DNA Methylation Analysis Identifies Loci for Blood Pressure Regulation

Melissa A Richard; Tianxiao Huan; Symen Ligthart; Rahul Gondalia; Min A Jhun; Jennifer A Brody; Marguerite R Irvin; Riccardo Marioni; Jincheng Shen; Pei-Chien Tsai; May E Montasser; Yucheng Jia; Catriona Syme; Elias L Salfati; Eric Boerwinkle; Weihua Guan; Thomas H Mosley; Jan Bressler; Alanna C Morrison; Chunyu Liu; Michael M Mendelson; André G Uitterlinden; Joyce B van Meurs; Oscar H Franco; Guosheng Zhang; Yun Li; James D Stewart; Joshua C Bis; Bruce M Psaty; Yii-Der Ida Chen; Sharon L R Kardia; Wei Zhao; Stephen T Turner; Devin Absher; Stella Aslibekyan; John M Starr; Allan F McRae; Lifang Hou; Allan C Just; Joel D Schwartz; Pantel S Vokonas; Cristina Menni; Tim D Spector; Alan Shuldiner; Coleen M Damcott; Jerome I Rotter; Walter Palmas; Yongmei Liu; Tomáš Paus; Jordana T Bell; BIOS Consortium

doi:10.1016/j.ajhg.2017.09.028

DNA Methylation Analysis Identifies Loci for Blood Pressure Regulation

Melissa A Richard, Tianxiao Huan, Symen Ligthart, Rahul Gondalia, Min A Jhun, Jennifer A Brody, Marguerite R Irvin, Riccardo Marioni, Jincheng Shen, Pei-Chien Tsai, May E Montasser, Yucheng Jia, Catriona Syme, Elias L Salfati, Eric Boerwinkle, Weihua Guan, Thomas H Mosley, Jan Bressler, Alanna C Morrison, Chunyu LiuMichael M Mendelson, André G Uitterlinden, Joyce B van Meurs, Oscar H Franco, Guosheng Zhang, Yun Li, James D Stewart, Joshua C Bis, Bruce M Psaty, Yii-Der Ida Chen, Sharon L R Kardia, Wei Zhao, Stephen T Turner, Devin Absher, Stella Aslibekyan, John M Starr, Allan F McRae, Lifang Hou, Allan C Just, Joel D Schwartz, Pantel S Vokonas, Cristina Menni, Tim D Spector, Alan Shuldiner, Coleen M Damcott, Jerome I Rotter, Walter Palmas, Yongmei Liu, Tomáš Paus, Jordana T Bell, BIOS Consortium

Twin Research & Genetic Epidemiology

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

147 Citations (Scopus)

Abstract

Genome-wide association studies have identified hundreds of genetic variants associated with blood pressure (BP), but sequence variation accounts for a small fraction of the phenotypic variance. Epigenetic changes may alter the expression of genes involved in BP regulation and explain part of the missing heritability. We therefore conducted a two-stage meta-analysis of the cross-sectional associations of systolic and diastolic BP with blood-derived genome-wide DNA methylation measured on the Infinium HumanMethylation450 BeadChip in 17,010 individuals of European, African American, and Hispanic ancestry. Of 31 discovery-stage cytosine-phosphate-guanine (CpG) dinucleotides, 13 replicated after Bonferroni correction (discovery: N = 9,828, p < 1.0 × 10-7; replication: N = 7,182, p < 1.6 × 10-3). The replicated methylation sites are heritable (h2 > 30%) and independent of known BP genetic variants, explaining an additional 1.4% and 2.0% of the interindividual variation in systolic and diastolic BP, respectively. Bidirectional Mendelian randomization among up to 4,513 individuals of European ancestry from 4 cohorts suggested that methylation at cg08035323 (TAF1B-YWHAQ) influences BP, while BP influences methylation at cg00533891 (ZMIZ1), cg00574958 (CPT1A), and cg02711608 (SLC1A5). Gene expression analyses further identified six genes (TSPAN2, SLC7A11, UNC93B1, CPT1A, PTMS, and LPCAT3) with evidence of triangular associations between methylation, gene expression, and BP. Additional integrative Mendelian randomization analyses of gene expression and DNA methylation suggested that the expression of TSPAN2 is a putative mediator of association between DNA methylation at cg23999170 and BP. These findings suggest that heritable DNA methylation plays a role in regulating BP independently of previously known genetic variants.

