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Literature DB >> 33157009

NCKAP1 Disruptive Variants Lead to a Neurodevelopmental Disorder with Core Features of Autism.

Hui Guo¹, Qiumeng Zhang², Rujia Dai³, Bin Yu², Kendra Hoekzema⁴, Jieqiong Tan², Senwei Tan², Xiangbin Jia², Wendy K Chung⁵, Rebecca Hernan⁵, Fowzan S Alkuraya⁶, Ahood Alsulaiman⁶, Mohammad A Al-Muhaizea⁷, Gaetan Lesca⁸, Linda Pons⁸, Audrey Labalme⁸, Linda Laux⁹, Emily Bryant⁹, Natasha J Brown¹⁰, Elena Savva¹¹, Samantha Ayres¹², Dhamidhu Eratne¹³, Hilde Peeters¹⁴, Frédéric Bilan¹⁵, Lucile Letienne-Cejudo¹⁵, Brigitte Gilbert-Dussardier¹⁵, Inge-Lore Ruiz-Arana¹⁶, Jenny Meylan Merlini¹⁶, Alexia Boizot¹⁶, Lucia Bartoloni¹⁶, Federico Santoni¹⁷, Danielle Karlowicz¹⁸, Marie McDonald¹⁸, Huidan Wu², Zhengmao Hu², Guodong Chen², Jianjun Ou¹⁹, Charlotte Brasch-Andersen²⁰, Christina R Fagerberg²⁰, Inken Dreyer²¹, Anne Chun-Hui Tsai²², Valerie Slegesky²³, Rose B McGee²⁴, Brina Daniels²⁵, Elizabeth A Sellars²⁵, Lori A Carpenter²⁶, Bradley Schaefer²⁷, Maria J Guillen Sacoto²⁸, Amber Begtrup²⁸, Rhonda E Schnur²⁸, Sumit Punj²⁸, Ingrid M Wentzensen²⁸, Lindsay Rhodes²⁸, Qian Pan², Raphael A Bernier²⁹, Chao Chen², Evan E Eichler³⁰, Kun Xia³¹.

Abstract

NCKAP1/NAP1 regulates neuronal cytoskeletal dynamics and is essential for neuronal differentiation in the developing brain. Deleterious variants in NCKAP1 have been identified in individuals with autism spectrum disorder (ASD) and intellectual disability; however, its clinical significance remains unclear. To determine its significance, we assemble genotype and phenotype data for 21 affected individuals from 20 unrelated families with predicted deleterious variants in NCKAP1. This includes 16 individuals with de novo (n = 8), transmitted (n = 6), or inheritance unknown (n = 2) truncating variants, two individuals with structural variants, and three with potentially disruptive de novo missense variants. We report a de novo and ultra-rare deleterious variant burden of NCKAP1 in individuals with neurodevelopmental disorders which needs further replication. ASD or autistic features, language and motor delay, and variable expression of intellectual or learning disability are common clinical features. Among inherited cases, there is evidence of deleterious variants segregating with neuropsychiatric disorders. Based on available human brain transcriptomic data, we show that NCKAP1 is broadly and highly expressed in both prenatal and postnatal periods and demostrate enriched expression in excitatory neurons and radial glias but depleted expression in inhibitory neurons. Mouse in utero electroporation experiments reveal that Nckap1 loss of function promotes neuronal migration during early cortical development. Combined, these data support a role for disruptive NCKAP1 variants in neurodevelopmental delay/autism, possibly by interfering with neuronal migration early in cortical development.

Entities: Disease Gene Species

Keywords: NCKAP1; autism spectrum disorder; de novo variants; disruptive variant; genotype-phenotype correlation; neurodevelopmental disorder

Mesh：

Substances：

Year: 2020 PMID： 33157009 PMCID： PMC7674997 DOI： 10.1016/j.ajhg.2020.10.002

Source DB: PubMed Journal: Am J Hum Genet ISSN： 0002-9297 Impact factor: 11.025

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