The genetic architecture of the corpus callosum and its subregions

Title: The genetic architecture of the corpus callosum and its subregions
Creator: Campbell, Megan M, Dalvie, Shareefa, Shadrin, Alexey, van der Meer, Dennis, Andreassen, Ola, Stein, Dan J, Rokicki, Jaroslav
Subject: To be catalogued
Date: 2022
Type: text
Type: article
Identifier: http://hdl.handle.net/10962/302542
Identifier: vital:58206
Identifier: xlink:href="https://doi.org/10.1016/j.euroneuro.2022.07.263"
Description: Background: Regional surface area and thickness of the cerebral cortex and volume of subcortical structures are highly heritable brain morphological features with complex genetic architectures, involving many common genetic variants with small effect sizes. However, the genetic architecture of the corpus callosum (CC) and its subregions remains largely unclear. We aim to determine the heritability and genetic architecture of CC volume and each subregion and the extent to which this overlaps with that of psychiatric disorders. Methods: Genetic and T1-weighted MRI data of 40,894 individuals from the UK-biobank was used to construct a multivariate GWAS. Here, we utilized a multivariate approach (Multivariate Omnibus Statistical Test, MOSTest) to assess the distributive effects of common variants across the five subregions of the CC (posterior, mid posterior, central, mid anterior and anterior) obtained by running the automatic subcortical segmentation algorithm in FreeSurfer 5.3. Gene-set enrichment analyses were performed using MAGMA. Linkage disequilibrium score regression was used to determine the SNP-based heritability of the CC and will be used to assess the genetic correlation between each subregion and a variety of psychiatric disorders. Results: Following MOSTest, 70 independent loci show pooled effects across the 5 subregions of the CC (p more than 5×10-8). Using LDSC, we found evidence to suggest that CC volume is heritable (h2SNP= 0.38, SE=0.03). Significant variants showed enrichment in pathways related to regulation of the nervous system and cell development, neurogenesis, and regulation of neuron differentiation. Gene-set analysis revealed 156 significant genes (p is less than 2.6x10-6). Many of the significant SNPs have been previously associated with white matter hyperintensity volume as well as a range of psychiatric disorders. Discussion: Here we provide the first preliminary evidence to suggest that volume of the CC is heritable. Gene set enrichment analyses identified pathways related to neuron development and neurogenesis, suggesting that CC alteration may have an independent developmental origin. Further investigation into the shared genetic architecture of CC subregions and psychiatric disorders may provide novel insight into disease manifestation.
Format: computer, online resource, application/pdf, 1 online resource (1 pages), pdf
Publisher: Elsevier
Language: English
Relation: European Neuropsychopharmacology, Campbell, M., Dalvie, S., Shadrin, A., van der Meer, D., Andreassen, O., Stein, D. and Rokicki, J., 2022. The genetic architecture of the corpus callosum and its subregions. European Neuropsychopharmacology, 63, p.e142, European Neuropsychopharmacology volume 63 p. 142 2022 1873-7862
Rights: Publisher
Rights: Use of this resource is governed by the terms and conditions of the Elsevier Terms and Conditions Statement (https://www.elsevier.com/legal/elsevier-website-terms-and-conditions)
Rights: Closed Access

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Campbell, Megan M (Prof)

RU Department of Psychology

SDG 03. Good Health and Well-Being

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