Literature DB >> 26130692

PABPN1 suppresses TDP-43 toxicity in ALS disease models.

Ching-Chieh Chou1, Olga M Alexeeva2, Shizuka Yamada3, Amy Pribadi3, Yi Zhang4, Bi Mo2, Kathryn R Williams2, Daniela C Zarnescu3, Wilfried Rossoll5.   

Abstract

TAR DNA-binding protein 43 (TDP-43) is a major disease protein in amyotrophic lateral sclerosis (ALS) and related neurodegenerative diseases. Both the cytoplasmic accumulation of toxic ubiquitinated and hyperphosphorylated TDP-43 fragments and the loss of normal TDP-43 from the nucleus may contribute to the disease progression by impairing normal RNA and protein homeostasis. Therefore, both the removal of pathological protein and the rescue of TDP-43 mislocalization may be critical for halting or reversing TDP-43 proteinopathies. Here, we report poly(A)-binding protein nuclear 1 (PABPN1) as a novel TDP-43 interaction partner that acts as a potent suppressor of TDP-43 toxicity. Overexpression of full-length PABPN1 but not a truncated version lacking the nuclear localization signal protects from pathogenic TDP-43-mediated toxicity, promotes the degradation of pathological TDP-43 and restores normal solubility and nuclear localization of endogenous TDP-43. Reduced levels of PABPN1 enhances the phenotypes in several cell culture and Drosophila models of ALS and results in the cytoplasmic mislocalization of TDP-43. Moreover, PABPN1 rescues the dysregulated stress granule (SG) dynamics and facilitates the removal of persistent SGs in TDP-43-mediated disease conditions. These findings demonstrate a role for PABPN1 in rescuing several cytopathological features of TDP-43 proteinopathy by increasing the turnover of pathologic proteins.
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Year:  2015        PMID: 26130692      PMCID: PMC4550816          DOI: 10.1093/hmg/ddv238

Source DB:  PubMed          Journal:  Hum Mol Genet        ISSN: 0964-6906            Impact factor:   6.150


  97 in total

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Journal:  Hum Mol Genet       Date:  2010-04-15       Impact factor: 6.150

2.  The survival of motor neuron (SMN) protein interacts with the mRNA-binding protein HuD and regulates localization of poly(A) mRNA in primary motor neuron axons.

Authors:  Claudia Fallini; Honglai Zhang; Yuehang Su; Vincenzo Silani; Robert H Singer; Wilfried Rossoll; Gary J Bassell
Journal:  J Neurosci       Date:  2011-03-09       Impact factor: 6.167

3.  TDP-43 mediates degeneration in a novel Drosophila model of disease caused by mutations in VCP/p97.

Authors:  Gillian P Ritson; Sara K Custer; Brian D Freibaum; Jake B Guinto; Dyanna Geffel; Jennifer Moore; Waixing Tang; Matthew J Winton; Manuela Neumann; John Q Trojanowski; Virginia M-Y Lee; Mark S Forman; J Paul Taylor
Journal:  J Neurosci       Date:  2010-06-02       Impact factor: 6.167

4.  Cytoplasmic mislocalization of TDP-43 is toxic to neurons and enhanced by a mutation associated with familial amyotrophic lateral sclerosis.

Authors:  Sami J Barmada; Gaia Skibinski; Erica Korb; Elizabeth J Rao; Jane Y Wu; Steven Finkbeiner
Journal:  J Neurosci       Date:  2010-01-13       Impact factor: 6.167

5.  Loss of nuclear poly(A)-binding protein 1 causes defects in myogenesis and mRNA biogenesis.

Authors:  Luciano H Apponi; Sara W Leung; Kathryn R Williams; Sandro R Valentini; Anita H Corbett; Grace K Pavlath
Journal:  Hum Mol Genet       Date:  2009-12-24       Impact factor: 6.150

6.  TDP-43-mediated neuron loss in vivo requires RNA-binding activity.

Authors:  Aaron Voigt; David Herholz; Fabienne C Fiesel; Kavita Kaur; Daniel Müller; Peter Karsten; Stephanie S Weber; Philipp J Kahle; Till Marquardt; Jörg B Schulz
Journal:  PLoS One       Date:  2010-08-18       Impact factor: 3.240

7.  Enhancement of proteasome activity by a small-molecule inhibitor of USP14.

Authors:  Byung-Hoon Lee; Min Jae Lee; Soyeon Park; Dong-Chan Oh; Suzanne Elsasser; Ping-Chung Chen; Carlos Gartner; Nevena Dimova; John Hanna; Steven P Gygi; Scott M Wilson; Randall W King; Daniel Finley
Journal:  Nature       Date:  2010-09-09       Impact factor: 49.962

8.  Inhibition of RNA lariat debranching enzyme suppresses TDP-43 toxicity in ALS disease models.

Authors:  Maria Armakola; Matthew J Higgins; Matthew D Figley; Sami J Barmada; Emily A Scarborough; Zamia Diaz; Xiaodong Fang; James Shorter; Nevan J Krogan; Steven Finkbeiner; Robert V Farese; Aaron D Gitler
Journal:  Nat Genet       Date:  2012-10-28       Impact factor: 38.330

