CC2D1A regulates human intellectual and social function as well as NF-κB signaling homeostasis

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

doi:10.1016/j.celrep.2014.06.039

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CC2D1A regulates human intellectual and social function as well as NF-κB signaling homeostasis

Journal article

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CC2D1A regulates human intellectual and social function as well as NF-κB signaling homeostasis

M Chiara Manzini, Lan Xiong, Ranad Shaheen, Dimira E Tambunan, Stefania Di Costanzo, Vanessa Mitisalis, David J Tischfield, Antonella Cinquino, Mohammed Ghaziuddin, Mehtab Christian, …

Cell reports (Cambridge), Vol.8(3), pp.647-655

07/08/2014

DOI: https://doi.org/10.1016/j.celrep.2014.06.039

PMCID: 4334362

PMID: 25066123

Abstract

Animals

Cells, Cultured

Child Development Disorders, Pervasive - genetics

Child Development Disorders, Pervasive - metabolism

DNA-Binding Proteins - genetics

DNA-Binding Proteins - metabolism

Homeostasis

Humans

Intellectual Disability - genetics

Intellectual Disability - metabolism

Mice

Mutation

Neurons - cytology

Neurons - metabolism

NF-kappa B - metabolism

Pedigree

Repressor Proteins - genetics

Repressor Proteins - metabolism

Seizures - genetics

Seizures - metabolism

Signal Transduction

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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Title: CC2D1A regulates human intellectual and social function as well as NF-κB signaling homeostasis
Creators - without role: M Chiara Manzini - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
Lan Xiong - Université de Montréal
Ranad Shaheen - King Faisal Specialist Hospital & Research Centre
Dimira E Tambunan - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
Stefania Di Costanzo - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
Vanessa Mitisalis - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
David J Tischfield - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
Antonella Cinquino - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
Mohammed Ghaziuddin - University of Michigan–Ann Arbor
Mehtab Christian - Université de Montréal
Qin Jiang - Université de Montréal
Sandra Laurent - Université de Montréal
Zohair A Nanjiani - University of Karachi
Saima Rasheed - Autism Institute, Karachi 74000, Pakistan
R Sean Hill - Boston Children's Hospital
Sofia B Lizarraga - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
Danielle Gleason - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
Diya Sabbagh
Mustafa A Salih - King Saud University
Fowzan S Alkuraya - King Faisal Specialist Hospital & Research Centre
Christopher A Walsh - Dana-Farber/Boston Children's Cancer and Blood Disorders Center
Publication Details: Cell reports (Cambridge), Vol.8(3), pp.647-655
Grant note: R01 MH083565 / NIMH NIH HHS P30 HD018655 / NICHD NIH HHS Howard Hughes Medical Institute R01NS032457 / NINDS NIH HHS R01 NS035129 / NINDS NIH HHS R00HD067379 / NICHD NIH HHS K99 HD067379 / NICHD NIH HHS R01 NS032457 / NINDS NIH HHS R00 HD067379 / NICHD NIH HHS R01MH083565 / NIMH NIH HHS
Identifiers: 9946910208331
Academic Unit: King Saud University
Language: English
Resource Type: Journal article