Whole-Genome and RNA Sequencing Reveal Variation and Transcriptomic Coordination in the Developing Human Prefrontal Cortex

Donna M. Werling; Sirisha Pochareddy; Jinmyung Choi; Joon‐Yong An; Brooke Sheppard; Minshi Peng; Zhen Li; Claudia Dastmalchi; Gabriel Santpere; André M. M. Sousa; Andrew T.N. Tebbenkamp; Navjot Kaur; Forrest O. Gulden; Michael S. Breen; Lindsay Liang; Michael C. Gilson; Xuefang Zhao; Shan Dong; Lambertus Klei; A. Ercüment Çiçek; Joseph D. Buxbaum; Homa Adle‐Biassette; Jean‐Léon Thomas; Kimberly A. Aldinger; Diana R. O’Day; Ian A. Glass; Noah Zaitlen; Michael E. Talkowski; Kathryn Roeder; Matthew W. State; Bernie Devlin; Stephan Sanders; Nenad Šestan

doi:10.1016/j.celrep.2020.03.053

Whole-Genome and RNA Sequencing Reveal Variation and Transcriptomic Coordination in the Developing Human Prefrontal Cortex

Donna M. Werling(University of Wisconsin–Madison), Sirisha Pochareddy(Yale University), Jinmyung Choi(Yale University), Joon‐Yong An(University of California, San Francisco), Brooke Sheppard(University of California, San Francisco), Minshi Peng(Carnegie Mellon University), Zhen Li(Neurosciences Institute), Claudia Dastmalchi(University of California, San Francisco), Gabriel Santpere(Universitat Pompeu Fabra), André M. M. Sousa(Yale University), Andrew T.N. Tebbenkamp(Yale University), Navjot Kaur(Yale University), Forrest O. Gulden(Yale University), Michael S. Breen(Child Health and Development Institute), Lindsay Liang(University of California, San Francisco), Michael C. Gilson(University of California, San Francisco), Xuefang Zhao(Broad Institute), Shan Dong(University of California, San Francisco), Lambertus Klei(University of Pittsburgh), A. Ercüment Çiçek(Bilkent University), Joseph D. Buxbaum(Allen Institute for Brain Science), Homa Adle‐Biassette(Université Paris Cité), Jean‐Léon Thomas(Yale University), Kimberly A. Aldinger(Brotman Baty Institute), Diana R. O’Day(University of Washington), Ian A. Glass(University of Washington), Noah Zaitlen(University of California, San Francisco), Michael E. Talkowski(Broad Institute), Kathryn Roeder(Carnegie Mellon University), Matthew W. State(University of California, San Francisco), Bernie Devlin(University of Pittsburgh), Stephan Sanders(University of California, San Francisco), Nenad Šestan(Yale University)

Cell Reports

April 1, 2020

10.1016/j.celrep.2020.03.053

Cited by 153Open Access

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Abstract

Gene expression levels vary across developmental stage, cell type, and region in the brain. Genomic variants also contribute to the variation in expression, and some neuropsychiatric disorder loci may exert their effects through this mechanism. To investigate these relationships, we present BrainVar, a unique resource of paired whole-genome and bulk tissue RNA sequencing from the dorsolateral prefrontal cortex of 176 individuals across prenatal and postnatal development. Here we identify common variants that alter gene expression (expression quantitative trait loci [eQTLs]) constantly across development or predominantly during prenatal or postnatal stages. Both "constant" and "temporal-predominant" eQTLs are enriched for loci associated with neuropsychiatric traits and disorders and colocalize with specific variants. Expression levels of more than 12,000 genes rise or fall in a concerted late-fetal transition, with the transitional genes enriched for cell-type-specific genes and neuropsychiatric risk loci, underscoring the importance of cataloging developmental trajectories in understanding cortical physiology and pathology.

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