Dopaminergic Genetic Variants and Voluntary Externally Paced Exercise Behavior

Denise J. Van Der Mee; Iryna O. Fedko; Jouke Jan Hottenga; Erik A. Ehli; Matthijs D. Van Der Zee; Lannie Ligthart; Toos C.E.M. Van Beijsterveldt; Gareth E. Davies; Meike Bartels; Joseph G. Landers; Eco J.C. De Geus

doi:10.1249/MSS.0000000000001479

Dopaminergic Genetic Variants and Voluntary Externally Paced Exercise Behavior

Denise J. Van Der Mee^*, Iryna O. Fedko, Jouke Jan Hottenga, Erik A. Ehli, Matthijs D. Van Der Zee, Lannie Ligthart, Toos C.E.M. Van Beijsterveldt, Gareth E. Davies, Meike Bartels, Joseph G. Landers, Eco J.C. De Geus

^*Corresponding author for this work

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Abstract

PURPOSE: Most candidate gene studies on the neurobiology of voluntary exercise behavior have focused on the dopaminergic signaling pathway and its role in the mesolimbic reward system. We hypothesized that dopaminergic candidate genes may influence exercise behavior through additional effects on executive functioning and that these effects are only detected when the types of exercise activity are taken into account.

METHODS: Data on voluntary exercise behavior and at least one SNP/VNTR were available for 12,929 participants of the Netherlands Twin Registry. Exercise activity was classified as externally paced if a high level of executive function skill was required. The total volume of voluntary exercise (minutes per week) as well as the volume specifically spent on externally paced activities were tested for association with nine functional dopaminergic polymorphisms (DRD1: rs265981, DRD2/ANKK1: rs1800497, DRD3: rs6280, DRD4: VNTR 48bp, DRD5: VNTR 130-166bp, DBH: rs2519152, DAT1: VNTR 40bp, COMT: rs4680, MAOA: VNTR 30bp), a polygenic score (PGS) based on nine alleles leading to lower dopamine responsiveness, and a PGS based on three alleles associated with both higher reward sensitivity and better executive functioning (DRD2/ANKK1: 'G' allele, COMT: Met allele, DAT1: 440bp allele).

RESULTS: No association with total exercise volume or externally paced exercise volume was found for individual alleles or the nine-allele polygenic score. The volume of externally paced exercise behavior was significantly associated with the reward and executive function congruent PGS. This association was driven by the DAT1 440bp and COMT Met allele which acted as increaser alleles for externally paced exercise behavior.

CONCLUSION: Taking into account the types of exercise activity may increase the success of identifying genetic variants and unraveling the neurobiology of voluntary exercise behavior. Key words: candidate gene, exercise behavior, reward sensitivity, executive functioning.

Original language	English
Pages (from-to)	700-708
Number of pages	9
Journal	Medicine and Science in Sports and Exercise
Volume	50
Issue number	4
DOIs	https://doi.org/10.1249/MSS.0000000000001479
Publication status	Published - Apr 2018

Keywords

CANDIDATE GENE
EXECUTIVE FUNCTIONING
EXERCISE BEHAVIOR
REWARD SENSITIVITY

UN SDGs

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

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Van Der Mee, D. J., Fedko, I. O., Hottenga, J. J., Ehli, E. A., Van Der Zee, M. D., Ligthart, L., Van Beijsterveldt, T. C. E. M., Davies, G. E., Bartels, M., Landers, J. G., & De Geus, E. J. C. (2018). Dopaminergic Genetic Variants and Voluntary Externally Paced Exercise Behavior. Medicine and Science in Sports and Exercise, 50(4), 700-708. https://doi.org/10.1249/MSS.0000000000001479

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title = "Dopaminergic Genetic Variants and Voluntary Externally Paced Exercise Behavior",

abstract = "PURPOSE: Most candidate gene studies on the neurobiology of voluntary exercise behavior have focused on the dopaminergic signaling pathway and its role in the mesolimbic reward system. We hypothesized that dopaminergic candidate genes may influence exercise behavior through additional effects on executive functioning and that these effects are only detected when the types of exercise activity are taken into account.METHODS: Data on voluntary exercise behavior and at least one SNP/VNTR were available for 12,929 participants of the Netherlands Twin Registry. Exercise activity was classified as externally paced if a high level of executive function skill was required. The total volume of voluntary exercise (minutes per week) as well as the volume specifically spent on externally paced activities were tested for association with nine functional dopaminergic polymorphisms (DRD1: rs265981, DRD2/ANKK1: rs1800497, DRD3: rs6280, DRD4: VNTR 48bp, DRD5: VNTR 130-166bp, DBH: rs2519152, DAT1: VNTR 40bp, COMT: rs4680, MAOA: VNTR 30bp), a polygenic score (PGS) based on nine alleles leading to lower dopamine responsiveness, and a PGS based on three alleles associated with both higher reward sensitivity and better executive functioning (DRD2/ANKK1: 'G' allele, COMT: Met allele, DAT1: 440bp allele).RESULTS: No association with total exercise volume or externally paced exercise volume was found for individual alleles or the nine-allele polygenic score. The volume of externally paced exercise behavior was significantly associated with the reward and executive function congruent PGS. This association was driven by the DAT1 440bp and COMT Met allele which acted as increaser alleles for externally paced exercise behavior.CONCLUSION: Taking into account the types of exercise activity may increase the success of identifying genetic variants and unraveling the neurobiology of voluntary exercise behavior. Key words: candidate gene, exercise behavior, reward sensitivity, executive functioning.",

