Literature DB >> 27747449

Recurrent KIF2A mutations are responsible for classic lissencephaly.

Mara Cavallin1,2, Emilia K Bijlsma3, Adrienne El Morjani4,5, Sébastien Moutton6, Els A J Peeters7, Camille Maillard1,2, Jean Michel Pedespan8, Anne-Marie Guerrot9, Valérie Drouin-Garaud9, Christine Coubes10, David Genevieve10, Christine Bole-Feysot11, Cecile Fourrage11, Julie Steffann1,4,5, Nadia Bahi-Buisson12,13,14,15,16.   

Abstract

Kinesins play a critical role in the organization and dynamics of the microtubule cytoskeleton, making them central players in neuronal proliferation, neuronal migration, and postmigrational development. Recently, KIF2A mutations were identified in cortical malformation syndromes associated with microcephaly. Here, we detected two de novo p.Ser317Asn and p.His321Pro mutations in KIF2A in two patients with lissencephaly and microcephaly. In parallel, we re-evaluated the two previously reported cases showing de novo mutations of the same residues. The identification of mutations only in the residues Ser317 and His321 suggests these are hotspots for de novo mutations. Both mutations lead to a classic form of lissencephaly, with a posterior to anterior gradient, almost indistinguishable from LIS1-related lissencephaly. However, three fourths of patients also showed variable congenital and postnatal microcephaly, up to -5 SD. Located in the motor domain of the KIF2A protein, the Ser317 and His321 alterations are expected to disrupt binding or hydrolysis of ATP and consequently the MT depolymerizing activity. This report also establishes that KIF2A mutations represent significant causes of classic lissencephaly with microcephaly.

Entities:  

Keywords:  KIF2A; Kinesin; Lissencephaly

Mesh:

Substances:

Year:  2016        PMID: 27747449     DOI: 10.1007/s10048-016-0499-8

Source DB:  PubMed          Journal:  Neurogenetics        ISSN: 1364-6745            Impact factor:   2.660


  22 in total

1.  Differentiation of cytoplasmic and meiotic spindle assembly MCAK functions by Aurora B-dependent phosphorylation.

Authors:  Ryoma Ohi; Tanuj Sapra; Jonathan Howard; Timothy J Mitchison
Journal:  Mol Biol Cell       Date:  2004-04-02       Impact factor: 4.138

2.  Kin I kinesins are microtubule-destabilizing enzymes.

Authors:  A Desai; S Verma; T J Mitchison; C E Walczak
Journal:  Cell       Date:  1999-01-08       Impact factor: 41.582

Review 3.  Malformations of cortical development: clinical features and genetic causes.

Authors:  Renzo Guerrini; William B Dobyns
Journal:  Lancet Neurol       Date:  2014-06-02       Impact factor: 44.182

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Journal:  Brain       Date:  2014-06       Impact factor: 13.501

5.  Recurrent KIF5C mutation leading to frontal pachygyria without microcephaly.

Authors:  Mara Cavallin; Laurence Hubert; Vincent Cantagrel; Arnold Munnich; Nathalie Boddaert; Catherine Vincent-Delorme; Jean Christophe Cuvellier; Cecile Masson; Claude Besmond; Nadia Bahi-Buisson
Journal:  Neurogenetics       Date:  2015-09-19       Impact factor: 2.660

6.  Aurora B phosphorylates centromeric MCAK and regulates its localization and microtubule depolymerization activity.

Authors:  Weijie Lan; Xin Zhang; Susan L Kline-Smith; Sara E Rosasco; Gregory A Barrett-Wilt; Jeffrey Shabanowitz; Donald F Hunt; Claire E Walczak; P Todd Stukenberg
Journal:  Curr Biol       Date:  2004-02-17       Impact factor: 10.834

7.  Kinesin superfamily protein 2A (KIF2A) functions in suppression of collateral branch extension.

Authors:  Noriko Homma; Yosuke Takei; Yosuke Tanaka; Takao Nakata; Sumio Terada; Masahide Kikkawa; Yasuko Noda; Nobutaka Hirokawa
Journal:  Cell       Date:  2003-07-25       Impact factor: 41.582

8.  LIS1 and XLIS (DCX) mutations cause most classical lissencephaly, but different patterns of malformation.

Authors:  D T Pilz; N Matsumoto; S Minnerath; P Mills; J G Gleeson; K M Allen; C A Walsh; A J Barkovich; W B Dobyns; D H Ledbetter; M E Ross
Journal:  Hum Mol Genet       Date:  1998-12       Impact factor: 6.150

Review 9.  A developmental and genetic classification for malformations of cortical development: update 2012.

Authors:  A James Barkovich; Renzo Guerrini; Ruben I Kuzniecky; Graeme D Jackson; William B Dobyns
Journal:  Brain       Date:  2012-03-16       Impact factor: 13.501

10.  Identification and partial characterization of mitotic centromere-associated kinesin, a kinesin-related protein that associates with centromeres during mitosis.

Authors:  L Wordeman; T J Mitchison
Journal:  J Cell Biol       Date:  1995-01       Impact factor: 10.539
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  11 in total

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Journal:  Hum Mol Genet       Date:  2020-03-27       Impact factor: 6.150

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Journal:  Am J Hum Genet       Date:  2017-11-30       Impact factor: 11.025

Review 4.  The essential role of primary cilia in cerebral cortical development and disorders.

Authors:  Siling Liu; Mia X Trupiano; Jeremy Simon; Jiami Guo; E S Anton
Journal:  Curr Top Dev Biol       Date:  2021-01-25       Impact factor: 4.897

5.  Regulation of neural stem cell proliferation and differentiation by Kinesin family member 2a.

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Journal:  PLoS One       Date:  2017-06-07       Impact factor: 3.240

6.  KIF2A regulates the development of dentate granule cells and postnatal hippocampal wiring.

Authors:  Noriko Homma; Ruyun Zhou; Muhammad Imran Naseer; Adeel G Chaudhary; Mohammed H Al-Qahtani; Nobutaka Hirokawa
Journal:  Elife       Date:  2018-01-09       Impact factor: 8.140

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Journal:  Leukemia       Date:  2017-07-13       Impact factor: 11.528

8.  Transcriptome Response and Spatial Pattern of Gene Expression in the Primate Subventricular Zone Neurogenic Niche After Cerebral Ischemia.

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Journal:  Front Cell Dev Biol       Date:  2020-12-03

9.  Modeling Neurodevelopmental Disorders and Epilepsy Caused by Loss of Function of kif2a in Zebrafish.

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10.  Mutations in the KIF21B kinesin gene cause neurodevelopmental disorders through imbalanced canonical motor activity.

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