Original language	English
Journal	American Journal of Human Genetics
DOIs	https://doi.org/10.1016/j.ajhg.2017.09.028
Publication status	Published - 30 Nov 2017

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Journal Article

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10.1016/j.ajhg.2017.09.028

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Richard, M. A., Huan, T., Ligthart, S., Gondalia, R., Jhun, M. A., Brody, J. A., Irvin, M. R., Marioni, R., Shen, J., Tsai, P.-C., Montasser, M. E., Jia, Y., Syme, C., Salfati, E. L., Boerwinkle, E., Guan, W., Mosley, T. H., Bressler, J., Morrison, A. C., ... BIOS Consortium (2017). DNA Methylation Analysis Identifies Loci for Blood Pressure Regulation. American Journal of Human Genetics. https://doi.org/10.1016/j.ajhg.2017.09.028

@article{a5b6a208cf674a13b64e6dc5f2775718,

title = "DNA Methylation Analysis Identifies Loci for Blood Pressure Regulation",

abstract = "Genome-wide association studies have identified hundreds of genetic variants associated with blood pressure (BP), but sequence variation accounts for a small fraction of the phenotypic variance. Epigenetic changes may alter the expression of genes involved in BP regulation and explain part of the missing heritability. We therefore conducted a two-stage meta-analysis of the cross-sectional associations of systolic and diastolic BP with blood-derived genome-wide DNA methylation measured on the Infinium HumanMethylation450 BeadChip in 17,010 individuals of European, African American, and Hispanic ancestry. Of 31 discovery-stage cytosine-phosphate-guanine (CpG) dinucleotides, 13 replicated after Bonferroni correction (discovery: N = 9,828, p < 1.0 × 10-7; replication: N = 7,182, p < 1.6 × 10-3). The replicated methylation sites are heritable (h2 > 30%) and independent of known BP genetic variants, explaining an additional 1.4% and 2.0% of the interindividual variation in systolic and diastolic BP, respectively. Bidirectional Mendelian randomization among up to 4,513 individuals of European ancestry from 4 cohorts suggested that methylation at cg08035323 (TAF1B-YWHAQ) influences BP, while BP influences methylation at cg00533891 (ZMIZ1), cg00574958 (CPT1A), and cg02711608 (SLC1A5). Gene expression analyses further identified six genes (TSPAN2, SLC7A11, UNC93B1, CPT1A, PTMS, and LPCAT3) with evidence of triangular associations between methylation, gene expression, and BP. Additional integrative Mendelian randomization analyses of gene expression and DNA methylation suggested that the expression of TSPAN2 is a putative mediator of association between DNA methylation at cg23999170 and BP. These findings suggest that heritable DNA methylation plays a role in regulating BP independently of previously known genetic variants.",

