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Literature DB >> 31630790

Bi-allelic Pathogenic Variants in TUBGCP2 Cause Microcephaly and Lissencephaly Spectrum Disorders.

Tadahiro Mitani¹, Jaya Punetha², Ibrahim Akalin³, Davut Pehlivan⁴, Mateusz Dawidziuk⁵, Zeynep Coban Akdemir⁶, Sarenur Yilmaz³, Ezgi Aslan⁷, Jill V Hunter⁸, Hadia Hijazi⁶, Christopher M Grochowski⁶, Shalini N Jhangiani⁹, Ender Karaca¹⁰, Jawid M Fatih⁶, Piotr Iwanowski¹¹, Tomasz Gambin¹², Pawel Wlasienko⁵, Alicja Goszczanska-Ciuchta¹³, Monika Bekiesinska-Figatowska¹⁴, Masoumeh Hosseini¹⁵, Sanaz Arzhangi¹⁵, Hossein Najmabadi¹⁵, Jill A Rosenfeld⁶, Haowei Du⁶, Dana Marafi¹⁶, Susan Blaser¹⁷, Ronni Teitelbaum¹⁸, Rachel Silver¹⁸, Jennifer E Posey⁶, Hans-Hilger Ropers¹⁹, Richard A Gibbs²⁰, Wojciech Wiszniewski²¹, James R Lupski²², David Chitayat²³, Kimia Kahrizi¹⁵, Pawel Gawlinski²⁴.

Abstract

Lissencephaly comprises a spectrum of malformations of cortical development. This spectrum includes agyria, pachygyria, and subcortical band heterotopia; each represents anatomical malformations of brain cortical development caused by neuronal migration defects. The molecular etiologies of neuronal migration anomalies are highly enriched for genes encoding microtubules and microtubule-associated proteins, and this enrichment highlights the critical role for these genes in cortical growth and gyrification. Using exome sequencing and family based rare variant analyses, we identified a homozygous variant (c.997C>T [p.Arg333Cys]) in TUBGCP2, encoding gamma-tubulin complex protein 2 (GCP2), in two individuals from a consanguineous family; both individuals presented with microcephaly and developmental delay. GCP2 forms the multiprotein γ-tubulin ring complex (γ-TuRC) together with γ-tubulin and other GCPs to regulate the assembly of microtubules. By querying clinical exome sequencing cases and through GeneMatcher-facilitated collaborations, we found three additional families with bi-allelic variation and similarly affected phenotypes including a homozygous variant (c.1843G>C [p.Ala615Pro]) in two families and compound heterozygous variants consisting of one missense variant (c.889C>T [p.Arg297Cys]) and one splice variant (c.2025-2A>G) in another family. Brain imaging from all five affected individuals revealed varying degrees of cortical malformations including pachygyria and subcortical band heterotopia, presumably caused by disruption of neuronal migration. Our data demonstrate that pathogenic variants in TUBGCP2 cause an autosomal recessive neurodevelopmental trait consisting of a neuronal migration disorder, and our data implicate GCP2 as a core component of γ-TuRC in neuronal migrating cells.

Entities: Disease Gene Mutation

Keywords: GCP2; Lissencephaly; TUBGCP2; cortical malformation; multilocus pathogenic variation; γ-TuRC

Mesh：

Substances：

Year: 2019 PMID： 31630790 PMCID： PMC6848995 DOI： 10.1016/j.ajhg.2019.09.017

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

36 in total

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2. Recurrent De Novo and Biallelic Variation of ATAD3A, Encoding a Mitochondrial Membrane Protein, Results in Distinct Neurological Syndromes.

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Journal: Nat Genet Date: 2013-04-21 Impact factor: 38.330

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9. Phenotypic expansion illuminates multilocus pathogenic variation.

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2. High prevalence of multilocus pathogenic variation in neurodevelopmental disorders in the Turkish population.

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6. Autosomal recessive variants in TUBGCP2 alter the γ-tubulin ring complex leading to neurodevelopmental disease.

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