Mutant Cu/Zn Superoxide Dismutase (A4V) Turnover Is Altered in Cells Containing Inclusions

Mutant Cu/Zn Superoxide Dismutase (A4V) Turnover Is Altered in Cells Containing Inclusions

SOD1 mutations account for ∼20% of familial amyotrophic lateral sclerosis (ALS) cases in which the hallmark pathological feature is insoluble SOD1 aggregates within motor neurons. Here, we investigated the degradation and synthesis of mutant SOD1 to determine whether the aggregation of mutant SOD1 A...

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Veröffentlicht in:Frontiers in molecular neuroscience 2021-11, Vol.14, p.771911-771911
Hauptverfasser: Farrawell, Natalie E., Yerbury, Justin J.
Format: Artikel
Sprache:eng
Schlagworte:
ALS
Amyotrophic lateral sclerosis
Cloning
Degradation
Exports
Genes
Homeostasis
Motor neurons
Mutants
Mutation
Neurodegenerative diseases
Neuroscience
Proteins
proteome homeostasis
SOD1
Spinal cord
Superoxide dismutase
UPR – unfolded protein response
UPS – ubiquitin proteasome system
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Zusammenfassung:SOD1 mutations account for ∼20% of familial amyotrophic lateral sclerosis (ALS) cases in which the hallmark pathological feature is insoluble SOD1 aggregates within motor neurons. Here, we investigated the degradation and synthesis of mutant SOD1 to determine whether the aggregation of mutant SOD1 A4V affects these processes. We confirm that, in general, the degradation of mutant SOD1 A4V occurs at a significantly faster rate than wild-type SOD1. We also report that the turnover and synthesis of mutant SOD1 A4V is impaired in the presence of insoluble SOD1 A4V aggregates. However, the timing of aggregation of SOD1 A4V did not coincide with UPS dysfunction. Together, these results reveal the impact of SOD1 aggregation on protein degradation pathways, highlighting the importance of the UPS in preventing neurodegenerative disorders such as ALS.
ISSN:1662-5099
1662-5099
DOI:10.3389/fnmol.2021.771911