Single-cell genomics and regulatory networks for 388 human brains

Prashant S. Emani; Jason J. Liu; Declan Clarke; Matthew L. Jensen; Jonathan Warrell; Chirag Gupta; Ran Meng; Che-Yu Lee; Siwei Xu; Cagatay Dursun; Shaoke Lou; Yuhang Chen; Zhiyuan Chu; Timur R. Galeev; Ahyeon Hwang; Yunyang Li; Pengyu Ni; Xiao Zhou; Trygve E. Bakken; Jaroslav Bendl; Lucy Bicks; Tanima Chatterjee; Lijun Cheng; Yuyan Cheng; Yi Dai; Ziheng Duan; Mary Flaherty; John F. Fullard; Michael Gancz; Diego Garrido-Martín; Sophia Gaynor-Gillett; Jennifer Grundman; Natalie Hawken; Ella Henry; Gabriel E. Hoffman; Ao Huang; Yunzhe Jiang; Ting Jin; Nikolas L. Jorstad; Riki Kawaguchi; Saniya Khullar; Jianyin Liu; Junhao Liu; Shuang Liu; Shaojie Ma; Michael Margolis; Samantha Mazariegos; Jill E. Moore; Jennifer Moran; Éric Nguyen; Nishigandha Phalke; Milos Pjanic; Henry Pratt; Diana Quintero; Ananya S. Rajagopalan; Tiernon R. Riesenmy; Nicole Shedd; Manman Shi; Megan Spector; Rosemarie Terwilliger; Kyle J. Travaglini; Brie Wamsley; Gaoyuan Wang; Yan Xia; Shaohua Xiao; Andrew C. Yang; Suchen Zheng; Michael J. Gandal; Donghoon Lee; Ed S. Lein; Panos Roussos; Nenad Šestan; Zhiping Weng; Kevin P. White; Hyejung Won; Matthew J. Girgenti; Jing Zhang; Daifeng Wang; Daniel H. Geschwind; Mark Gerstein

doi:10.1101/2024.03.18.585576

Single-cell genomics and regulatory networks for 388 human brains

Prashant S. Emani(Yale University), Jason J. Liu(University of California, Los Angeles), Declan Clarke(Yale University), Matthew L. Jensen(Yale University), Jonathan Warrell(Yale University), Chirag Gupta(University of Wisconsin–Madison), Ran Meng(Yale University), Che-Yu Lee(University of California, Irvine), Siwei Xu(University of California, Irvine), Cagatay Dursun(Yale University), Shaoke Lou(Yale University), Yuhang Chen(Yale University), Zhiyuan Chu(Yale University), Timur R. Galeev(Yale University), Ahyeon Hwang(University of California, Irvine), Yunyang Li(Yale University), Pengyu Ni(Yale University), Xiao Zhou(Yale University), Trygve E. Bakken(Allen Institute for Brain Science), Jaroslav Bendl(Allen Institute for Brain Science), Lucy Bicks(University of California, Los Angeles), Tanima Chatterjee(Yale University), Lijun Cheng(Tempus Labs (United States)), Yuyan Cheng(University of California, Los Angeles), Yi Dai(University of California, Irvine), Ziheng Duan(University of California, Irvine), Mary Flaherty(Tempus Labs (United States)), John F. Fullard(Allen Institute for Brain Science), Michael Gancz(Yale University), Diego Garrido-Martín(Universitat de Barcelona), Sophia Gaynor-Gillett(Mount Vernon Nazarene University), Jennifer Grundman(University of California, Los Angeles), Natalie Hawken(University of California, Los Angeles), Ella Henry(Yale University), Gabriel E. Hoffman(Allen Institute for Brain Science), Ao Huang(Yale University), Yunzhe Jiang(Yale University), Ting Jin(University of Wisconsin–Madison), Nikolas L. Jorstad(Allen Institute for Brain Science), Riki Kawaguchi(University of California, Los Angeles), Saniya Khullar(University of Wisconsin–Madison), Jianyin Liu(University of California, Los Angeles), Junhao Liu(University of California, Los Angeles), Shuang Liu(University of Wisconsin–Madison), Shaojie Ma(Yale University), Michael Margolis(University of California, Los Angeles), Samantha Mazariegos(University of California, Los Angeles), Jill E. Moore(University of Massachusetts Chan Medical School), Jennifer Moran(Tempus Labs (United States)), Éric Nguyen(Yale University), Nishigandha Phalke(University of Massachusetts Chan Medical School), Milos Pjanic(Allen Institute for Brain Science), Henry Pratt(University of Massachusetts Chan Medical School), Diana Quintero(University of California, Los Angeles), Ananya S. Rajagopalan(Yale University), Tiernon R. Riesenmy(Yale University), Nicole Shedd(University of Massachusetts Chan Medical School), Manman Shi(Tempus Labs (United States)), Megan Spector(Tempus Labs (United States)), Rosemarie Terwilliger(Yale University), Kyle J. Travaglini(Allen Institute for Brain Science), Brie Wamsley(University of California, Los Angeles), Gaoyuan Wang(Yale University), Yan Xia(Yale University), Shaohua Xiao(University of California, Los Angeles), Andrew C. Yang(Yale University), Suchen Zheng(Yale University), Michael J. Gandal(Children's Hospital of Philadelphia), Donghoon Lee(Allen Institute for Brain Science), Ed S. Lein(Allen Institute for Brain Science), Panos Roussos(Allen Institute for Brain Science), Nenad Šestan(Yale University), Zhiping Weng(University of Massachusetts Chan Medical School), Kevin P. White(National University of Singapore), Hyejung Won(University of North Carolina at Chapel Hill), Matthew J. Girgenti(Yale University), Jing Zhang(University of California, Irvine), Daifeng Wang(University of Wisconsin–Madison), Daniel H. Geschwind(University of California, Los Angeles), Mark Gerstein(Yale University)

bioRxiv (Cold Spring Harbor Laboratory)

March 19, 2024

10.1101/2024.03.18.585576

Cited by 9Open Access

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Abstract

Single-cell genomics is a powerful tool for studying heterogeneous tissues such as the brain. Yet, little is understood about how genetic variants influence cell-level gene expression. Addressing this, we uniformly processed single-nuclei, multi-omics datasets into a resource comprising >2.8M nuclei from the prefrontal cortex across 388 individuals. For 28 cell types, we assessed population-level variation in expression and chromatin across gene families and drug targets. We identified >550K cell-type-specific regulatory elements and >1.4M single-cell expression-quantitative-trait loci, which we used to build cell-type regulatory and cell-to-cell communication networks. These networks manifest cellular changes in aging and neuropsychiatric disorders. We further constructed an integrative model accurately imputing single-cell expression and simulating perturbations; the model prioritized ~250 disease-risk genes and drug targets with associated cell types.

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