Whole-Genome Sequencing Association Analyses of Stroke and Its Subtypes in Ancestrally Diverse Populations from Trans-Omics for Precision Medicine Project

Yao Hu; Jeffrey W. Haessler; Regina Manansala; Kerri L. Wiggins; Arden Moscati; Alexa Beiser; Nancy L. Heard-Costa; Chloe Sarnowski; Laura M. Raffield; Jaeyoon Chung; Sandro Marini; Christopher D. Anderson; Jonathan Rosand; Huichun Xu; Xiao Sun; Tanika N. Kelly; Quenna Wong; Leslie A. Lange; Jerome I. Rotter; Adolfo Correa; Ramachandran S. Vasan; Sudha Seshadri; Stephen S. Rich; Ron Do; Ruth J.F. Loos; William T. Longstreth; Joshua C. Bis; Bruce M. Psaty; David L. Tirschwell; Themistocles L. Assimes; Brian Silver; Simin Liu; Rebecca Jackson; Sylvia Wassertheil-Smoller; Braxton D. Mitchell; Myriam Fornage; Paul L. Auer; Alex P. Reiner; Charles Kooperberg

doi:10.1161/STROKEAHA.120.031792

Whole-Genome Sequencing Association Analyses of Stroke and Its Subtypes in Ancestrally Diverse Populations from Trans-Omics for Precision Medicine Project

Yao Hu, Jeffrey W. Haessler, Regina Manansala, Kerri L. Wiggins, Arden Moscati, Alexa Beiser, Nancy L. Heard-Costa, Chloe Sarnowski, Laura M. Raffield, Jaeyoon Chung, Sandro Marini, Christopher D. Anderson, Jonathan Rosand, Huichun Xu, Xiao Sun, Tanika N. Kelly, Quenna Wong, Leslie A. Lange, Jerome I. Rotter, Adolfo CorreaRamachandran S. Vasan, Sudha Seshadri, Stephen S. Rich, Ron Do, Ruth J.F. Loos, William T. Longstreth, Joshua C. Bis, Bruce M. Psaty, David L. Tirschwell, Themistocles L. Assimes, Brian Silver, Simin Liu, Rebecca Jackson, Sylvia Wassertheil-Smoller, Braxton D. Mitchell, Myriam Fornage, Paul L. Auer, Alex P. Reiner, Charles Kooperberg

Producción científica: Article › revisión exhaustiva

16 Citas (Scopus)

Resumen

Background and Purpose: Stroke is the leading cause of death and long-term disability worldwide. Previous genome-wide association studies identified 51 loci associated with stroke (mostly ischemic) and its subtypes among predominantly European populations. Using whole-genome sequencing in ancestrally diverse populations from the Trans-Omics for Precision Medicine (TOPMed) Program, we aimed to identify novel variants, especially low-frequency or ancestry-specific variants, associated with all stroke, ischemic stroke and its subtypes (large artery, cardioembolic, and small vessel), and hemorrhagic stroke and its subtypes (intracerebral and subarachnoid). Methods: Whole-genome sequencing data were available for 6833 stroke cases and 27 116 controls, including 22 315 European, 7877 Black, 2616 Hispanic/Latino, 850 Asian, 54 Native American, and 237 other ancestry participants. In TOPMed, we performed single variant association analysis examining 40 million common variants and aggregated association analysis focusing on rare variants. We also combined TOPMed European populations with over 28 000 additional European participants from the UK BioBank genome-wide array data through meta-analysis. Results: In the single variant association analysis in TOPMed, we identified one novel locus 13q33 for large artery at whole-genome-wide significance (P<5.00×10^-9) and 4 novel loci at genome-wide significance (P<5.00×10^-8), all of which need confirmation in independent studies. Lead variants in all 5 loci are low-frequency but are more common in non-European populations. An aggregation of synonymous rare variants within the gene C6orf26 demonstrated suggestive evidence of association for hemorrhagic stroke (P<3.11×10^-6). By meta-analyzing European ancestry samples in TOPMed and UK BioBank, we replicated several previously reported stroke loci including PITX2, HDAC9, ZFHX3, and LRCH1. Conclusions: We represent the first association analysis for stroke and its subtypes using whole-genome sequencing data from ancestrally diverse populations. While our findings suggest the potential benefits of combining whole-genome sequencing data with populations of diverse genetic backgrounds to identify possible low-frequency or ancestry-specific variants, they also highlight the need to increase genome coverage and sample sizes.

