Whole Genome Analysis of Venous Thromboembolism: The Trans-Omics for Precision Medicine Program

Amanda A. Seyerle; Cecelia A. Laurie; Brandon J. Coombes; Deepti Jain; Matthew P. Conomos; Jennifer Brody; Ming Huei Chen; Stephanie M. Gogarten; Kathleen M. Beutel; Namrata Gupta; Susan R. Heckbert; Rebecca D. Jackson; Andrew D. Johnson; Darae Ko; Joann E. Manson; Barbara McKnight; Ginger A. Metcalf; Alanna C. Morrison; Alexander P. Reiner; Tamar Sofer; Weihong Tang; Kerri L. Wiggins; Eric Boerwinkle; Mariza De Andrade; Stacey B. Gabriel; Richard A. Gibbs; Cathy C. Laurie; Bruce M. Psaty; Ramachandran S. Vasan; Ken Rice; Charles Kooperberg; James S. Pankow; Nicholas L. Smith; Nathan Pankratz

doi:10.1161/CIRCGEN.121.003532

Whole Genome Analysis of Venous Thromboembolism: The Trans-Omics for Precision Medicine Program

Amanda A. Seyerle, Cecelia A. Laurie, Brandon J. Coombes, Deepti Jain, Matthew P. Conomos, Jennifer Brody, Ming Huei Chen, Stephanie M. Gogarten, Kathleen M. Beutel, Namrata Gupta, Susan R. Heckbert, Rebecca D. Jackson, Andrew D. Johnson, Darae Ko, Joann E. Manson, Barbara McKnight, Ginger A. Metcalf, Alanna C. Morrison, Alexander P. Reiner, Tamar SoferWeihong Tang, Kerri L. Wiggins, Eric Boerwinkle, Mariza De Andrade, Stacey B. Gabriel, Richard A. Gibbs, Cathy C. Laurie, Bruce M. Psaty, Ramachandran S. Vasan, Ken Rice, Charles Kooperberg, James S. Pankow, Nicholas L. Smith, Nathan Pankratz

Quantitative Health Sciences

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

Abstract

Background: Risk for venous thromboembolism has a strong genetic component. Whole genome sequencing from the TOPMed program (Trans-Omics for Precision Medicine) allowed us to look for new associations, particularly rare variants missed by standard genome-wide association studies. Methods: The 3793 cases and 7834 controls (11.6% of cases were individuals of African, Hispanic/Latino, or Asian ancestry) were analyzed using a single variant approach and an aggregate gene-based approach using our primary filter (included only loss-of-function and missense variants predicted to be deleterious) and our secondary filter (included all missense variants). Results: Single variant analyses identified associations at 5 known loci. Aggregate gene-based analyses identified only PROC (odds ratio, 6.2 for carriers of rare variants; P=7.4×10-14) when using our primary filter. Employing our secondary variant filter led to a smaller effect size at PROC (odds ratio, 3.8; P=1.6×10-14), while excluding variants found only in rare isoforms led to a larger one (odds ratio, 7.5). Different filtering strategies improved the signal for 2 other known genes: PROS1 became significant (minimum P=1.8×10-6 with the secondary filter), while SERPINC1 did not (minimum P=4.4×10-5 with minor allele frequency <0.0005). Results were largely the same when restricting the analyses to include only unprovoked cases; however, one novel gene, MS4A1, became significant (P=4.4×10-7 using all missense variants with minor allele frequency <0.0005). Conclusions: Here, we have demonstrated the importance of using multiple variant filtering strategies, as we detected additional genes when filtering variants based on their predicted deleteriousness, frequency, and presence on the most expressed isoforms. Our primary analyses did not identify new candidate loci; thus larger follow-up studies are needed to replicate the novel MS4A1 locus and to identify additional rare variation associated with venous thromboembolism.

Original language	English (US)
Pages (from-to)	E003532
Journal	Circulation: Genomic and Precision Medicine
Volume	16
Issue number	2
DOIs	https://doi.org/10.1161/CIRCGEN.121.003532
State	Published - Apr 1 2023

Keywords

cardiovascular diseases
genetics
genome-wide association study
single nucleotide polymorphisms
venous thromboembolism
whole genome sequencing

ASJC Scopus subject areas

Genetics
Cardiology and Cardiovascular Medicine
Genetics(clinical)

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10.1161/CIRCGEN.121.003532

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Seyerle, A. A., Laurie, C. A., Coombes, B. J., Jain, D., Conomos, M. P., Brody, J., Chen, M. H., Gogarten, S. M., Beutel, K. M., Gupta, N., Heckbert, S. R., Jackson, R. D., Johnson, A. D., Ko, D., Manson, J. E., McKnight, B., Metcalf, G. A., Morrison, A. C., Reiner, A. P., ... Pankratz, N. (2023). Whole Genome Analysis of Venous Thromboembolism: The Trans-Omics for Precision Medicine Program. Circulation: Genomic and Precision Medicine, 16(2), E003532. https://doi.org/10.1161/CIRCGEN.121.003532

