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01.11.2014 | Original Communication

NADPH oxidase (NOX2) activity is a modifier of survival in ALS

verfasst von: Giuseppe Marrali, Federico Casale, Paolina Salamone, Giuseppe Fuda, Cristiana Caorsi, Antonio Amoroso, Maura Brunetti, Gabriella Restagno, Marco Barberis, Davide Bertuzzo, Antonio Canosa, Cristina Moglia, Andrea Calvo, Adriano Chiò

Erschienen in: Journal of Neurology | Ausgabe 11/2014

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Abstract

NADPH-oxidases (NOX) catalyze the formation of reactive oxygen species (ROS), which play a role in the development of neurological diseases, particularly those generated by the phagocytic isoform NOX2. Increased ROS has been observed in the amyotrophic lateral sclerosis (ALS) SOD1 transgenic mouse, and in this preclinical model the inactivation of NOX2 decreases ROS production and extends survival. Our aim was to evaluate NOX2 activity measuring neutrophil oxidative burst in a cohort of 83 ALS patients, and age- and gender-matched healthy controls. Oxidative burst was measured directly in fresh blood using Phagoburst™ assay by flow cytometry. Mean fluorescence intensity (MFI), emitted in response to different stimuli, leads to produce ROS and corresponds to the percentage of oxidizing cells and their enzymatic activity (GeoMean). No difference was found between the MFI values in cases and controls. NOX2 activity was independent from gender and age, and in patients was not related to disease duration, site of onset (bulbar vs. spinal), or ALSFRS-R score. However, patients with a NOX2 activity lower than the median value showed a 1-year increase of survival from onset (p = 0.011). The effect of NOX2 was independent from other known prognostic factors. These findings are in keeping with the observations in the mouse model of ALS, and demonstrate the strong role of NOX2 in modifying progression in ALS patients. A proper modulation of NOX2 activity might hold therapeutic potential for ALS.

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Titel: NADPH oxidase (NOX2) activity is a modifier of survival in ALS
verfasst von: Giuseppe Marrali
Federico Casale
Paolina Salamone
Giuseppe Fuda
Cristiana Caorsi
Antonio Amoroso
Maura Brunetti
Gabriella Restagno
Marco Barberis
Davide Bertuzzo
Antonio Canosa
Cristina Moglia
Andrea Calvo
Adriano Chiò
Publikationsdatum: 01.11.2014
Verlag: Springer Berlin Heidelberg
Erschienen in: Journal of Neurology / Ausgabe 11/2014
Print ISSN: 0340-5354
Elektronische ISSN: 1432-1459
DOI: https://doi.org/10.1007/s00415-014-7470-0

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