Literature DB >> 29725819

Senataxin mutations elicit motor neuron degeneration phenotypes and yield TDP-43 mislocalization in ALS4 mice and human patients.

Craig L Bennett1, Somasish G Dastidar1, Shuo-Chien Ling2, Bilal Malik3, Travis Ashe4, Mandheer Wadhwa1, Derek B Miller4, Changwoo Lee4, Matthew B Mitchell4, Michael A van Es5, Christopher Grunseich6, Yingzhang Chen7, Bryce L Sopher8, Linda Greensmith3,9, Don W Cleveland10,11,12, Albert R La Spada13,14,15,16,17.   

Abstract

Amyotrophic lateral sclerosis type 4 (ALS4) is a rare, early-onset, autosomal dominant form of ALS, characterized by slow disease progression and sparing of respiratory musculature. Dominant, gain-of-function mutations in the senataxin gene (SETX) cause ALS4, but the mechanistic basis for motor neuron toxicity is unknown. SETX is a RNA-binding protein with a highly conserved helicase domain, but does not possess a low-complexity domain, making it unique among ALS-linked disease proteins. We derived ALS4 mouse models by expressing two different senataxin gene mutations (R2136H and L389S) via transgenesis and knock-in gene targeting. Both approaches yielded SETX mutant mice that develop neuromuscular phenotypes and motor neuron degeneration. Neuropathological characterization of SETX mice revealed nuclear clearing of TDP-43, accompanied by TDP-43 cytosolic mislocalization, consistent with the hallmark pathology observed in human ALS patients. Postmortem material from ALS4 patients exhibited TDP-43 mislocalization in spinal cord motor neurons, and motor neurons from SETX ALS4 mice displayed enhanced stress granule formation. Immunostaining analysis for nucleocytoplasmic transport proteins Ran and RanGAP1 uncovered nuclear membrane abnormalities in the motor neurons of SETX ALS4 mice, and nuclear import was delayed in SETX ALS4 cortical neurons, indicative of impaired nucleocytoplasmic trafficking. SETX ALS4 mice thus recapitulated ALS disease phenotypes in association with TDP-43 mislocalization and provided insight into the basis for TDP-43 histopathology, linking SETX dysfunction to common pathways of ALS motor neuron degeneration.

Entities:  

Keywords:  Amyotrophic lateral sclerosis; Gene targeting; Motor neuron; Neurodegeneration; Nucleocytoplasmic transport; Ran; RanGAP1; Senataxin; TDP-43; Transgenesis

Mesh:

Substances:

Year:  2018        PMID: 29725819      PMCID: PMC6098723          DOI: 10.1007/s00401-018-1852-9

Source DB:  PubMed          Journal:  Acta Neuropathol        ISSN: 0001-6322            Impact factor:   17.088


  68 in total

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Journal:  Mol Cell       Date:  2018-01-27       Impact factor: 17.970
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