Identifying genetic variants for heart rate variability in the acetylcholine pathway

Harriëtte Riese; Loretto M. Muñoz; Catharina A. Hartman; Xiuhua Ding; Shaoyong Su; Albertine J. Oldehinkel; Arie M. Van Roon; Peter J. Van Der Most; Joop Lefrt; Ron T. Gansevoort; Pim Van Der Harst; Niek Verweij; Carmilla M.M. Licht; Dorret I. Boomsma; Jouke Jan Hottenga; Gonneke Willemsen; Brenda W.J.H. Penninx; Ilja M. Nolte; Eco J.C. De Geus; Xiaoling Wang; Harold Snieder

doi:10.1371/journal.pone.0112476

Identifying genetic variants for heart rate variability in the acetylcholine pathway

Harriëtte Riese, Loretto M. Muñoz, Catharina A. Hartman, Xiuhua Ding, Shaoyong Su, Albertine J. Oldehinkel, Arie M. Van Roon, Peter J. Van Der Most, Joop Lefrt, Ron T. Gansevoort, Pim Van Der Harst, Niek Verweij, Carmilla M.M. Licht, Dorret I. Boomsma, Jouke Jan Hottenga, Gonneke Willemsen, Brenda W.J.H. Penninx, Ilja M. Nolte, Eco J.C. De Geus, Xiaoling WangHarold Snieder

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Abstract

Heart rate variability is an important risk factor for cardiovascular disease and all-causemortality. The acetylcholine pathway plays a key role in explaining heart rate variability in humans. We assessed whether 443 genotyped and imputed common genetic variants in eight key genes (CHAT, SLC18A3, SLC5A7, CHRNB4, CHRNA3, CHRNA, CHRM2 and ACHE) of the acetylcholine pathway were associated with variation in an establishedmeasure of heart rate variability reflecting parasympathetic control of the heart rhythm, the root mean square of successive differences (RMSSD) of normal RR intervals. The association was studied in a two stage design in individuals of European descent. First, analyses were performed in a discovery sample of four cohorts (n = 3429, discovery stage). Second, findings were replicated in three independent cohorts (n = 3311, replication stage), and finally the two stages were combined in a meta-analysis (n = 6740). RMSSD data were obtained under resting conditions. After correction for multiple testing, none of the SNPs showed an association with RMSSD. In conclusion, no common genetic variants for heart rate variability were identified in the largest andmost comprehensive candidate gene study on the acetylcholine pathway to date. Future gene finding efforts for RMSSD may want to focus on hypothesis free approaches such as the genome-wide association study.

Original language	English (US)
Article number	e112476
Journal	PloS one
Volume	9
Issue number	11
DOIs	https://doi.org/10.1371/journal.pone.0112476
State	Published - Nov 10 2014

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

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Riese, H., Muñoz, L. M., Hartman, C. A., Ding, X., Su, S., Oldehinkel, A. J., Van Roon, A. M., Van Der Most, P. J., Lefrt, J., Gansevoort, R. T., Van Der Harst, P., Verweij, N., Licht, C. M. M., Boomsma, D. I., Hottenga, J. J., Willemsen, G., Penninx, B. W. J. H., Nolte, I. M., De Geus, E. J. C., ... Snieder, H. (2014). Identifying genetic variants for heart rate variability in the acetylcholine pathway. PloS one, 9(11), Article e112476. https://doi.org/10.1371/journal.pone.0112476

Riese, H, Muñoz, LM, Hartman, CA, Ding, X, Su, S, Oldehinkel, AJ, Van Roon, AM, Van Der Most, PJ, Lefrt, J, Gansevoort, RT, Van Der Harst, P, Verweij, N, Licht, CMM, Boomsma, DI, Hottenga, JJ, Willemsen, G, Penninx, BWJH, Nolte, IM, De Geus, EJC, Wang, X & Snieder, H 2014, 'Identifying genetic variants for heart rate variability in the acetylcholine pathway', PloS one, vol. 9, no. 11, e112476. https://doi.org/10.1371/journal.pone.0112476

