@article{dfbbe2baf17e45cabe0abd98c030cf82,
title = "CC2D1a loss of function disrupts functional and morphological development in forebrain neurons leading to cognitive and social deficits",
abstract = "Loss-of-function (LOF) mutations in CC2D1A cause a spectrum of neurodevelopmental disorders, including intellectual disability, autism spectrum disorder, and seizures, identifying a critical role for this gene in cognitive and social development. CC2D1A regulates intracellular signaling processes that are critical for neuronal function, but previous attempts to model the human LOF phenotypes have been prevented by perinatal lethality in Cc2d1a-deficient mice. To overcome this challenge, we generated a floxed Cc2d1a allele for conditional removal of Cc2d1a in the brain using Cre recombinase. While removal of Cc2d1a in neuronal progenitors using Cre expressed from the Nestin promoter still causes death at birth, conditional postnatal removal of Cc2d1a in the forebrain via calcium/calmodulin-dependent protein kinase II-alpha (CamKIIa) promoter-driven Cre generates animals that are viable and fertile with grossly normal anatomy. Analysis of neuronal morphology identified abnormal cortical dendrite organization and a reduction in dendritic spine density. These animals display deficits in neuronal plasticity and in spatial learning and memory that are accompanied by reduced sociability, hyperactivity, anxiety, and excessive grooming. Cc2d1a conditional knockout mice therefore recapitulate features of both cognitive and social impairment caused by human CC2D1A mutation, and represent a model that could provide much needed insights into the developmental mechanisms underlying nonsyndromic neurodevelopmental disorders.",
keywords = "Autism, Cognitive development, Dendritic spines, Intellectual disability, Long-term plasticity",
author = "Oaks, {Adam W.} and Marta Zamarbide and Tambunan, {Dimira E.} and Emanuela Santini and Costanzo, {Stefania Di} and Pond, {Heather L.} and Johnson, {Mark W.} and Jeff Lin and Gonzalez, {Dilenny M.} and Boehler, {Jessica F.} and Wu, {Guangying K.} and Eric Klann and Walsh, {Christopher A.} and {Chiara Manzini}, M.",
note = "Funding Information: The authors thank Anthony LaMantia and Thomas Maynard for discussion and for sharing the milk swallowing protocol developed in their laboratory, Matthew Fralish for help with the td-Tomato line, and Grzergorz Gorski at the Boston Children{\textquoteright}s Cellular Neuroscience Core for histology. We are particularly indebted to Anastas Popratiloff at the GWU CMIA for guidance in setting up multiple imaging and analytical approaches. The Cc2d1a KO mouse strain used for this research project was generated by the trans-NIH KnockOut Mouse Project (KOMP) and obtained from the KOMP Repository (www.komp.org). NIH grants to Velo-cigene at Regeneron, Inc. (U01HG004085) and the CSD Consortium (U01HG004080) funded the generation of gene-targeted ES cells for 8500 genes in the KOMP Program and archived and distributed by the KOMP Repository at UC Davis and CHORI (U42RR024244). For more information or to obtain KOMP products go to www.komp.org or email service@komp.org. Conflict of Interest: None declared. Funding Information: This work was supported by the NIH grants R00HD067379 to M.C. M., R01s MH083565 and NS032457 to C.A.W., K99NS087112 to E.S., and R01s NS034007 and NS047384 to E.K. The GWU Center for Microscopy and Image Analysis is supported by the Intellectual and Developmental Disabilities Research Center (IDDRC) at Children{\textquoteright}s Research Institute (P30HD040677) and by a grant from the NIH National Center for Research Resources (1S10RR025565). Publisher Copyright: {\textcopyright} The Author 2016. Published by Oxford University Press. All rights reserved.",
year = "2017",
month = feb,
day = "1",
doi = "10.1093/cercor/bhw009",
language = "English (US)",
volume = "27",
pages = "1670--1685",
journal = "Cerebral Cortex",
issn = "1047-3211",
publisher = "Oxford University Press",
number = "2",
}