Idioma original	English (US)
Páginas (desde-hasta)	875-885
Número de páginas	11
Publicación	Stroke
Volumen	29
N.º	2
DOI	https://doi.org/10.1161/STROKEAHA.120.031792
Estado	Published - mar 1 2022

ASJC Scopus subject areas

Clinical Neurology
Cardiology and Cardiovascular Medicine
Advanced and Specialized Nursing

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10.1161/STROKEAHA.120.031792

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Hu, Y., Haessler, J. W., Manansala, R., Wiggins, K. L., Moscati, A., Beiser, A., Heard-Costa, N. L., Sarnowski, C., Raffield, L. M., Chung, J., Marini, S., Anderson, C. D., Rosand, J., Xu, H., Sun, X., Kelly, T. N., Wong, Q., Lange, L. A., Rotter, J. I., ... Kooperberg, C. (2022). Whole-Genome Sequencing Association Analyses of Stroke and Its Subtypes in Ancestrally Diverse Populations from Trans-Omics for Precision Medicine Project. Stroke, 29(2), 875-885. https://doi.org/10.1161/STROKEAHA.120.031792

Hu, Y, Haessler, JW, Manansala, R, Wiggins, KL, Moscati, A, Beiser, A, Heard-Costa, NL, Sarnowski, C, Raffield, LM, Chung, J, Marini, S, Anderson, CD, Rosand, J, Xu, H, Sun, X, Kelly, TN, Wong, Q, Lange, LA, Rotter, JI, Correa, A, Vasan, RS , Seshadri, S, Rich, SS, Do, R, Loos, RJF, Longstreth, WT, Bis, JC, Psaty, BM, Tirschwell, DL, Assimes, TL, Silver, B, Liu, S, Jackson, R, Wassertheil-Smoller, S, Mitchell, BD, Fornage, M, Auer, PL, Reiner, AP & Kooperberg, C 2022, 'Whole-Genome Sequencing Association Analyses of Stroke and Its Subtypes in Ancestrally Diverse Populations from Trans-Omics for Precision Medicine Project', Stroke, vol. 29, n.º 2, pp. 875-885. https://doi.org/10.1161/STROKEAHA.120.031792

@article{a8b989f607be499bb5b31b66a0eaf18d,

title = "Whole-Genome Sequencing Association Analyses of Stroke and Its Subtypes in Ancestrally Diverse Populations from Trans-Omics for Precision Medicine Project",

abstract = "Background and Purpose: Stroke is the leading cause of death and long-term disability worldwide. Previous genome-wide association studies identified 51 loci associated with stroke (mostly ischemic) and its subtypes among predominantly European populations. Using whole-genome sequencing in ancestrally diverse populations from the Trans-Omics for Precision Medicine (TOPMed) Program, we aimed to identify novel variants, especially low-frequency or ancestry-specific variants, associated with all stroke, ischemic stroke and its subtypes (large artery, cardioembolic, and small vessel), and hemorrhagic stroke and its subtypes (intracerebral and subarachnoid). Methods: Whole-genome sequencing data were available for 6833 stroke cases and 27 116 controls, including 22 315 European, 7877 Black, 2616 Hispanic/Latino, 850 Asian, 54 Native American, and 237 other ancestry participants. In TOPMed, we performed single variant association analysis examining 40 million common variants and aggregated association analysis focusing on rare variants. We also combined TOPMed European populations with over 28 000 additional European participants from the UK BioBank genome-wide array data through meta-analysis. Results: In the single variant association analysis in TOPMed, we identified one novel locus 13q33 for large artery at whole-genome-wide significance (P<5.00×10-9) and 4 novel loci at genome-wide significance (P<5.00×10-8), all of which need confirmation in independent studies. Lead variants in all 5 loci are low-frequency but are more common in non-European populations. An aggregation of synonymous rare variants within the gene C6orf26 demonstrated suggestive evidence of association for hemorrhagic stroke (P<3.11×10-6). By meta-analyzing European ancestry samples in TOPMed and UK BioBank, we replicated several previously reported stroke loci including PITX2, HDAC9, ZFHX3, and LRCH1. Conclusions: We represent the first association analysis for stroke and its subtypes using whole-genome sequencing data from ancestrally diverse populations. While our findings suggest the potential benefits of combining whole-genome sequencing data with populations of diverse genetic backgrounds to identify possible low-frequency or ancestry-specific variants, they also highlight the need to increase genome coverage and sample sizes.",