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title = "Identifying genetic variants for heart rate variability in the acetylcholine pathway",

abstract = "Heart rate variability is an important risk factor for cardiovascular disease and all-causemortality. The acetylcholine pathway plays a key role in explaining heart rate variability in humans. We assessed whether 443 genotyped and imputed common genetic variants in eight key genes (CHAT, SLC18A3, SLC5A7, CHRNB4, CHRNA3, CHRNA, CHRM2 and ACHE) of the acetylcholine pathway were associated with variation in an establishedmeasure of heart rate variability reflecting parasympathetic control of the heart rhythm, the root mean square of successive differences (RMSSD) of normal RR intervals. The association was studied in a two stage design in individuals of European descent. First, analyses were performed in a discovery sample of four cohorts (n = 3429, discovery stage). Second, findings were replicated in three independent cohorts (n = 3311, replication stage), and finally the two stages were combined in a meta-analysis (n = 6740). RMSSD data were obtained under resting conditions. After correction for multiple testing, none of the SNPs showed an association with RMSSD. In conclusion, no common genetic variants for heart rate variability were identified in the largest andmost comprehensive candidate gene study on the acetylcholine pathway to date. Future gene finding efforts for RMSSD may want to focus on hypothesis free approaches such as the genome-wide association study.",

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AU - Riese, Harriëtte

AU - Muñoz, Loretto M.

AU - Hartman, Catharina A.

AU - Ding, Xiuhua

AU - Su, Shaoyong

AU - Oldehinkel, Albertine J.

AU - Van Roon, Arie M.

AU - Van Der Most, Peter J.

AU - Lefrt, Joop

AU - Gansevoort, Ron T.

AU - Van Der Harst, Pim

AU - Verweij, Niek

AU - Licht, Carmilla M.M.

AU - Boomsma, Dorret I.

AU - Hottenga, Jouke Jan

AU - Willemsen, Gonneke

AU - Penninx, Brenda W.J.H.

AU - Nolte, Ilja M.

AU - De Geus, Eco J.C.

AU - Wang, Xiaoling

AU - Snieder, Harold

PY - 2014/11/10

Y1 - 2014/11/10

N2 - Heart rate variability is an important risk factor for cardiovascular disease and all-causemortality. The acetylcholine pathway plays a key role in explaining heart rate variability in humans. We assessed whether 443 genotyped and imputed common genetic variants in eight key genes (CHAT, SLC18A3, SLC5A7, CHRNB4, CHRNA3, CHRNA, CHRM2 and ACHE) of the acetylcholine pathway were associated with variation in an establishedmeasure of heart rate variability reflecting parasympathetic control of the heart rhythm, the root mean square of successive differences (RMSSD) of normal RR intervals. The association was studied in a two stage design in individuals of European descent. First, analyses were performed in a discovery sample of four cohorts (n = 3429, discovery stage). Second, findings were replicated in three independent cohorts (n = 3311, replication stage), and finally the two stages were combined in a meta-analysis (n = 6740). RMSSD data were obtained under resting conditions. After correction for multiple testing, none of the SNPs showed an association with RMSSD. In conclusion, no common genetic variants for heart rate variability were identified in the largest andmost comprehensive candidate gene study on the acetylcholine pathway to date. Future gene finding efforts for RMSSD may want to focus on hypothesis free approaches such as the genome-wide association study.

AB - Heart rate variability is an important risk factor for cardiovascular disease and all-causemortality. The acetylcholine pathway plays a key role in explaining heart rate variability in humans. We assessed whether 443 genotyped and imputed common genetic variants in eight key genes (CHAT, SLC18A3, SLC5A7, CHRNB4, CHRNA3, CHRNA, CHRM2 and ACHE) of the acetylcholine pathway were associated with variation in an establishedmeasure of heart rate variability reflecting parasympathetic control of the heart rhythm, the root mean square of successive differences (RMSSD) of normal RR intervals. The association was studied in a two stage design in individuals of European descent. First, analyses were performed in a discovery sample of four cohorts (n = 3429, discovery stage). Second, findings were replicated in three independent cohorts (n = 3311, replication stage), and finally the two stages were combined in a meta-analysis (n = 6740). RMSSD data were obtained under resting conditions. After correction for multiple testing, none of the SNPs showed an association with RMSSD. In conclusion, no common genetic variants for heart rate variability were identified in the largest andmost comprehensive candidate gene study on the acetylcholine pathway to date. Future gene finding efforts for RMSSD may want to focus on hypothesis free approaches such as the genome-wide association study.

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JO - PloS one

JF - PloS one

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ER -

Identifying genetic variants for heart rate variability in the acetylcholine pathway

Abstract

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