keywords = "Journal Article",

author = "Richard, {Melissa A} and Tianxiao Huan and Symen Ligthart and Rahul Gondalia and Jhun, {Min A} and Brody, {Jennifer A} and Irvin, {Marguerite R} and Riccardo Marioni and Jincheng Shen and Pei-Chien Tsai and Montasser, {May E} and Yucheng Jia and Catriona Syme and Salfati, {Elias L} and Eric Boerwinkle and Weihua Guan and Mosley, {Thomas H} and Jan Bressler and Morrison, {Alanna C} and Chunyu Liu and Mendelson, {Michael M} and Uitterlinden, {Andr{\'e} G} and {van Meurs}, {Joyce B} and Franco, {Oscar H} and Guosheng Zhang and Yun Li and Stewart, {James D} and Bis, {Joshua C} and Psaty, {Bruce M} and Chen, {Yii-Der Ida} and Kardia, {Sharon L R} and Wei Zhao and Turner, {Stephen T} and Devin Absher and Stella Aslibekyan and Starr, {John M} and McRae, {Allan F} and Lifang Hou and Just, {Allan C} and Schwartz, {Joel D} and Vokonas, {Pantel S} and Cristina Menni and Spector, {Tim D} and Alan Shuldiner and Damcott, {Coleen M} and Rotter, {Jerome I} and Walter Palmas and Yongmei Liu and Tom{\'a}{\v s} Paus and Bell, {Jordana T} and {BIOS Consortium}",

year = "2017",

month = nov,

day = "30",

doi = "10.1016/j.ajhg.2017.09.028",

language = "English",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Elsevier",

}

Richard, MA, Huan, T, Ligthart, S, Gondalia, R, Jhun, MA, Brody, JA, Irvin, MR, Marioni, R, Shen, J, Tsai, P-C, Montasser, ME, Jia, Y, Syme, C, Salfati, EL, Boerwinkle, E, Guan, W, Mosley, TH, Bressler, J, Morrison, AC, Liu, C, Mendelson, MM, Uitterlinden, AG, van Meurs, JB, Franco, OH, Zhang, G, Li, Y, Stewart, JD, Bis, JC, Psaty, BM, Chen, Y-DI, Kardia, SLR, Zhao, W, Turner, ST, Absher, D, Aslibekyan, S, Starr, JM, McRae, AF, Hou, L, Just, AC, Schwartz, JD, Vokonas, PS, Menni, C , Spector, TD, Shuldiner, A, Damcott, CM, Rotter, JI, Palmas, W, Liu, Y, Paus, T, Bell, JT & BIOS Consortium 2017, 'DNA Methylation Analysis Identifies Loci for Blood Pressure Regulation', American Journal of Human Genetics. https://doi.org/10.1016/j.ajhg.2017.09.028

