Copper-uptake is critical for the down regulation of synapsin and dynamin induced by neocuproine: modulation of synaptic activity in hippocampal neurons

Castro PA; Ramirez A.; Sepulveda, FJ; Peters, C; Fierro H; Waldron, J; Luza, S; Fuentealba, J; Muñoz FJ.; De Ferrari, GV; Bush, AI; Aguayo, LG; Opazo, CM

Keywords: copper, zinc, dynamin, synapsin, Synaptic activity, neocuproine, hyperexcitability, epileptiform-like activity

Abstract

Extracellular and intracellular copper and zinc regulate synaptic activity and plasticity, which may impact brain functionality and human behavior. We have found that a metal coordinating molecule, Neocuproine, transiently increases free intracellular copper and zinc levels (i.e., min) in hippocampal neurons as monitored by Phen Green and FluoZin-3 fluorescence, respectively. The changes in free intracellular zinc induced by Neocuproine were abolished by the presence of a non-permeant copper chelator, Bathocuproine (BC), indicating that copper influx is needed for the action of Neocuproine on intracellular Zn levels. Moreover, Neocuproine decreased the mRNA levels of Synapsin and Dynamin, and did not affect the expression of Bassoon, tubulin or superoxide dismutase (SOD). Western blot analysis showed that protein levels of synaps in and dynamin were also downregulated in the presence of Neocuproine and that these changes were accompanied by a decrease in calcium transients and neuronal activity. Furthermore, Neocuproine decreased the number of active neurons, effect that was blocked by the presence of BC, indicating that copper influx is needed for the action of Neocuproine. We finally show that Neocuproine blocks the epileptiform-like activity induced by bicuculline in hippocampal neurons. Collectively, our data indicates that pre synaptic protein configuration and function of primary hippocampal neurons is sensitive to transient changes in transition metal homeostasis. Therefore, small molecules able to coordinate transition metals and penetrate the blood brain barrier might modify neurotransmission at the Central Nervous System (CNS). This might be useful to establish therapeutic approaches to control the neuronalhy hyperexcitabiltity observed in brain conditions that are associated to copper dyshomeotasis such as Alzheimer's and Menkes diseases. Our work also opens a new avenue to find novel and effective antiepilepsy drugs based in metal coordinating molecules.

Más información

Título según WOS: Copper-uptake is critical for the down regulation of synapsin and dynamin induced by neocuproine: modulation of synaptic activity in hippocampal neurons
Título según SCOPUS: Copper-uptake is critical for the down regulation of synapsin and dynamin induced by neocuproine: Modulation of synaptic activity in hippocampal neurons
Título de la Revista: FRONTIERS IN AGING NEUROSCIENCE
Volumen: 6
Número: OCT
Editorial: FRONTIERS MEDIA SA
Fecha de publicación: 2014
Idioma: English
DOI:

10.3389/fnagi.2014.00319

Notas: ISI, SCOPUS