Fernandez-Chacon_2004_Neuron_42_237

Reference

Title : The synaptic vesicle protein CSP alpha prevents presynaptic degeneration - Fernandez-Chacon_2004_Neuron_42_237
Author(s) : Fernandez-Chacon R , Wolfel M , Nishimune H , Tabares L , Schmitz F , Castellano-Munoz M , Rosenmund C , Montesinos ML , Sanes JR , Schneggenburger R , Sudhof TC
Ref : Neuron , 42 :237 , 2004
Abstract :

Cysteine string protein alpha (CSPalpha)--an abundant synaptic vesicle protein that contains a DNA-J domain characteristic of Hsp40 chaperones--is thought to regulate Ca2+ channels and/or synaptic vesicle exocytosis. We now show that, in young mice, deletion of CSPalpha does not impair survival and causes no significant changes in presynaptic Ca2+ currents or synaptic vesicle exocytosis as measured in the Calyx of Held synapse. At 2-4 weeks of age, however, CSPalpha-deficient mice develop a progressive, fatal sensorimotor disorder. The neuromuscular junctions and Calyx synapses of CSPalpha-deficient mice exhibit increasing neurodegenerative changes, synaptic transmission becomes severely impaired, and the mutant mice die at approximately 2 months of age. Our data suggest that CSPalpha is not essential for the normal operation of Ca2+ channels or exocytosis but acts as a presynaptic chaperone that maintains continued synaptic function, raising the possibility that enhanced CSPalpha function could attenuate neurodegenerative diseases.

PubMedSearch : Fernandez-Chacon_2004_Neuron_42_237
PubMedID: 15091340

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Citations formats

Fernandez-Chacon R, Wolfel M, Nishimune H, Tabares L, Schmitz F, Castellano-Munoz M, Rosenmund C, Montesinos ML, Sanes JR, Schneggenburger R, Sudhof TC (2004)
The synaptic vesicle protein CSP alpha prevents presynaptic degeneration
Neuron 42 :237

Fernandez-Chacon R, Wolfel M, Nishimune H, Tabares L, Schmitz F, Castellano-Munoz M, Rosenmund C, Montesinos ML, Sanes JR, Schneggenburger R, Sudhof TC (2004)
Neuron 42 :237