Seyerle, AA, Laurie, CA, Coombes, BJ, Jain, D, Conomos, MP, Brody, J, Chen, MH, Gogarten, SM, Beutel, KM, Gupta, N, Heckbert, SR, Jackson, RD, Johnson, AD, Ko, D, Manson, JE, McKnight, B, Metcalf, GA, Morrison, AC, Reiner, AP, Sofer, T, Tang, W, Wiggins, KL, Boerwinkle, E, De Andrade, M, Gabriel, SB, Gibbs, RA, Laurie, CC, Psaty, BM, Vasan, RS, Rice, K, Kooperberg, C, Pankow, JS, Smith, NL & Pankratz, N 2023, 'Whole Genome Analysis of Venous Thromboembolism: The Trans-Omics for Precision Medicine Program', Circulation: Genomic and Precision Medicine, vol. 16, no. 2, pp. E003532. https://doi.org/10.1161/CIRCGEN.121.003532

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title = "Whole Genome Analysis of Venous Thromboembolism: The Trans-Omics for Precision Medicine Program",

abstract = "Background: Risk for venous thromboembolism has a strong genetic component. Whole genome sequencing from the TOPMed program (Trans-Omics for Precision Medicine) allowed us to look for new associations, particularly rare variants missed by standard genome-wide association studies. Methods: The 3793 cases and 7834 controls (11.6% of cases were individuals of African, Hispanic/Latino, or Asian ancestry) were analyzed using a single variant approach and an aggregate gene-based approach using our primary filter (included only loss-of-function and missense variants predicted to be deleterious) and our secondary filter (included all missense variants). Results: Single variant analyses identified associations at 5 known loci. Aggregate gene-based analyses identified only PROC (odds ratio, 6.2 for carriers of rare variants; P=7.4×10-14) when using our primary filter. Employing our secondary variant filter led to a smaller effect size at PROC (odds ratio, 3.8; P=1.6×10-14), while excluding variants found only in rare isoforms led to a larger one (odds ratio, 7.5). Different filtering strategies improved the signal for 2 other known genes: PROS1 became significant (minimum P=1.8×10-6 with the secondary filter), while SERPINC1 did not (minimum P=4.4×10-5 with minor allele frequency <0.0005). Results were largely the same when restricting the analyses to include only unprovoked cases; however, one novel gene, MS4A1, became significant (P=4.4×10-7 using all missense variants with minor allele frequency <0.0005). Conclusions: Here, we have demonstrated the importance of using multiple variant filtering strategies, as we detected additional genes when filtering variants based on their predicted deleteriousness, frequency, and presence on the most expressed isoforms. Our primary analyses did not identify new candidate loci; thus larger follow-up studies are needed to replicate the novel MS4A1 locus and to identify additional rare variation associated with venous thromboembolism.",

keywords = "cardiovascular diseases, genetics, genome-wide association study, single nucleotide polymorphisms, venous thromboembolism, whole genome sequencing",

author = "Seyerle, {Amanda A.} and Laurie, {Cecelia A.} and Coombes, {Brandon J.} and Deepti Jain and Conomos, {Matthew P.} and Jennifer Brody and Chen, {Ming Huei} and Gogarten, {Stephanie M.} and Beutel, {Kathleen M.} and Namrata Gupta and Heckbert, {Susan R.} and Jackson, {Rebecca D.} and Johnson, {Andrew D.} and Darae Ko and Manson, {Joann E.} and Barbara McKnight and Metcalf, {Ginger A.} and Morrison, {Alanna C.} and Reiner, {Alexander P.} and Tamar Sofer and Weihong Tang and Wiggins, {Kerri L.} and Eric Boerwinkle and {De Andrade}, Mariza and Gabriel, {Stacey B.} and Gibbs, {Richard A.} and Laurie, {Cathy C.} and Psaty, {Bruce M.} and Vasan, {Ramachandran S.} and Ken Rice and Charles Kooperberg and Pankow, {James S.} and Smith, {Nicholas L.} and Nathan Pankratz",

note = "Publisher Copyright: {\textcopyright} 2023 American Heart Association, Inc.",

year = "2023",

month = apr,

day = "1",

doi = "10.1161/CIRCGEN.121.003532",

language = "English (US)",

volume = "16",

pages = "E003532",

journal = "Circulation: Genomic and Precision Medicine",

issn = "1942-325X",

publisher = "Lippincott Williams and Wilkins Ltd.",

number = "2",

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TY - JOUR

T1 - Whole Genome Analysis of Venous Thromboembolism

T2 - The Trans-Omics for Precision Medicine Program

AU - Seyerle, Amanda A.

AU - Laurie, Cecelia A.

AU - Coombes, Brandon J.

