Communications Biology (Oct 2024)

The genetics of spatiotemporal variation in cortical thickness in youth

  • J. Eric Schmitt,
  • Aaron Alexander-Bloch,
  • Jakob Seidlitz,
  • Armin Raznahan,
  • Michael C. Neale

DOI
https://doi.org/10.1038/s42003-024-06956-2
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 12

Abstract

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Abstract Prior studies have shown strong genetic effects on cortical thickness (CT), structural covariance, and neurodevelopmental trajectories in childhood and adolescence. However, the importance of genetic factors on the induction of spatiotemporal variation during neurodevelopment remains poorly understood. Here, we explore the genetics of maturational coupling by examining 308 MRI-derived regional CT measures in a longitudinal sample of 677 twins and family members. We find dynamic inter-regional genetic covariation in youth, with the emergence of regional subnetworks in late childhood and early adolescence. Three critical neurodevelopmental epochs in genetically-mediated maturational coupling were identified, with dramatic network strengthening near eleven years of age. These changes are associated with statistically-significant (empirical p-value <0.0001) increases in network strength as measured by average clustering coefficient and assortativity. We then identify genes from the Allen Human Brain Atlas with similar co-expression patterns to genetically-mediated structural covariation in children. This set was enriched for genes involved in potassium transport and dendrite formation. Genetically-mediated CT-CT covariance was also strongly correlated with expression patterns for genes located in cells of neuronal origin.