coker, \{Motunrayo M.\} and Akinkunmi Okekunle and Osahon Asowata and Samuel Diala and Mayowa Ogunronbi and Osi Adeleye and Ruth Laryea and Raelle Tagge and Sunday Adeniyi and Nathaniel Adusei and Wisdom Oguike and Paul Olowoyo and Olayinka Adebajo and Abimbola Olalere and Olayinka Oladele and Joseph Yaria and Bimbo Fawale and Philip Ibinaye and Olalekan Oyinloye and Yaw Mensah and Omotola Oladimeji and Josephine Akpalu and Benedict Calys-Tagoe and Dambatta, \{Hamisu A.\} and Adesola Ogunniyi and Rajesh Kalaria and Donna Arnett and Charles Rotimi and Bruce Ovbiagele and Owolabi, \{Mayowa O.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1186/s13073-023-01273-5",

language = "English",

volume = "16",

journal = "Genome Medicine",

issn = "1756-994X",

publisher = "BioMed Central Ltd.",

number = "1",

}

Akinyemi, RO, Tiwari, HK, Srinivasasainagendra, V, Akpa, O, Sarfo, FS, Akpalu, A, Wahab, K, Obiako, R, Komolafe, M, Owolabi, L, Osaigbovo, GO, Mamaeva, OA, Halloran, BA, Akinyemi, J, Lackland, D, Obiabo, OY, Sunmonu, T, Chukwuonye, II, Arulogun, O, Jenkins, C, Adeoye, A, Agunloye, A, Ogah, OS, Ogbole, G, Fakunle, A, Uvere, E, Coker, MM, Okekunle, A, Asowata, O, Diala, S, Ogunronbi, M, Adeleye, O, Laryea, R, Tagge, R, Adeniyi, S, Adusei, N, Oguike, W, Olowoyo, P, Adebajo, O, Olalere, A, Oladele, O, Yaria, J, Fawale, B, Ibinaye, P, Oyinloye, O, Mensah, Y, Oladimeji, O, Akpalu, J , Calys-Tagoe, B, Dambatta, HA, Ogunniyi, A, Kalaria, R, Arnett, D, Rotimi, C, Ovbiagele, B & Owolabi, MO 2024, 'Novel functional insights into ischemic stroke biology provided by the first genome-wide association study of stroke in indigenous Africans', Genome Medicine, vol. 16, no. 1, 25. https://doi.org/10.1186/s13073-023-01273-5

TY - JOUR

T1 - Novel functional insights into ischemic stroke biology provided by the first genome-wide association study of stroke in indigenous Africans

AU - Akinyemi, Rufus O.

AU - Tiwari, Hemant K.

AU - Srinivasasainagendra, Vinodh

AU - Akpa, Onoja

AU - Sarfo, Fred S.

AU - Akpalu, Albert

AU - Wahab, Kolawole

AU - Obiako, Reginald

AU - Komolafe, Morenikeji

AU - Owolabi, Lukman

AU - Osaigbovo, Godwin O.

AU - Mamaeva, Olga A.

AU - Halloran, Brian A.

AU - Akinyemi, Joshua

AU - Lackland, Daniel

AU - Obiabo, Olugbo Y.

AU - Sunmonu, Taofik

AU - Chukwuonye, Innocent I.

AU - Arulogun, Oyedunni

AU - Jenkins, Carolyn

AU - Adeoye, Abiodun

AU - Agunloye, Atinuke

AU - Ogah, Okechukwu S.

AU - Ogbole, Godwin

AU - Fakunle, Adekunle

AU - Uvere, Ezinne

AU - Coker, Motunrayo M.

AU - Okekunle, Akinkunmi

AU - Asowata, Osahon

AU - Diala, Samuel

AU - Ogunronbi, Mayowa

AU - Adeleye, Osi

AU - Laryea, Ruth

AU - Tagge, Raelle

AU - Adeniyi, Sunday

AU - Adusei, Nathaniel

AU - Oguike, Wisdom

AU - Olowoyo, Paul

AU - Adebajo, Olayinka

AU - Olalere, Abimbola

AU - Oladele, Olayinka

AU - Yaria, Joseph

AU - Fawale, Bimbo

AU - Ibinaye, Philip

AU - Oyinloye, Olalekan

AU - Mensah, Yaw

AU - Oladimeji, Omotola

AU - Akpalu, Josephine

AU - Calys-Tagoe, Benedict

AU - Dambatta, Hamisu A.

AU - Ogunniyi, Adesola

AU - Kalaria, Rajesh

AU - Arnett, Donna

AU - Rotimi, Charles

AU - Ovbiagele, Bruce

AU - Owolabi, Mayowa O.

