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NeuroMolecular Medicine

Erschienen in:

11.09.2017 | Original Paper

Mutation in GNE Downregulates Peroxiredoxin IV Altering ER Redox Homeostasis

verfasst von: Pratibha Chanana, Gayatri Padhy, Kalpana Bhargava, Ranjana Arya

Erschienen in: NeuroMolecular Medicine | Ausgabe 4/2017

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Abstract

GNE myopathy is a rare neuromuscular genetic disorder characterized by early adult onset and muscle weakness due to mutation in sialic acid biosynthetic enzyme, UDP-N-acetylglucosamine 2-epimerase/N-acetylmannosamine kinase (GNE). More than 180 different GNE mutations are known all over the world with unclear pathomechanism. Although hyposialylation of glycoproteins is speculated to be the major cause, but cellular mechanism leading to loss of muscle mass has not yet been deciphered. Besides sialic acid biosynthesis, GNE affects other cellular functions such as cell adhesion and apoptosis. In order to understand the effect of mutant GNE protein on cellular functions, differential proteome profile of HEK293 cells overexpressing pathologically relevant recombinant mutant GNE protein (D207V and V603L) was analyzed. These cells, along with vector control and wild-type GNE-overexpressing cells, were subjected to two-dimensional gel electrophoresis coupled with mass spectrometry (MALDI-TOF/TOF MS/MS). In the study, 10 differentially expressed proteins were identified. Progenesis same spots software revealed downregulation of peroxiredoxin IV (PrdxIV), an ER-resident H₂O₂ sensor that regulates neurogenesis. Significant reduction in mRNA and protein levels of PrdxIV was observed in GNE mutant cell lines compared with vector control. However, neither total reactive oxygen species was altered nor H₂O₂ accumulation was observed in GNE mutant cell lines. Interestingly, ER redox state was significantly affected due to reduced normal GNE enzyme activity. Our study indicates that downregulation of PrdxIV affects ER redox state that may contribute to misfolding and aggregation of proteins in GNE myopathy.

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Titel: Mutation in GNE Downregulates Peroxiredoxin IV Altering ER Redox Homeostasis
verfasst von: Pratibha Chanana
Gayatri Padhy
Kalpana Bhargava
Ranjana Arya
Publikationsdatum: 11.09.2017
Verlag: Springer US
Erschienen in: NeuroMolecular Medicine / Ausgabe 4/2017
Print ISSN: 1535-1084
Elektronische ISSN: 1559-1174
DOI: https://doi.org/10.1007/s12017-017-8467-5

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