TY - JOUR

T1 - DNA Methylation Analysis Identifies Loci for Blood Pressure Regulation

AU - Richard, Melissa A

AU - Huan, Tianxiao

AU - Ligthart, Symen

AU - Gondalia, Rahul

AU - Jhun, Min A

AU - Brody, Jennifer A

AU - Irvin, Marguerite R

AU - Marioni, Riccardo

AU - Shen, Jincheng

AU - Tsai, Pei-Chien

AU - Montasser, May E

AU - Jia, Yucheng

AU - Syme, Catriona

AU - Salfati, Elias L

AU - Boerwinkle, Eric

AU - Guan, Weihua

AU - Mosley, Thomas H

AU - Bressler, Jan

AU - Morrison, Alanna C

AU - Liu, Chunyu

AU - Mendelson, Michael M

AU - Uitterlinden, André G

AU - van Meurs, Joyce B

AU - Franco, Oscar H

AU - Zhang, Guosheng

AU - Li, Yun

AU - Stewart, James D

AU - Bis, Joshua C

AU - Psaty, Bruce M

AU - Chen, Yii-Der Ida

AU - Kardia, Sharon L R

AU - Zhao, Wei

AU - Turner, Stephen T

AU - Absher, Devin

AU - Aslibekyan, Stella

AU - Starr, John M

AU - McRae, Allan F

AU - Hou, Lifang

AU - Just, Allan C

AU - Schwartz, Joel D

AU - Vokonas, Pantel S

AU - Menni, Cristina

AU - Spector, Tim D

AU - Shuldiner, Alan

AU - Damcott, Coleen M

AU - Rotter, Jerome I

AU - Palmas, Walter

AU - Liu, Yongmei

AU - Paus, Tomáš

AU - Bell, Jordana T

AU - BIOS Consortium

PY - 2017/11/30

Y1 - 2017/11/30

N2 - Genome-wide association studies have identified hundreds of genetic variants associated with blood pressure (BP), but sequence variation accounts for a small fraction of the phenotypic variance. Epigenetic changes may alter the expression of genes involved in BP regulation and explain part of the missing heritability. We therefore conducted a two-stage meta-analysis of the cross-sectional associations of systolic and diastolic BP with blood-derived genome-wide DNA methylation measured on the Infinium HumanMethylation450 BeadChip in 17,010 individuals of European, African American, and Hispanic ancestry. Of 31 discovery-stage cytosine-phosphate-guanine (CpG) dinucleotides, 13 replicated after Bonferroni correction (discovery: N = 9,828, p < 1.0 × 10-7; replication: N = 7,182, p < 1.6 × 10-3). The replicated methylation sites are heritable (h2 > 30%) and independent of known BP genetic variants, explaining an additional 1.4% and 2.0% of the interindividual variation in systolic and diastolic BP, respectively. Bidirectional Mendelian randomization among up to 4,513 individuals of European ancestry from 4 cohorts suggested that methylation at cg08035323 (TAF1B-YWHAQ) influences BP, while BP influences methylation at cg00533891 (ZMIZ1), cg00574958 (CPT1A), and cg02711608 (SLC1A5). Gene expression analyses further identified six genes (TSPAN2, SLC7A11, UNC93B1, CPT1A, PTMS, and LPCAT3) with evidence of triangular associations between methylation, gene expression, and BP. Additional integrative Mendelian randomization analyses of gene expression and DNA methylation suggested that the expression of TSPAN2 is a putative mediator of association between DNA methylation at cg23999170 and BP. These findings suggest that heritable DNA methylation plays a role in regulating BP independently of previously known genetic variants.

AB - Genome-wide association studies have identified hundreds of genetic variants associated with blood pressure (BP), but sequence variation accounts for a small fraction of the phenotypic variance. Epigenetic changes may alter the expression of genes involved in BP regulation and explain part of the missing heritability. We therefore conducted a two-stage meta-analysis of the cross-sectional associations of systolic and diastolic BP with blood-derived genome-wide DNA methylation measured on the Infinium HumanMethylation450 BeadChip in 17,010 individuals of European, African American, and Hispanic ancestry. Of 31 discovery-stage cytosine-phosphate-guanine (CpG) dinucleotides, 13 replicated after Bonferroni correction (discovery: N = 9,828, p < 1.0 × 10-7; replication: N = 7,182, p < 1.6 × 10-3). The replicated methylation sites are heritable (h2 > 30%) and independent of known BP genetic variants, explaining an additional 1.4% and 2.0% of the interindividual variation in systolic and diastolic BP, respectively. Bidirectional Mendelian randomization among up to 4,513 individuals of European ancestry from 4 cohorts suggested that methylation at cg08035323 (TAF1B-YWHAQ) influences BP, while BP influences methylation at cg00533891 (ZMIZ1), cg00574958 (CPT1A), and cg02711608 (SLC1A5). Gene expression analyses further identified six genes (TSPAN2, SLC7A11, UNC93B1, CPT1A, PTMS, and LPCAT3) with evidence of triangular associations between methylation, gene expression, and BP. Additional integrative Mendelian randomization analyses of gene expression and DNA methylation suggested that the expression of TSPAN2 is a putative mediator of association between DNA methylation at cg23999170 and BP. These findings suggest that heritable DNA methylation plays a role in regulating BP independently of previously known genetic variants.

KW - Journal Article

UR - http://www.scopus.com/inward/record.url?scp=85035788668&partnerID=8YFLogxK

U2 - 10.1016/j.ajhg.2017.09.028

DO - 10.1016/j.ajhg.2017.09.028

M3 - Article

C2 - 29198723

SN - 0002-9297

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

ER -

DNA Methylation Analysis Identifies Loci for Blood Pressure Regulation

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