Neural indices of heritable impulsivity: Impact of the COMT Val158Met polymorphism on frontal beta power during early motor preparation

Studies of COMT Val158Met suggest that the neural circuitry subserving inhibitory control may be modulated by this functional polymorphism altering cortical dopamine availability, thus giving rise to heritable differences in behaviors. Using an anatomically-constrained magnetoencephalography method...

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Bibliographic Details
Published in:Biological psychology 2024-09, Vol.191, p.108826, Article 108826
Main Authors: Happer, Joseph P., Beaton, Lauren E., Wagner, Laura C., Hodgkinson, Colin A., Goldman, David, Marinkovic, Ksenija
Format: Article
Language:English
Subjects:
COMT
Dopamine
Magnetoencephalography
Response inhibition
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Summary:Studies of COMT Val158Met suggest that the neural circuitry subserving inhibitory control may be modulated by this functional polymorphism altering cortical dopamine availability, thus giving rise to heritable differences in behaviors. Using an anatomically-constrained magnetoencephalography method and stratifying the sample by COMT genotype, from a larger sample of 153 subjects, we examined the spatial and temporal dynamics of beta oscillations during motor execution and inhibition in 21 healthy Met158/Met158 (high dopamine) or 21 Val158/Val158 (low dopamine) genotype individuals during a Go/NoGo paradigm. While task performance was unaffected, Met158 homozygotes demonstrated an overall increase in beta power across regions essential for inhibitory control during early motor preparation (∼100 ms latency), suggestive of a global motor “pause” on behavior. This increase was especially evident on Go trials with slow response speed and was absent during inhibition failures. Such a pause could underlie the tendency of Met158 allele carriers to be more cautious and inhibited. In contrast, Val158 homozygotes exhibited a beta drop during early motor preparation, indicative of high response readiness. This decrease was associated with measures of behavioral disinhibition and consistent with greater extraversion and impulsivity observed in Val homozygotes. These results provide mechanistic insight into genetically-determined interindividual differences of inhibitory control with higher cortical dopamine associated with momentary response hesitation, and lower dopamine leading to motor impulsivity. •MEG-measured beta oscillations can track heritable differences in motor inhibition.•Frontal beta power is modulated by COMT Val158Met-determined dopamine availability.•Early beta increase in Met/Met (high dopamine) suggests cautious responding.•Lower beta power in Val/Val (low dopamine) homozygotes shows motor readiness.•Temporal insights into beta oscillations reveal underpinnings of motor impulsivity.
ISSN:0301-0511
1873-6246
1873-6246
DOI:10.1016/j.biopsycho.2024.108826