Differences in cortical morphology-in particular, cortical volume, thickness and surface area-have been reported in individuals with autism. However, it is unclear what aspects of genetic and transcriptomic variation are associated with these differences. Here we investigate the genetic correlates of global cortical thickness differences (Delta CT) in children with autism. We used Partial Least Squares Regression (PLSR) on structural MRI data from 548 children (166 with autism, 295 neurotypical children and 87 children with ADHD) and cortical gene expression data from the Allen Institute for Brain Science to identify genetic correlates of Delta CT in autism. We identify that these genes are enriched for synaptic transmission pathways and explain significant variation in Delta CT. These genes are also significantly enriched for genes dysregulated in the autism post-mortem cortex (Odd Ratio (OR) = 1.11, P-corrected 10(-)(14)), driven entirely by downregulated genes (OR = 1.87, P-corrected 10(-15)). We validated the enrichment for downregulated genes in two independent data sets: Validation 1 (OR = 1.44, P-corrected - 0.004) and Validation 2 (OR = 1.30; P-corrected = 0.001). We conclude that transcriptionally downregulated genes implicated in autism are robustly associated with global changes in cortical thickness variability in children with autism.
1.Univ Cambridge, Dept Psychiat, Cambridge CB2 0SZ, England 2.Univ Cambridge, Autism Res Ctr, Dept Psychiat, Cambridge CB2 0SZ, England 3.Cambridgeshire & Peterborough Natl Hlth Serv Fdn, Cambridge CB21 5EF, England 4.GlaxoSmithKline Res & Dev Ltd, ImmunoPsychiat, Stevenage SG1 2NY, Herts, England 5.Cambridgeshire & Peterborough NHS Fdn Trust CPFT, CLASS Clin, Fulbourn, Cambs, England
Recommended Citation:
Romero-Garcia, Rafael,Warrier, Varun,Bullmore, Edward T.,et al. Synaptic and transcriptionally downregulated genes are associated with cortical thickness differences in autism[J]. MOLECULAR PSYCHIATRY,2019-01-01,24(7):1053-1064