Autism-linked Cullin3 germline haploinsufficiency impacts cytoskeletal dynamics and cortical neurogenesis through RhoA signaling-Reference-Cited by-同舟云学术

Autism-linked Cullin3 germline haploinsufficiency impacts cytoskeletal dynamics and cortical neurogenesis through RhoA signaling

Published:2021-03-16 Issue:7 Volume:26 Page:3586-3613
ISSN:1359-4184
Container-title:Molecular Psychiatry
language:en
Short-container-title:Mol Psychiatry

Author:

Amar Megha^ORCID,Pramod Akula Bala,Yu Nam-Kyung,Herrera Victor Munive,Qiu Lily R.,Moran-Losada Patricia,Zhang Pan,Trujillo Cleber A.,Ellegood Jacob^ORCID,Urresti Jorge,Chau Kevin,Diedrich Jolene,Chen Jiaye,Gutierrez Jessica,Sebat Jonathan^ORCID,Ramanathan Dhakshin,Lerch Jason P.,Yates John R.^ORCID,Muotri Alysson R.^ORCID,Iakoucheva Lilia M.^ORCID

Abstract

AbstractE3-ubiquitin ligase Cullin3 (Cul3) is a high confidence risk gene for autism spectrum disorder (ASD) and developmental delay (DD). To investigate how Cul3 mutations impact brain development, we generated a haploinsufficient Cul3 mouse model using CRISPR/Cas9 genome engineering. Cul3 mutant mice exhibited social and cognitive deficits and hyperactive behavior. Brain MRI found decreased volume of cortical regions and changes in many other brain regions of Cul3 mutant mice starting from early postnatal development. Spatiotemporal transcriptomic and proteomic profiling of embryonic, early postnatal and adult brain implicated neurogenesis and cytoskeletal defects as key drivers of Cul3 functional impact. Specifically, dendritic growth, filamentous actin puncta, and spontaneous network activity were reduced in Cul3 mutant mice. Inhibition of small GTPase RhoA, a molecular substrate of Cul3 ligase, rescued dendrite length and network activity phenotypes. Our study identified defects in neuronal cytoskeleton and Rho signaling as the primary targets of Cul3 mutation during brain development.

Publisher

Springer Science and Business Media LLC

Subject

Cellular and Molecular Neuroscience,Psychiatry and Mental health,Molecular Biology

Link

https://www.nature.com/articles/s41380-021-01052-x.pdf

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