Integrative functional genomic analysis of human brain development and neuropsychiatric risks

Mingfeng Li; Gabriel Santpere; Yuka Imamura Kawasawa; Oleg V. Evgrafov; Forrest O. Gulden; Sirisha Pochareddy; Susan M. Sunkin; Zhen Li; Yurae Shin; Ying Zhu; André M.M. Sousa; Donna M. Werling; Robert R. Kitchen; Hyo Jung Kang; Mihovil Pletikos; Jinmyung Choi; Sydney Muchnik; Xuming Xu; Daifeng Wang; Belen Lorente-Galdos; Shuang Liu; Paola Giusti-Rodríguez; Hyejung Won; Christiaan A. De Leeuw; Antonio F. Pardiñas; M. A. Reimers; A. J. Willsey; A. Oldre; A. Szafer; A. Camarena; A. Cherskov; A. W. Charney; A. Abyzov; A. Kozlenkov; A. Safi; A. R. Jones; AE Ashley-Koch; A. Ebbert; A. J. Price; A. Sekijima; A. Kefi; A. Bernard; A. Amiri; A. Sboner; A. Clark; A. E. Jaffe; A. T.N. Tebbenkamp; A. J. Sodt; AL Guillozet-Bongaarts; A. C. Nairn; A. Carey; A. Huttner; A. Chervenak; A. Szekely; A. W. Shieh; A. Harmanci; B. K. Lipska; B. C. Carlyle; B. W. Gregor; B. S. Kassim; B. Sheppard; C. Bichsel; C. G. Hahn; C. K. Lee; C. Chen; C. L. Kuan; C. Dang; C. Lau; C. Cuhaciyan; C. Armoskus; C. E. Mason; C. Liu; C. R. Slaughterbeck; C. Bennet; D. Pinto; D. Polioudakis; D. Franjic; D. J. Miller; D. Bertagnolli; D. A. Lewis; D. Feng; D. Sandman; D. Clarke; D. Williams; D. DelValle; D. Fitzgerald; E. H. Shen; E. Flatow; E. Zharovsky; E. E. Burke; E. Olson; E. Fulfs; E. Mattei; E. Hadjimichael; E. Deelman; F. C.P. Navarro; F. Wu; F. Lee; F. Cheng; F. S. Goes; F. M. Vaccarino; F. Liu; G. E. Hoffman; G. Gürsoy; G. Gee; G. Mehta; G. Coppola; G. Giase; G. Sedmak; G. D. Johnson; G. A. Wray; G. E. Crawford; G. Gu; H. van Bakel; H. Witt; H. J. Yoon; H. Pratt; H. Zhao; I. A. Glass; J. Huey; J. Arnold; J. P. Noonan; J. Bendl; J. M. Jochim; J. Goldy; J. Herstein; J. R. Wiseman; J. A. Miller; J. Mariani; J. Stoll; J. Moore; J. Szatkiewicz; J. Leng; J. Zhang; J. Parente; J. Rozowsky; J. F. Fullard; J. G. Hohmann; J. Morris; J. W. Phillips; J. Warrell; J. H. Shin; J. Y. An; J. Belmont; J. Nyhus; J. Pendergraft; J. Bryois; K. Roll; K. S. Grennan; K. Aiona; K. P. White; K. A. Aldinger; K. A. Smith; K. Girdhar; K. Brouner; L. M. Mangravite; L. Brown; L. Collado-Torres; L. Cheng; L. Gourley; L. Song; L. T. Ubieta; L. Habegger; L. Ng; M. E. Hauberg; M. Onorati; M. J. Webster; M. Kundakovic; M. Skarica; M. B. Johnson; M. M. Chen; M. E. Garrett; M. Sarreal; M. Reding; M. Gu; M. A. Peters; M. Fisher; M. J. Gandal; M. Purcaro; M. Smith; M. Brown; M. Shibata; M. Xu; M. Yang; M. Ray; N. V. Shapovalova; N. Francoeur; N. Sjoquist; N. Mastan; N. Kaur; N. Parikshak; N. F. Mosqueda; N. K. Ngo; N. Dee; N. A. Ivanov; O. Devillers; P. Roussos; P. D. Parker; P. Manser; P. Wohnoutka; P. J. Farnham; P. Zandi; P. S. Emani; R. A. Dalley; R. Mayani; R. Tao; R. Gittin; R. E. Straub; R. P. Lifton; R. Jacobov; R. E. Howard; R. B. Park; R. Dai; S. Abramowicz; S. Akbarian; S. Schreiner; S. Ma; S. E. Parry; S. Shapouri; S. Weissman; S. Caldejon; S. Mane; S. L. Ding; S. Scuderi; S. Dracheva; S. Butler; S. N. Lisgo; S. K. Rhie; S. Lindsay; S. Datta; T. Souaiaia; T. Roychowdhury; T. Gomez; T. Naluai-Cecchini; TG Beach; T. Goodman; T. Gao; T. A. Dolbeare; T. Fliss; T. E. Reddy; T. Chen; T. Brunetti; T. A. Lemon; T. Desta; T. Borrman; V. Haroutunian; V. N. Spitsyna; V. Swarup; X. Shi; Y. Jiang; Y. Xia; Y. H. Chen; Y. Wang; Y. Chae; Y. T. Yang; Y. Kim; Z. L. Riley; Z. Krsnik; Z. Deng; Z. Weng; Z. Lin; Ming Hu; Fulai Jin; Yun Li; Michael J. Owen; Michael C. O'Donovan; James T.R. Walters; Danielle Posthuma; Pat Levitt; Daniel R. Weinberger; Thomas M. Hyde; Joel E. Kleinman; Daniel H. Geschwind; Michael J. Hawrylycz; Matthew W. State; Stephan J. Sanders; Patrick F. Sullivan; Mark B. Gerstein; Ed S. Lein; James A. Knowles; Nenad Sestan

Journal ArticleOPEN ACCESS

Integrative functional genomic analysis of human brain development and neuropsychiatric risks

Science (2018) 362(6420)

DOI: 10.1126/science.aat7615

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Abstract

To broaden our understanding of human neurodevelopment, we profiled transcriptomic and epigenomic landscapes across brain regions and/or cell types for the entire span of prenatal and postnatal development. Integrative analysis revealed temporal, regional, sex, and cell type-specific dynamics.We observed a global transcriptomic cup-shaped pattern, characterized by a late fetal transition associated with sharply decreased regional differences and changes in cellular composition and maturation, followed by a reversal in childhood-adolescence, and accompanied by epigenomic reorganizations. Analysis of gene coexpression modules revealed relationships with epigenomic regulation and neurodevelopmental processes. Genes with genetic associations to brain-based traits and neuropsychiatric disorders (including MEF2C, SATB2, SOX5, TCF4, and TSHZ3) converged in a small number of modules and distinct cell types, revealing insights into neurodevelopment and the genomic basis of neuropsychiatric risks.

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Li, M., Santpere, G., Kawasawa, Y. I., Evgrafov, O. V., Gulden, F. O., Pochareddy, S., … Sestan, N. (2018). Integrative functional genomic analysis of human brain development and neuropsychiatric risks. Science, 362(6420). https://doi.org/10.1126/science.aat7615

Integrative functional genomic analysis of human brain development and neuropsychiatric risks

Abstract

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