9.  Targeted gene expression as a means of altering cell fates and generating dominant phenotypes.

Authors:  A H Brand; N Perrimon
Journal:  Development       Date:  1993-06       Impact factor: 6.868

10.  Autophagy induction enhances TDP43 turnover and survival in neuronal ALS models.

Authors:  Sami J Barmada; Andrea Serio; Arpana Arjun; Bilada Bilican; Aaron Daub; D Michael Ando; Andrey Tsvetkov; Michael Pleiss; Xingli Li; Daniel Peisach; Christopher Shaw; Siddharthan Chandran; Steven Finkbeiner
Journal:  Nat Chem Biol       Date:  2014-06-29       Impact factor: 15.040
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  9 in total

1.  Proteomic analysis reveals that wildtype and alanine-expanded nuclear poly(A)-binding protein exhibit differential interactions in skeletal muscle.

Authors:  Ayan Banerjee; Brittany L Phillips; Quidong Deng; Nicholas T Seyfried; Grace K Pavlath; Katherine E Vest; Anita H Corbett
Journal:  J Biol Chem       Date:  2019-03-05       Impact factor: 5.157

Review 2.  RNA-binding proteins implicated in neurodegenerative diseases.

Authors:  Mark R Cookson
Journal:  Wiley Interdiscip Rev RNA       Date:  2016-09-23       Impact factor: 9.957

3.  Meta-analysis of Genetic Modifiers Reveals Candidate Dysregulated Pathways in Amyotrophic Lateral Sclerosis.

Authors:  Katherine S Yanagi; Zhijin Wu; Joshua Amaya; Natalie Chapkis; Amanda M Duffy; Kaitlyn H Hajdarovic; Aaron Held; Arjun D Mathur; Kathryn Russo; Veronica H Ryan; Beatrice L Steinert; Joshua P Whitt; Justin R Fallon; Nicolas L Fawzi; Diane Lipscombe; Robert A Reenan; Kristi A Wharton; Anne C Hart
Journal:  Neuroscience       Date:  2019-01-01       Impact factor: 3.590

Review 4.  Fly for ALS: Drosophila modeling on the route to amyotrophic lateral sclerosis modifiers.

Authors:  Francesco Liguori; Susanna Amadio; Cinzia Volonté
Journal:  Cell Mol Life Sci       Date:  2021-07-28       Impact factor: 9.261

Review 5.  Molecular Mechanisms Underlying TDP-43 Pathology in Cellular and Animal Models of ALS and FTLD.

Authors:  Alistair Wood; Yuval Gurfinkel; Nicole Polain; Wesley Lamont; Sarah Lyn Rea
Journal:  Int J Mol Sci       Date:  2021-04-29       Impact factor: 5.923

6.  TDP-43 pathology disrupts nuclear pore complexes and nucleocytoplasmic transport in ALS/FTD.

Authors:  Ching-Chieh Chou; Yi Zhang; Mfon E Umoh; Spencer W Vaughan; Ileana Lorenzini; Feilin Liu; Melissa Sayegh; Paul G Donlin-Asp; Yu Han Chen; Duc M Duong; Nicholas T Seyfried; Maureen A Powers; Thomas Kukar; Chadwick M Hales; Marla Gearing; Nigel J Cairns; Kevin B Boylan; Dennis W Dickson; Rosa Rademakers; Yong-Jie Zhang; Leonard Petrucelli; Rita Sattler; Daniela C Zarnescu; Jonathan D Glass; Wilfried Rossoll
Journal:  Nat Neurosci       Date:  2018-01-08       Impact factor: 24.884

Review 7.  The debated toxic role of aggregated TDP-43 in amyotrophic lateral sclerosis: a resolution in sight?

Authors:  Rudolf C Hergesheimer; Anna A Chami; Denis Reis de Assis; Patrick Vourc'h; Christian R Andres; Philippe Corcia; Débora Lanznaster; Hélène Blasco
Journal:  Brain       Date:  2019-05-01       Impact factor: 13.501

8.  Nuclear poly(A) binding protein 1 (PABPN1) and Matrin3 interact in muscle cells and regulate RNA processing.

Authors:  Ayan Banerjee; Katherine E Vest; Grace K Pavlath; Anita H Corbett
Journal:  Nucleic Acids Res       Date:  2017-10-13       Impact factor: 16.971

9.  Stress Granule Assembly Can Facilitate but Is Not Required for TDP-43 Cytoplasmic Aggregation.

Authors:  Nikita Fernandes; Luke Nero; Shawn M Lyons; Pavel Ivanov; Telsa M Mittelmeier; Timothy A Bolger; J Ross Buchan
Journal:  Biomolecules       Date:  2020-09-25
  9 in total

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