Altered network properties in C9ORF72 repeat expansion cortical neurons are due to synaptic dysfunction.

Emma M PerkinsKaren BurrPoulomi BanerjeeArpan R MehtaOwen DandoBhuvaneish T SelvarajDaumante SuminaiteJyoti NandaChristopher M HenstridgeThomas H GillingwaterGiles E HardinghamDavid J A WyllieSiddharthan ChandranMatthew R Livesey

Published in: Molecular neurodegeneration (2021)

These findings suggest synaptic pathophysiology is widespread in ALS-FTD and has an early and fundamental role in driving altered network function that is thought to contribute to neurodegenerative processes in these patients. The overall importance is the identification of previously unidentified defects in pre and postsynaptic compartments affecting synaptic plasticity, synaptic vesicle stores, and network propagation, which directly impact upon cortical function.

Keyphrases

end stage renal disease
newly diagnosed
ejection fraction
prefrontal cortex
chronic kidney disease
spinal cord
spinal cord injury
network analysis
bioinformatics analysis