INaP selective inhibition reverts precocious inter- and motorneurons hyperexcitability in the Sod1-G93R zebrafish ALS model

INaP selective inhibition reverts precocious inter- and motorneurons hyperexcitability in the Sod1-G93R zebrafish ALS model

The pathogenic role of SOD1 mutations in amyotrophic lateral sclerosis (ALS) was investigated using a zebrafish disease model stably expressing the ALS-linked G93R mutation. In addition to the main pathological features of ALS shown by adult fish, we found remarkably precocious alterations in the de...

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Veröffentlicht in:Scientific reports 2016-04, Vol.6 (1), p.24515-24515, Article 24515
Hauptverfasser: Benedetti, Lorena, Ghilardi, Anna, Rottoli, Elsa, De Maglie, Marcella, Prosperi, Laura, Perego, Carla, Baruscotti, Mirko, Bucchi, Annalisa, Del Giacco, Luca, Francolini, Maura
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Sprache:eng
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Action Potentials - drug effects
Action Potentials - genetics
Amyotrophic lateral sclerosis
Amyotrophic Lateral Sclerosis - diagnosis
Amyotrophic Lateral Sclerosis - genetics
Animals
Animals, Genetically Modified
Disease Models, Animal
Drug screening
Excitability
Gene Expression
Humanities and Social Sciences
Locomotion
Motor Activity - drug effects
Motor neurons
Motor Neurons - drug effects
Motor Neurons - physiology
Motor task performance
multidisciplinary
Muscles - pathology
Mutation
Neuromuscular Junction - metabolism
Phenotype
Phenylglyoxal - analogs & derivatives
Phenylglyoxal - pharmacology
Riluzole - pharmacology
Science
Science (multidisciplinary)
Sodium
Spinal Cord - pathology
Superoxide dismutase
Superoxide Dismutase - genetics
Zebrafish
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Zusammenfassung:The pathogenic role of SOD1 mutations in amyotrophic lateral sclerosis (ALS) was investigated using a zebrafish disease model stably expressing the ALS-linked G93R mutation. In addition to the main pathological features of ALS shown by adult fish, we found remarkably precocious alterations in the development of motor nerve circuitry and embryo behavior, and suggest that these alterations are prompted by interneuron and motor neuron hyperexcitability triggered by anomalies in the persistent pacemaker sodium current I NaP . The riluzole-induced modulation of I NaP reduced spinal neuron excitability, reverted the behavioral phenotypes and improved the deficits in motor nerve circuitry development, thus shedding new light on the use of riluzole in the management of ALS. Our findings provide a valid phenotype-based tool for unbiased in vivo drug screening that can be used to develop new therapies.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep24515