keywords = "CANDIDATE GENE, EXECUTIVE FUNCTIONING, EXERCISE BEHAVIOR, REWARD SENSITIVITY",

author = "{Van Der Mee}, {Denise J.} and Fedko, {Iryna O.} and Hottenga, {Jouke Jan} and Ehli, {Erik A.} and {Van Der Zee}, {Matthijs D.} and Lannie Ligthart and {Van Beijsterveldt}, {Toos C.E.M.} and Davies, {Gareth E.} and Meike Bartels and Landers, {Joseph G.} and {De Geus}, {Eco J.C.}",

year = "2018",

month = apr,

doi = "10.1249/MSS.0000000000001479",

language = "English",

volume = "50",

pages = "700--708",

journal = "Medicine and Science in Sports and Exercise",

issn = "0195-9131",

publisher = "Lippincott Williams and Wilkins",

number = "4",

}

TY - JOUR

T1 - Dopaminergic Genetic Variants and Voluntary Externally Paced Exercise Behavior

AU - Van Der Mee, Denise J.

AU - Fedko, Iryna O.

AU - Hottenga, Jouke Jan

AU - Ehli, Erik A.

AU - Van Der Zee, Matthijs D.

AU - Ligthart, Lannie

AU - Van Beijsterveldt, Toos C.E.M.

AU - Davies, Gareth E.

AU - Bartels, Meike

AU - Landers, Joseph G.

AU - De Geus, Eco J.C.

PY - 2018/4

Y1 - 2018/4

N2 - PURPOSE: Most candidate gene studies on the neurobiology of voluntary exercise behavior have focused on the dopaminergic signaling pathway and its role in the mesolimbic reward system. We hypothesized that dopaminergic candidate genes may influence exercise behavior through additional effects on executive functioning and that these effects are only detected when the types of exercise activity are taken into account.METHODS: Data on voluntary exercise behavior and at least one SNP/VNTR were available for 12,929 participants of the Netherlands Twin Registry. Exercise activity was classified as externally paced if a high level of executive function skill was required. The total volume of voluntary exercise (minutes per week) as well as the volume specifically spent on externally paced activities were tested for association with nine functional dopaminergic polymorphisms (DRD1: rs265981, DRD2/ANKK1: rs1800497, DRD3: rs6280, DRD4: VNTR 48bp, DRD5: VNTR 130-166bp, DBH: rs2519152, DAT1: VNTR 40bp, COMT: rs4680, MAOA: VNTR 30bp), a polygenic score (PGS) based on nine alleles leading to lower dopamine responsiveness, and a PGS based on three alleles associated with both higher reward sensitivity and better executive functioning (DRD2/ANKK1: 'G' allele, COMT: Met allele, DAT1: 440bp allele).RESULTS: No association with total exercise volume or externally paced exercise volume was found for individual alleles or the nine-allele polygenic score. The volume of externally paced exercise behavior was significantly associated with the reward and executive function congruent PGS. This association was driven by the DAT1 440bp and COMT Met allele which acted as increaser alleles for externally paced exercise behavior.CONCLUSION: Taking into account the types of exercise activity may increase the success of identifying genetic variants and unraveling the neurobiology of voluntary exercise behavior. Key words: candidate gene, exercise behavior, reward sensitivity, executive functioning.

AB - PURPOSE: Most candidate gene studies on the neurobiology of voluntary exercise behavior have focused on the dopaminergic signaling pathway and its role in the mesolimbic reward system. We hypothesized that dopaminergic candidate genes may influence exercise behavior through additional effects on executive functioning and that these effects are only detected when the types of exercise activity are taken into account.METHODS: Data on voluntary exercise behavior and at least one SNP/VNTR were available for 12,929 participants of the Netherlands Twin Registry. Exercise activity was classified as externally paced if a high level of executive function skill was required. The total volume of voluntary exercise (minutes per week) as well as the volume specifically spent on externally paced activities were tested for association with nine functional dopaminergic polymorphisms (DRD1: rs265981, DRD2/ANKK1: rs1800497, DRD3: rs6280, DRD4: VNTR 48bp, DRD5: VNTR 130-166bp, DBH: rs2519152, DAT1: VNTR 40bp, COMT: rs4680, MAOA: VNTR 30bp), a polygenic score (PGS) based on nine alleles leading to lower dopamine responsiveness, and a PGS based on three alleles associated with both higher reward sensitivity and better executive functioning (DRD2/ANKK1: 'G' allele, COMT: Met allele, DAT1: 440bp allele).RESULTS: No association with total exercise volume or externally paced exercise volume was found for individual alleles or the nine-allele polygenic score. The volume of externally paced exercise behavior was significantly associated with the reward and executive function congruent PGS. This association was driven by the DAT1 440bp and COMT Met allele which acted as increaser alleles for externally paced exercise behavior.CONCLUSION: Taking into account the types of exercise activity may increase the success of identifying genetic variants and unraveling the neurobiology of voluntary exercise behavior. Key words: candidate gene, exercise behavior, reward sensitivity, executive functioning.

KW - CANDIDATE GENE

KW - EXECUTIVE FUNCTIONING

KW - EXERCISE BEHAVIOR

KW - REWARD SENSITIVITY

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JO - Medicine and Science in Sports and Exercise

JF - Medicine and Science in Sports and Exercise

SN - 0195-9131

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Dopaminergic Genetic Variants and Voluntary Externally Paced Exercise Behavior

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Keywords

UN SDGs

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