PY - 2024/12

Y1 - 2024/12

N2 - Background: African ancestry populations have the highest burden of stroke worldwide, yet the genetic basis of stroke in these populations is obscure. The Stroke Investigative Research and Educational Network (SIREN) is a multicenter study involving 16 sites in West Africa. We conducted the first-ever genome-wide association study (GWAS) of stroke in indigenous Africans. Methods: Cases were consecutively recruited consenting adults (aged > 18 years) with neuroimaging-confirmed ischemic stroke. Stroke-free controls were ascertained using a locally validated Questionnaire for Verifying Stroke-Free Status. DNA genotyping with the H3Africa array was performed, and following initial quality control, GWAS datasets were imputed into the NIH Trans-Omics for Precision Medicine (TOPMed) release2 from BioData Catalyst. Furthermore, we performed fine-mapping, trans-ethnic meta-analysis, and in silico functional characterization to identify likely causal variants with a functional interpretation. Results: We observed genome-wide significant (P-value < 5.0E−8) SNPs associations near AADACL2 and miRNA (MIR5186) genes in chromosome 3 after adjusting for hypertension, diabetes, dyslipidemia, and cardiac status in the base model as covariates. SNPs near the miRNA (MIR4458) gene in chromosome 5 were also associated with stroke (P-value < 1.0E−6). The putative genes near AADACL2, MIR5186, and MIR4458 genes were protective and novel. SNPs associations with stroke in chromosome 2 were more than 77 kb from the closest gene LINC01854 and SNPs in chromosome 7 were more than 116 kb to the closest gene LINC01446 (P-value < 1.0E−6). In addition, we observed SNPs in genes STXBP5-AS1 (chromosome 6), GALTN9 (chromosome 12), FANCA (chromosome 16), and DLGAP1 (chromosome 18) (P-value < 1.0E−6). Both genomic regions near genes AADACL2 and MIR4458 remained significant following fine mapping. Conclusions: Our findings identify potential roles of regulatory miRNA, intergenic non-coding DNA, and intronic non-coding RNA in the biology of ischemic stroke. These findings reveal new molecular targets that promise to help close the current gaps in accurate African ancestry-based genetic stroke’s risk prediction and development of new targeted interventions to prevent or treat stroke.

AB - Background: African ancestry populations have the highest burden of stroke worldwide, yet the genetic basis of stroke in these populations is obscure. The Stroke Investigative Research and Educational Network (SIREN) is a multicenter study involving 16 sites in West Africa. We conducted the first-ever genome-wide association study (GWAS) of stroke in indigenous Africans. Methods: Cases were consecutively recruited consenting adults (aged > 18 years) with neuroimaging-confirmed ischemic stroke. Stroke-free controls were ascertained using a locally validated Questionnaire for Verifying Stroke-Free Status. DNA genotyping with the H3Africa array was performed, and following initial quality control, GWAS datasets were imputed into the NIH Trans-Omics for Precision Medicine (TOPMed) release2 from BioData Catalyst. Furthermore, we performed fine-mapping, trans-ethnic meta-analysis, and in silico functional characterization to identify likely causal variants with a functional interpretation. Results: We observed genome-wide significant (P-value < 5.0E−8) SNPs associations near AADACL2 and miRNA (MIR5186) genes in chromosome 3 after adjusting for hypertension, diabetes, dyslipidemia, and cardiac status in the base model as covariates. SNPs near the miRNA (MIR4458) gene in chromosome 5 were also associated with stroke (P-value < 1.0E−6). The putative genes near AADACL2, MIR5186, and MIR4458 genes were protective and novel. SNPs associations with stroke in chromosome 2 were more than 77 kb from the closest gene LINC01854 and SNPs in chromosome 7 were more than 116 kb to the closest gene LINC01446 (P-value < 1.0E−6). In addition, we observed SNPs in genes STXBP5-AS1 (chromosome 6), GALTN9 (chromosome 12), FANCA (chromosome 16), and DLGAP1 (chromosome 18) (P-value < 1.0E−6). Both genomic regions near genes AADACL2 and MIR4458 remained significant following fine mapping. Conclusions: Our findings identify potential roles of regulatory miRNA, intergenic non-coding DNA, and intronic non-coding RNA in the biology of ischemic stroke. These findings reveal new molecular targets that promise to help close the current gaps in accurate African ancestry-based genetic stroke’s risk prediction and development of new targeted interventions to prevent or treat stroke.

KW - African ancestry, Ischemic stroke, SNP, miRNA

KW - GWAS

KW - Genomics

KW - Stroke

UR - https://www.scopus.com/pages/publications/85184457368

U2 - 10.1186/s13073-023-01273-5

DO - 10.1186/s13073-023-01273-5

M3 - Article

C2 - 38317187

AN - SCOPUS:85184457368

SN - 1756-994X

VL - 16

JO - Genome Medicine

JF - Genome Medicine

IS - 1

M1 - 25

ER -

Novel functional insights into ischemic stroke biology provided by the first genome-wide association study of stroke in indigenous Africans

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Keywords

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