CC2D1A Regulates Human Intellectual and Social Function As Well As NF-κB Signaling Homeostasis

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2014 Jul 29

PMID 25066123

Citations 41

Authors

M Chiara Manzini

Lan Xiong

Ranad Shaheen

Dimira E Tambunan

Stefania Di Costanzo

Vanessa Mitisalis

David J Tischfield

Antonella Cinquino

Mohammed Ghaziuddin

Mehtab Christian

Qin Jiang

Sandra Laurent

Zohair A Nanjiani

Saima Rasheed

R Sean Hill

Sofia B Lizarraga

Danielle Gleason

Diya Sabbagh

Mustafa A Salih

Fowzan S Alkuraya

Christopher A Walsh

Affiliations

Soon will be listed here.

Abstract

Autism spectrum disorder (ASD) and intellectual disability (ID) are often comorbid, but the extent to which they share common genetic causes remains controversial. Here, we present two autosomal-recessive "founder" mutations in the CC2D1A gene causing fully penetrant cognitive phenotypes, including mild-to-severe ID, ASD, as well as seizures, suggesting shared developmental mechanisms. CC2D1A regulates multiple intracellular signaling pathways, and we found its strongest effect to be on the transcription factor nuclear factor κB (NF-κB). Cc2d1a gain and loss of function both increase activation of NF-κB, revealing a critical role of Cc2d1a in homeostatic control of intracellular signaling. Cc2d1a knockdown in neurons reduces dendritic complexity and increases NF-κB activity, and the effects of Cc2d1a depletion can be rescued by inhibiting NF-κB activity. Homeostatic regulation of neuronal signaling pathways provides a mechanism whereby common founder mutations could manifest diverse symptoms in different patients.

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