keywords = "atherosclerosis, blood pressure, cause of death, embolic stroke, sample size",

author = "Yao Hu and Haessler, {Jeffrey W.} and Regina Manansala and Wiggins, {Kerri L.} and Arden Moscati and Alexa Beiser and Heard-Costa, {Nancy L.} and Chloe Sarnowski and Raffield, {Laura M.} and Jaeyoon Chung and Sandro Marini and Anderson, {Christopher D.} and Jonathan Rosand and Huichun Xu and Xiao Sun and Kelly, {Tanika N.} and Quenna Wong and Lange, {Leslie A.} and Rotter, {Jerome I.} and Adolfo Correa and Vasan, {Ramachandran S.} and Sudha Seshadri and Rich, {Stephen S.} and Ron Do and Loos, {Ruth J.F.} and Longstreth, {William T.} and Bis, {Joshua C.} and Psaty, {Bruce M.} and Tirschwell, {David L.} and Assimes, {Themistocles L.} and Brian Silver and Simin Liu and Rebecca Jackson and Sylvia Wassertheil-Smoller and Mitchell, {Braxton D.} and Myriam Fornage and Auer, {Paul L.} and Reiner, {Alex P.} and Charles Kooperberg",

year = "2022",

month = mar,

day = "1",

doi = "10.1161/STROKEAHA.120.031792",

language = "English (US)",

volume = "29",

pages = "875--885",

journal = "Stroke",

issn = "0039-2499",

publisher = "Wolters Kluwer Health",

number = "2",

}

TY - JOUR

T1 - Whole-Genome Sequencing Association Analyses of Stroke and Its Subtypes in Ancestrally Diverse Populations from Trans-Omics for Precision Medicine Project

AU - Hu, Yao

AU - Haessler, Jeffrey W.

AU - Manansala, Regina

AU - Wiggins, Kerri L.

AU - Moscati, Arden

AU - Beiser, Alexa

AU - Heard-Costa, Nancy L.

AU - Sarnowski, Chloe

AU - Raffield, Laura M.

AU - Chung, Jaeyoon

AU - Marini, Sandro

AU - Anderson, Christopher D.

AU - Rosand, Jonathan

AU - Xu, Huichun

AU - Sun, Xiao

AU - Kelly, Tanika N.

AU - Wong, Quenna

AU - Lange, Leslie A.

AU - Rotter, Jerome I.

AU - Correa, Adolfo

AU - Vasan, Ramachandran S.

AU - Seshadri, Sudha

AU - Rich, Stephen S.

AU - Do, Ron

AU - Loos, Ruth J.F.

AU - Longstreth, William T.

AU - Bis, Joshua C.

AU - Psaty, Bruce M.

AU - Tirschwell, David L.

AU - Assimes, Themistocles L.

AU - Silver, Brian

AU - Liu, Simin

AU - Jackson, Rebecca

AU - Wassertheil-Smoller, Sylvia

AU - Mitchell, Braxton D.

AU - Fornage, Myriam

AU - Auer, Paul L.

AU - Reiner, Alex P.

