Abstract
Cell culture models are important tools to study epileptogenesis mechanisms. The aim of this work was to characterize the spontaneous and synchronized rhythmic activity developed by cultured hippocampal neurons after transient incubation in zero Mg2+ to model Status Epilepticus. Cultured hippocampal neurons were transiently incubated with a Mg2+-free solution and the activity of neuronal networks was evaluated using single cell calcium imaging and whole-cell current clamp recordings. Here we report the development of synchronized and spontaneous [Ca2+]i transients in cultured hippocampal neurons immediately after transient incubation in a Mg2+-free solution. Spontaneous and synchronous [Ca2+]i oscillations were observed when the cells were then incubated in the presence of Mg2+. Functional studies also showed that transient incubation in Mg2+-free medium induces neuronal rhythmic burst activity that was prevented by antagonists of glutamate receptors. In conclusion, we report the development of epileptiform-like activity, characterized by spontaneous and synchronized discharges, in cultured hippocampal neurons transiently incubated in the absence of Mg2+. This model will allow studying synaptic alterations contributing to the hyperexcitability that underlies the development of seizures and will be useful in pharmacological studies for testing new drugs for the treatment of epilepsy.
Highlights
Cell culture models are important tools to study epileptogenesis mechanisms
To validate the transient incubation in [ Mg2+]0 medium as an experimental strategy to model Status Epilepticus in vitro we analyzed the frequency of action potential firing in high density primary cultures of rat hippocampal neurons, using whole-cell current clamp electrophysiology
In additional experiments we characterized the role of AMPA (AMPAR) and NMDA (NMDAR) receptors in the firing of action potentials in hippocampal neurons incubated in the absence of Mg2+
Summary
Cell culture models are important tools to study epileptogenesis mechanisms. The aim of this work was to characterize the spontaneous and synchronized rhythmic activity developed by cultured hippocampal neurons after transient incubation in zero Mg2+ to model Status Epilepticus. We report the development of epileptiform-like activity, characterized by spontaneous and synchronized discharges, in cultured hippocampal neurons transiently incubated in the absence of Mg2+ This model will allow studying synaptic alterations contributing to the hyperexcitability that underlies the development of seizures and will be useful in pharmacological studies for testing new drugs for the treatment of epilepsy. The data obtained by single cell calcium imaging analysis and whole-cell current clamp recordings showed that after induction of epileptogenesis, when neurons were returned to a solution containing magnesium, they were prone to develop spontaneous, recurrent and synchronous activity This type of activity is comparable with the neuronal activity observed in the chronic phase of epilepsy, both in animal models of the disease and in human patients. This model will be useful to investigate the synaptic mechanisms associated with epileptogenesis and to test new drugs for the treatment of epilepsy in different stages of the disease
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