Identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes

BACKGROUND: Next-generation DNA sequencing is opening new avenues for genetic association studies in common diseases that, like deep vein thrombosis (DVT), have a strong genetic predisposition still largely unexplained by currently identified risk variants. In order to develop sequencing and analyti...

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Autores principales: Lotta, Luca A, Wang, Mark, Yu, Jin, Martinelli, Ida, Yu, Fuli, Passamonti, Serena M, Consonni, Dario, Pappalardo, Emanuela, Menegatti, Marzia, Scherer, Steven E, Lewis, Lora L, Akbar, Humeira, Wu, Yuanqing, Bainbridge, Matthew N, Muzny, Donna M, Mannucci, Pier M, Gibbs, Richard A, Peyvandi, Flora
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3305575/
https://www.ncbi.nlm.nih.gov/pubmed/22353194
http://dx.doi.org/10.1186/1755-8794-5-7
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author Lotta, Luca A
Wang, Mark
Yu, Jin
Martinelli, Ida
Yu, Fuli
Passamonti, Serena M
Consonni, Dario
Pappalardo, Emanuela
Menegatti, Marzia
Scherer, Steven E
Lewis, Lora L
Akbar, Humeira
Wu, Yuanqing
Bainbridge, Matthew N
Muzny, Donna M
Mannucci, Pier M
Gibbs, Richard A
Peyvandi, Flora
author_facet Lotta, Luca A
Wang, Mark
Yu, Jin
Martinelli, Ida
Yu, Fuli
Passamonti, Serena M
Consonni, Dario
Pappalardo, Emanuela
Menegatti, Marzia
Scherer, Steven E
Lewis, Lora L
Akbar, Humeira
Wu, Yuanqing
Bainbridge, Matthew N
Muzny, Donna M
Mannucci, Pier M
Gibbs, Richard A
Peyvandi, Flora
author_sort Lotta, Luca A
collection PubMed
description BACKGROUND: Next-generation DNA sequencing is opening new avenues for genetic association studies in common diseases that, like deep vein thrombosis (DVT), have a strong genetic predisposition still largely unexplained by currently identified risk variants. In order to develop sequencing and analytical pipelines for the application of next-generation sequencing to complex diseases, we conducted a pilot study sequencing the coding area of 186 hemostatic/proinflammatory genes in 10 Italian cases of idiopathic DVT and 12 healthy controls. RESULTS: A molecular-barcoding strategy was used to multiplex DNA target capture and sequencing, while retaining individual sequence information. Genomic libraries with barcode sequence-tags were pooled (in pools of 8 or 16 samples) and enriched for target DNA sequences. Sequencing was performed on ABI SOLiD-4 platforms. We produced > 12 gigabases of raw sequence data to sequence at high coverage (average: 42X) the 700-kilobase target area in 22 individuals. A total of 1876 high-quality genetic variants were identified (1778 single nucleotide substitutions and 98 insertions/deletions). Annotation on databases of genetic variation and human disease mutations revealed several novel, potentially deleterious mutations. We tested 576 common variants in a case-control association analysis, carrying the top-5 associations over to replication in up to 719 DVT cases and 719 controls. We also conducted an analysis of the burden of nonsynonymous variants in coagulation factor and anticoagulant genes. We found an excess of rare missense mutations in anticoagulant genes in DVT cases compared to controls and an association for a missense polymorphism of FGA (rs6050; p = 1.9 × 10(-5), OR 1.45; 95% CI, 1.22-1.72; after replication in > 1400 individuals). CONCLUSIONS: We implemented a barcode-based strategy to efficiently multiplex sequencing of hundreds of candidate genes in several individuals. In the relatively small dataset of our pilot study we were able to identify bona fide associations with DVT. Our study illustrates the potential of next-generation sequencing for the discovery of genetic variation predisposing to complex diseases.
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spelling pubmed-33055752012-03-16 Identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes Lotta, Luca A Wang, Mark Yu, Jin Martinelli, Ida Yu, Fuli Passamonti, Serena M Consonni, Dario Pappalardo, Emanuela Menegatti, Marzia Scherer, Steven E Lewis, Lora L Akbar, Humeira Wu, Yuanqing Bainbridge, Matthew N Muzny, Donna M Mannucci, Pier M Gibbs, Richard A Peyvandi, Flora BMC Med Genomics Research Article BACKGROUND: Next-generation DNA sequencing is opening new avenues for genetic association studies in common diseases that, like deep vein thrombosis (DVT), have a strong genetic predisposition still largely unexplained by currently identified risk variants. In order to develop sequencing and analytical pipelines for the application of next-generation sequencing to complex diseases, we conducted a pilot study sequencing the coding area of 186 hemostatic/proinflammatory genes in 10 Italian cases of idiopathic DVT and 12 healthy controls. RESULTS: A molecular-barcoding strategy was used to multiplex DNA target capture and sequencing, while retaining individual sequence information. Genomic libraries with barcode sequence-tags were pooled (in pools of 8 or 16 samples) and enriched for target DNA sequences. Sequencing was performed on ABI SOLiD-4 platforms. We produced > 12 gigabases of raw sequence data to sequence at high coverage (average: 42X) the 700-kilobase target area in 22 individuals. A total of 1876 high-quality genetic variants were identified (1778 single nucleotide substitutions and 98 insertions/deletions). Annotation on databases of genetic variation and human disease mutations revealed several novel, potentially deleterious mutations. We tested 576 common variants in a case-control association analysis, carrying the top-5 associations over to replication in up to 719 DVT cases and 719 controls. We also conducted an analysis of the burden of nonsynonymous variants in coagulation factor and anticoagulant genes. We found an excess of rare missense mutations in anticoagulant genes in DVT cases compared to controls and an association for a missense polymorphism of FGA (rs6050; p = 1.9 × 10(-5), OR 1.45; 95% CI, 1.22-1.72; after replication in > 1400 individuals). CONCLUSIONS: We implemented a barcode-based strategy to efficiently multiplex sequencing of hundreds of candidate genes in several individuals. In the relatively small dataset of our pilot study we were able to identify bona fide associations with DVT. Our study illustrates the potential of next-generation sequencing for the discovery of genetic variation predisposing to complex diseases. BioMed Central 2012-02-21 /pmc/articles/PMC3305575/ /pubmed/22353194 http://dx.doi.org/10.1186/1755-8794-5-7 Text en Copyright ©2012 Lotta et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Lotta, Luca A
Wang, Mark
Yu, Jin
Martinelli, Ida
Yu, Fuli
Passamonti, Serena M
Consonni, Dario
Pappalardo, Emanuela
Menegatti, Marzia
Scherer, Steven E
Lewis, Lora L
Akbar, Humeira
Wu, Yuanqing
Bainbridge, Matthew N
Muzny, Donna M
Mannucci, Pier M
Gibbs, Richard A
Peyvandi, Flora
Identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes
title Identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes
title_full Identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes
title_fullStr Identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes
title_full_unstemmed Identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes
title_short Identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes
title_sort identification of genetic risk variants for deep vein thrombosis by multiplexed next-generation sequencing of 186 hemostatic/pro-inflammatory genes
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3305575/
https://www.ncbi.nlm.nih.gov/pubmed/22353194
http://dx.doi.org/10.1186/1755-8794-5-7
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