Genetic and environmental influence on resting state networks in young male and female adults: a cartographer mapping study

We propose a unique, minimal assumption, approach based on variance analyses (compared with standard approaches) to investigate genetic influence on individual differences on the functional connectivity of the brain using 65 monozygotic and 65 dizygotic healthy young adult twin pairs' low-frequ...

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Bibliographic Details
Published in:Human brain mapping 2023-11, Vol.44 (16), p.5238-5293
Main Authors: Kulkarni, Arman P, Hwang, Gyujoon, Cook, Cole J, Mohanty, Rosaleena, Guliani, Akhil, Nair, Veena A, Bendlin, Barbara B, Meyerand, Elizabeth, Prabhakaran, Vivek
Format: Article
Language:English
Subjects:
Age
Basal Ganglia
Brain
Brain - diagnostic imaging
Brain - physiology
Brain Mapping
Brain stem
Cerebellum
Connectome - methods
Datasets
Demographics
Emotional factors
Emotions
Employment
Family income
Female
Females
Functional magnetic resonance imaging
Ganglia
Gender differences
Gene mapping
Genetics
Humans
Influence
Long term memory
Magnetic Resonance Imaging
Male
Males
Mann-Whitney U test
Medicin och hälsovetenskap
Motion detection
Nerve Net - physiology
Networks
Neural networks
Neuroimaging
Rumination
Sensorimotor system
Sex
Sex differences
Short term memory
Spatial memory
Thalamus
Twins
Twins, Dizygotic
Variance analysis
Vision
Young Adult
Young adults
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Summary:We propose a unique, minimal assumption, approach based on variance analyses (compared with standard approaches) to investigate genetic influence on individual differences on the functional connectivity of the brain using 65 monozygotic and 65 dizygotic healthy young adult twin pairs' low-frequency oscillation resting state functional Magnetic Resonance Imaging (fMRI) data from the Human Connectome Project. Overall, we found high number of genetically-influenced functional (GIF) connections involving posterior to posterior brain regions (occipital/temporal/parietal) implicated in low-level processes such as vision, perception, motion, categorization, dorsal/ventral stream visuospatial, and long-term memory processes, as well as high number across midline brain regions (cingulate) implicated in attentional processes, and emotional responses to pain. We found low number of GIF connections involving anterior to anterior/posterior brain regions (frontofrontal > frontoparietal, frontotemporal, frontooccipital) implicated in high-level processes such as working memory, reasoning, emotional judgment, language, and action planning. We found very low number of GIF connections involving subcortical/noncortical networks such as basal ganglia, thalamus, brainstem, and cerebellum. In terms of sex-specific individual differences, individual differences in males were more genetically influenced while individual differences in females were more environmentally influenced in terms of the interplay of interactions of Task positive networks (brain regions involved in various task-oriented processes and attending to and interacting with environment), extended Default Mode Network (a central brain hub for various processes such as internal monitoring, rumination, and evaluation of self and others), primary sensorimotor systems (vision, audition, somatosensory, and motor systems), and subcortical/noncortical networks. There were >8.5-19.1 times more GIF connections in males than females. These preliminary (young adult cohort-specific) findings suggest that individual differences in the resting state brain may be more genetically influenced in males and more environmentally influenced in females; furthermore, standard approaches may suggest that it is more substantially nonadditive genetics, rather than additive genetics, which contribute to the differences in sex-specific individual differences based on this young adult (male and female) specific cohort. Finally, considering th
ISSN:1065-9471
1097-0193
1097-0193
DOI:10.1002/hbm.25947