AU - Jain, Deepti

AU - Conomos, Matthew P.

AU - Brody, Jennifer

AU - Chen, Ming Huei

AU - Gogarten, Stephanie M.

AU - Beutel, Kathleen M.

AU - Gupta, Namrata

AU - Heckbert, Susan R.

AU - Jackson, Rebecca D.

AU - Johnson, Andrew D.

AU - Ko, Darae

AU - Manson, Joann E.

AU - McKnight, Barbara

AU - Metcalf, Ginger A.

AU - Morrison, Alanna C.

AU - Reiner, Alexander P.

AU - Sofer, Tamar

AU - Tang, Weihong

AU - Wiggins, Kerri L.

AU - Boerwinkle, Eric

AU - De Andrade, Mariza

AU - Gabriel, Stacey B.

AU - Gibbs, Richard A.

AU - Laurie, Cathy C.

AU - Psaty, Bruce M.

AU - Vasan, Ramachandran S.

AU - Rice, Ken

AU - Kooperberg, Charles

AU - Pankow, James S.

AU - Smith, Nicholas L.

AU - Pankratz, Nathan

PY - 2023/4/1

Y1 - 2023/4/1

N2 - Background: Risk for venous thromboembolism has a strong genetic component. Whole genome sequencing from the TOPMed program (Trans-Omics for Precision Medicine) allowed us to look for new associations, particularly rare variants missed by standard genome-wide association studies. Methods: The 3793 cases and 7834 controls (11.6% of cases were individuals of African, Hispanic/Latino, or Asian ancestry) were analyzed using a single variant approach and an aggregate gene-based approach using our primary filter (included only loss-of-function and missense variants predicted to be deleterious) and our secondary filter (included all missense variants). Results: Single variant analyses identified associations at 5 known loci. Aggregate gene-based analyses identified only PROC (odds ratio, 6.2 for carriers of rare variants; P=7.4×10-14) when using our primary filter. Employing our secondary variant filter led to a smaller effect size at PROC (odds ratio, 3.8; P=1.6×10-14), while excluding variants found only in rare isoforms led to a larger one (odds ratio, 7.5). Different filtering strategies improved the signal for 2 other known genes: PROS1 became significant (minimum P=1.8×10-6 with the secondary filter), while SERPINC1 did not (minimum P=4.4×10-5 with minor allele frequency <0.0005). Results were largely the same when restricting the analyses to include only unprovoked cases; however, one novel gene, MS4A1, became significant (P=4.4×10-7 using all missense variants with minor allele frequency <0.0005). Conclusions: Here, we have demonstrated the importance of using multiple variant filtering strategies, as we detected additional genes when filtering variants based on their predicted deleteriousness, frequency, and presence on the most expressed isoforms. Our primary analyses did not identify new candidate loci; thus larger follow-up studies are needed to replicate the novel MS4A1 locus and to identify additional rare variation associated with venous thromboembolism.

AB - Background: Risk for venous thromboembolism has a strong genetic component. Whole genome sequencing from the TOPMed program (Trans-Omics for Precision Medicine) allowed us to look for new associations, particularly rare variants missed by standard genome-wide association studies. Methods: The 3793 cases and 7834 controls (11.6% of cases were individuals of African, Hispanic/Latino, or Asian ancestry) were analyzed using a single variant approach and an aggregate gene-based approach using our primary filter (included only loss-of-function and missense variants predicted to be deleterious) and our secondary filter (included all missense variants). Results: Single variant analyses identified associations at 5 known loci. Aggregate gene-based analyses identified only PROC (odds ratio, 6.2 for carriers of rare variants; P=7.4×10-14) when using our primary filter. Employing our secondary variant filter led to a smaller effect size at PROC (odds ratio, 3.8; P=1.6×10-14), while excluding variants found only in rare isoforms led to a larger one (odds ratio, 7.5). Different filtering strategies improved the signal for 2 other known genes: PROS1 became significant (minimum P=1.8×10-6 with the secondary filter), while SERPINC1 did not (minimum P=4.4×10-5 with minor allele frequency <0.0005). Results were largely the same when restricting the analyses to include only unprovoked cases; however, one novel gene, MS4A1, became significant (P=4.4×10-7 using all missense variants with minor allele frequency <0.0005). Conclusions: Here, we have demonstrated the importance of using multiple variant filtering strategies, as we detected additional genes when filtering variants based on their predicted deleteriousness, frequency, and presence on the most expressed isoforms. Our primary analyses did not identify new candidate loci; thus larger follow-up studies are needed to replicate the novel MS4A1 locus and to identify additional rare variation associated with venous thromboembolism.

KW - cardiovascular diseases

KW - genetics

KW - genome-wide association study

KW - single nucleotide polymorphisms

KW - venous thromboembolism

KW - whole genome sequencing

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Whole Genome Analysis of Venous Thromboembolism: The Trans-Omics for Precision Medicine Program

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