Brain and Behavior (May 2023)
Heritability of human “directed” functional connectome
Abstract
Abstract Introduction The functional connectivity patterns in the brain are highly heritable; however, it is unclear how genetic factors influence the directionality of such “information flows.” Studying the “directionality” of the brain functional connectivity and assessing how heritability modulates it can improve our understanding of the human connectome. Methods Here, we investigated the heritability of “directed” functional connections using a state‐space formulation of Granger causality (GC), in conjunction with blind deconvolution methods accounting for local variability in the hemodynamic response function. Such GC implementation is ideal to explore the directionality of functional interactions across a large number of networks. Resting‐state functional magnetic resonance imaging data were drawn from the Human Connectome Project (total n = 898 participants). To add robustness to our findings, the dataset was randomly split into a “discovery” and a “replication” sample (each with n = 449 participants). The two cohorts were carefully matched in terms of demographic variables and other confounding factors (e.g., education). The effect of shared environment was also modeled. Results The parieto‐ and prefronto‐cerebellar, parieto‐prefrontal, and posterior‐cingulate to hippocampus connections showed the highest and most replicable heritability effects with little influence by shared environment. In contrast, shared environmental factors significantly affected the visuo‐parietal and sensory‐motor directed connectivity. Conclusion We suggest a robust role of heritability in influencing the directed connectivity of some cortico‐subcortical circuits implicated in cognition. Further studies, for example using task‐based fMRI and GC, are warranted to confirm the asymmetric effects of genetic factors on the functional connectivity within cognitive networks and their role in supporting executive functions and learning.
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