@article{b4a7ff7a908b41f5a010cb381b988a0e,
title = "Evolution of regulatory signatures in primate cortical neurons at cell-type resolution",
abstract = "The human cerebral cortex contains many cell types that likely underwent independent functional changes during evolution. However, cell-type-specific regulatory landscapes in the cortex remain largely unexplored. Here we report epigenomic and transcriptomic analyses of the two main cortical neuronal subtypes, glutamatergic projection neurons and GABAergic interneurons, in human, chimpanzee, and rhesus macaque. Using genome-wide profiling of the H3K27ac histone modification, we identify neuron-subtype-specific regulatory elements that previously went undetected in bulk brain tissue samples. Human-specific regulatory changes are uncovered in multiple genes, including those associated with language, autism spectrum disorder, and drug addiction. We observe preferential evolutionary divergence in neuron subtype-specific regulatory elements and show that a substantial fraction of pan-neuronal regulatory elements undergoes subtype-specific evolutionary changes. This study sheds light on the interplay between regulatory evolution and cell-type-dependent gene-expression programs, and provides a resource for further exploration of human brain evolution and function.",
keywords = "GABAergic neurons, Glutamatergic neurons, H3K27ac histone modification, Primate evolution, Regulatory elements",
author = "Alexey Kozlenkov and Vermunt, {Marit W} and Pasha Apontes and Junhao Li and Ke Hao and Sherwood, {Chet C} and Hof, {Patrick R} and Ely, {John J} and Michael Wegner and Mukamel, {Eran A} and Creyghton, {Menno P} and Koonin, {Eugene V} and Stella Dracheva",
note = "Funding Information: ACKNOWLEDGMENTS. We gratefully acknowledge the help of Cheryl Stimpson for technical assistance with chimpanzee brain dissections and the help of Dr. Rob Patro with the use of Salmon software package. This work was supported by PsychEncode consortium NIH/National Institute of Mental Health MH103877 and MH122590 (to S.D.); NIH/National Institute on Drug Abuse DA043247 (to S.D.); VA Merit Awards BX001829 and BX002876 (to S.D.); Intramural funds of the US Department of Health and Human Services to National Library of Medicine (E.V.K.); The Dutch Royal Academy of Sciences (M.P.C.); the Parkinson{\textquoteright}s Foundation (Stichting ParkinsonFonds, M.P.C.); James S. McDonnell Foundation 220020293 (to C.C.S.); and National Science Foundation INSPIRE SMA-1542848 (to C.C.S.). The chimpanzee brains were obtained from the National Chimpanzee Brain Resource (supported by NIH/National Institute of Neurological Disorders and Stroke NS092988). Funding Information: We gratefully acknowledge the help of Cheryl Stimpson for technical assistance with chimpanzee brain dissections and the help of Dr. Rob Patro with the use of Salmon software package. This work was supported by PsychEncode consortium NIH/National Institute of Mental Health MH103877 and MH122590 (to S.D.); NIH/National Institute on Drug Abuse DA043247 (to S.D.); VA Merit Awards BX001829 and BX002876 (to S.D.); Intramural funds of the US Department of Health and Human Services to National Library of Medicine (E.V.K.); The Dutch Royal Academy of Sciences (M.P.C.); the Parkinson?s Foundation (Stichting ParkinsonFonds, M.P.C.); James S. McDonnell Foundation 220020293 (to C.C.S.); and National Science Foundation INSPIRE SMA-1542848 (to C.C.S.). The chimpanzee brains were obtained from the National Chimpanzee Brain Resource (supported by NIH/National Institute of Neurological Disorders and Stroke NS092988). Publisher Copyright: {\textcopyright} 2020 National Academy of Sciences. All rights reserved.",
year = "2020",
month = nov,
day = "10",
doi = "10.1073/pnas.2011884117",
language = "English",
volume = "117",
pages = "28422--28432",
journal = "Proceedings of the National Academy of Sciences of the United States of America",
issn = "0027-8424",
publisher = "National Academy of Sciences",
number = "45",
}