AU - Kooperberg, Charles

PY - 2022/3/1

Y1 - 2022/3/1

N2 - Background and Purpose: Stroke is the leading cause of death and long-term disability worldwide. Previous genome-wide association studies identified 51 loci associated with stroke (mostly ischemic) and its subtypes among predominantly European populations. Using whole-genome sequencing in ancestrally diverse populations from the Trans-Omics for Precision Medicine (TOPMed) Program, we aimed to identify novel variants, especially low-frequency or ancestry-specific variants, associated with all stroke, ischemic stroke and its subtypes (large artery, cardioembolic, and small vessel), and hemorrhagic stroke and its subtypes (intracerebral and subarachnoid). Methods: Whole-genome sequencing data were available for 6833 stroke cases and 27 116 controls, including 22 315 European, 7877 Black, 2616 Hispanic/Latino, 850 Asian, 54 Native American, and 237 other ancestry participants. In TOPMed, we performed single variant association analysis examining 40 million common variants and aggregated association analysis focusing on rare variants. We also combined TOPMed European populations with over 28 000 additional European participants from the UK BioBank genome-wide array data through meta-analysis. Results: In the single variant association analysis in TOPMed, we identified one novel locus 13q33 for large artery at whole-genome-wide significance (P<5.00×10-9) and 4 novel loci at genome-wide significance (P<5.00×10-8), all of which need confirmation in independent studies. Lead variants in all 5 loci are low-frequency but are more common in non-European populations. An aggregation of synonymous rare variants within the gene C6orf26 demonstrated suggestive evidence of association for hemorrhagic stroke (P<3.11×10-6). By meta-analyzing European ancestry samples in TOPMed and UK BioBank, we replicated several previously reported stroke loci including PITX2, HDAC9, ZFHX3, and LRCH1. Conclusions: We represent the first association analysis for stroke and its subtypes using whole-genome sequencing data from ancestrally diverse populations. While our findings suggest the potential benefits of combining whole-genome sequencing data with populations of diverse genetic backgrounds to identify possible low-frequency or ancestry-specific variants, they also highlight the need to increase genome coverage and sample sizes.

AB - Background and Purpose: Stroke is the leading cause of death and long-term disability worldwide. Previous genome-wide association studies identified 51 loci associated with stroke (mostly ischemic) and its subtypes among predominantly European populations. Using whole-genome sequencing in ancestrally diverse populations from the Trans-Omics for Precision Medicine (TOPMed) Program, we aimed to identify novel variants, especially low-frequency or ancestry-specific variants, associated with all stroke, ischemic stroke and its subtypes (large artery, cardioembolic, and small vessel), and hemorrhagic stroke and its subtypes (intracerebral and subarachnoid). Methods: Whole-genome sequencing data were available for 6833 stroke cases and 27 116 controls, including 22 315 European, 7877 Black, 2616 Hispanic/Latino, 850 Asian, 54 Native American, and 237 other ancestry participants. In TOPMed, we performed single variant association analysis examining 40 million common variants and aggregated association analysis focusing on rare variants. We also combined TOPMed European populations with over 28 000 additional European participants from the UK BioBank genome-wide array data through meta-analysis. Results: In the single variant association analysis in TOPMed, we identified one novel locus 13q33 for large artery at whole-genome-wide significance (P<5.00×10-9) and 4 novel loci at genome-wide significance (P<5.00×10-8), all of which need confirmation in independent studies. Lead variants in all 5 loci are low-frequency but are more common in non-European populations. An aggregation of synonymous rare variants within the gene C6orf26 demonstrated suggestive evidence of association for hemorrhagic stroke (P<3.11×10-6). By meta-analyzing European ancestry samples in TOPMed and UK BioBank, we replicated several previously reported stroke loci including PITX2, HDAC9, ZFHX3, and LRCH1. Conclusions: We represent the first association analysis for stroke and its subtypes using whole-genome sequencing data from ancestrally diverse populations. While our findings suggest the potential benefits of combining whole-genome sequencing data with populations of diverse genetic backgrounds to identify possible low-frequency or ancestry-specific variants, they also highlight the need to increase genome coverage and sample sizes.

KW - atherosclerosis

KW - blood pressure

KW - cause of death

KW - embolic stroke

KW - sample size

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U2 - 10.1161/STROKEAHA.120.031792

DO - 10.1161/STROKEAHA.120.031792

M3 - Article

C2 - 34727735

AN - SCOPUS:85125552740

SN - 0039-2499

VL - 29

SP - 875

EP - 885

JO - Stroke

JF - Stroke

IS - 2

ER -

Whole-Genome Sequencing Association Analyses of Stroke and Its Subtypes in Ancestrally Diverse Populations from Trans-Omics for Precision Medicine Project

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ASJC Scopus subject areas

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