Literature DB >> 29311744

Mutations in Vps15 perturb neuronal migration in mice and are associated with neurodevelopmental disease in humans.

Thomas Gstrein1, Andrew Edwards2, Anna Přistoupilová3,4,5, Ines Leca1, Martin Breuss1, Sandra Pilat-Carotta1, Andi H Hansen1, Ratna Tripathy1, Anna K Traunbauer1, Tobias Hochstoeger1, Gavril Rosoklija1, Marco Repic6, Lukas Landler1, Viktor Stránecký3, Gerhard Dürnberger1, Thomas M Keane7, Johannes Zuber1, David J Adams7, Jonathan Flint2, Tomas Honzik8, Marta Gut4,5, Sergi Beltran4,5, Karl Mechtler1, Elliott Sherr9, Stanislav Kmoch3, Ivo Gut4,5, David A Keays10.   

Abstract

The formation of the vertebrate brain requires the generation, migration, differentiation and survival of neurons. Genetic mutations that perturb these critical cellular events can result in malformations of the telencephalon, providing a molecular window into brain development. Here we report the identification of an N-ethyl-N-nitrosourea-induced mouse mutant characterized by a fractured hippocampal pyramidal cell layer, attributable to defects in neuronal migration. We show that this is caused by a hypomorphic mutation in Vps15 that perturbs endosomal-lysosomal trafficking and autophagy, resulting in an upregulation of Nischarin, which inhibits Pak1 signaling. The complete ablation of Vps15 results in the accumulation of autophagic substrates, the induction of apoptosis and severe cortical atrophy. Finally, we report that mutations in VPS15 are associated with cortical atrophy and epilepsy in humans. These data highlight the importance of the Vps15-Vps34 complex and the Nischarin-Pak1 signaling hub in the development of the telencephalon.

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Year:  2018        PMID: 29311744      PMCID: PMC5897053          DOI: 10.1038/s41593-017-0053-5

Source DB:  PubMed          Journal:  Nat Neurosci        ISSN: 1097-6256            Impact factor:   24.884


  75 in total

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Review 2.  Neuronal migration disorders: from genetic diseases to developmental mechanisms.

Authors:  J G Gleeson; C A Walsh
Journal:  Trends Neurosci       Date:  2000-08       Impact factor: 13.837

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Authors:  N R Jana; M Tanaka; G h Wang; N Nukina
Journal:  Hum Mol Genet       Date:  2000-08-12       Impact factor: 6.150

4.  Scrambler and yotari disrupt the disabled gene and produce a reeler-like phenotype in mice.

Authors:  M Sheldon; D S Rice; G D'Arcangelo; H Yoneshima; K Nakajima; K Mikoshiba; B W Howell; J A Cooper; D Goldowitz; T Curran
Journal:  Nature       Date:  1997-10-16       Impact factor: 49.962

5.  Nischarin inhibits LIM kinase to regulate cofilin phosphorylation and cell invasion.

Authors:  Yuemin Ding; Tanja Milosavljevic; Suresh K Alahari
Journal:  Mol Cell Biol       Date:  2008-03-10       Impact factor: 4.272

6.  Doublecortin is required in mice for lamination of the hippocampus but not the neocortex.

Authors:  Joseph C Corbo; Thomas A Deuel; Jeffrey M Long; Patricia LaPorte; Elena Tsai; Anthony Wynshaw-Boris; Christopher A Walsh
Journal:  J Neurosci       Date:  2002-09-01       Impact factor: 6.167

7.  GABAB-mediated rescue of altered excitatory-inhibitory balance, gamma synchrony and behavioral deficits following constitutive NMDAR-hypofunction.

Authors:  M J Gandal; J Sisti; K Klook; P I Ortinski; V Leitman; Y Liang; T Thieu; R Anderson; R C Pierce; G Jonak; R E Gur; G Carlson; S J Siegel
Journal:  Transl Psychiatry       Date:  2012-07-17       Impact factor: 6.222

8.  Silencing mutant ataxin-3 rescues motor deficits and neuropathology in Machado-Joseph disease transgenic mice.

Authors:  Clévio Nóbrega; Isabel Nascimento-Ferreira; Isabel Onofre; David Albuquerque; Hirokazu Hirai; Nicole Déglon; Luís Pereira de Almeida
Journal:  PLoS One       Date:  2013-01-22       Impact factor: 3.240

9.  Multiple distinct subtypes of GABAergic neurons in mouse visual cortex identified by triple immunostaining.

Authors:  Yuri Gonchar; Quanxin Wang; Andreas Burkhalter
Journal:  Front Neuroanat       Date:  2008-03-28       Impact factor: 3.856

10.  C3G/Rapgef1 Is Required in Multipolar Neurons for the Transition to a Bipolar Morphology during Cortical Development.

Authors:  Bhavin Shah; Daniela Lutter; Magdalena L Bochenek; Katsuhiro Kato; Yaroslav Tsytsyura; Natalia Glyvuk; Akira Sakakibara; Jürgen Klingauf; Ralf H Adams; Andreas W Püschel
Journal:  PLoS One       Date:  2016-04-25       Impact factor: 3.240
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  19 in total

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Authors:  Beth Levine; Guido Kroemer
Journal:  Cell       Date:  2019-01-10       Impact factor: 41.582

Review 2.  Mendelian neurodegenerative disease genes involved in autophagy.

Authors:  Lidia Wróbel; Sandra Malmgren Hill; Claudia Puri; Sung Min Son; Motoki Fujimaki; Ye Zhu; Eleanna Stamatakou; Farah Siddiqi; Marian Fernandez-Estevez; Marco M Manni; So Jung Park; Julien Villeneuve; David Chaim Rubinsztein
Journal:  Cell Discov       Date:  2020-05-05       Impact factor: 10.849

Review 3.  Autophagy in major human diseases.

Authors:  Daniel J Klionsky; Giulia Petroni; Ravi K Amaravadi; Eric H Baehrecke; Andrea Ballabio; Patricia Boya; José Manuel Bravo-San Pedro; Ken Cadwell; Francesco Cecconi; Augustine M K Choi; Mary E Choi; Charleen T Chu; Patrice Codogno; Maria Isabel Colombo; Ana Maria Cuervo; Vojo Deretic; Ivan Dikic; Zvulun Elazar; Eeva-Liisa Eskelinen; Gian Maria Fimia; David A Gewirtz; Douglas R Green; Malene Hansen; Marja Jäättelä; Terje Johansen; Gábor Juhász; Vassiliki Karantza; Claudine Kraft; Guido Kroemer; Nicholas T Ktistakis; Sharad Kumar; Carlos Lopez-Otin; Kay F Macleod; Frank Madeo; Jennifer Martinez; Alicia Meléndez; Noboru Mizushima; Christian Münz; Josef M Penninger; Rushika M Perera; Mauro Piacentini; Fulvio Reggiori; David C Rubinsztein; Kevin M Ryan; Junichi Sadoshima; Laura Santambrogio; Luca Scorrano; Hans-Uwe Simon; Anna Katharina Simon; Anne Simonsen; Alexandra Stolz; Nektarios Tavernarakis; Sharon A Tooze; Tamotsu Yoshimori; Junying Yuan; Zhenyu Yue; Qing Zhong; Lorenzo Galluzzi; Federico Pietrocola
Journal:  EMBO J       Date:  2021-08-30       Impact factor: 14.012

Review 4.  Macroautophagy in CNS health and disease.

Authors:  Christopher J Griffey; Ai Yamamoto
Journal:  Nat Rev Neurosci       Date:  2022-05-03       Impact factor: 38.755

5.  Cul3 regulates cytoskeleton protein homeostasis and cell migration during a critical window of brain development.

Authors:  Jasmin Morandell; Lena A Schwarz; Bernadette Basilico; Saren Tasciyan; Georgi Dimchev; Armel Nicolas; Christoph Sommer; Caroline Kreuzinger; Christoph P Dotter; Lisa S Knaus; Zoe Dobler; Emanuele Cacci; Florian K M Schur; Johann G Danzl; Gaia Novarino
Journal:  Nat Commun       Date:  2021-05-24       Impact factor: 14.919

6.  MicroRNA-129-5p is regulated by choline availability and controls EGF receptor synthesis and neurogenesis in the cerebral cortex.

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Journal:  FASEB J       Date:  2018-12-06       Impact factor: 5.834

Review 7.  Towards a better understanding of the neuro-developmental role of autophagy in sickness and in health.

Authors:  Juan Zapata-Muñoz; Beatriz Villarejo-Zori; Pablo Largo-Barrientos; Patricia Boya
Journal:  Cell Stress       Date:  2021-06-29

8.  Phosphoproteomic identification of ULK substrates reveals VPS15-dependent ULK/VPS34 interplay in the regulation of autophagy.

Authors:  Thomas John Mercer; Yohei Ohashi; Stefan Boeing; Harold B J Jefferies; Stefano De Tito; Helen Flynn; Shirley Tremel; Wenxin Zhang; Martina Wirth; David Frith; Ambrosius P Snijders; Roger Lee Williams; Sharon A Tooze
Journal:  EMBO J       Date:  2021-06-14       Impact factor: 14.012

9.  Coupling of terminal differentiation deficit with neurodegenerative pathology in Vps35-deficient pyramidal neurons.

Authors:  Fu-Lei Tang; Lu Zhao; Yang Zhao; Dong Sun; Xiao-Juan Zhu; Lin Mei; Wen-Cheng Xiong
Journal:  Cell Death Differ       Date:  2020-01-06       Impact factor: 15.828

Review 10.  A new hypothesis for Parkinson's disease pathogenesis: GTPase-p38 MAPK signaling and autophagy as convergence points of etiology and genomics.

Authors:  Julia Obergasteiger; Giulia Frapporti; Peter P Pramstaller; Andrew A Hicks; Mattia Volta
Journal:  Mol Neurodegener       Date:  2018-08-02       Impact factor: 14.195
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