Matthias Wawra scite author profile

Up to date, preclinical screening for new antiepileptic substances is performed by a combination of different in vivo models of acute seizures, for which large numbers of animals are necessary. So far, little attention has been paid to in vitro models, which are also able to detect antiepileptic efficacy and in principle could likewise serve for exploratory preclinical screening. One of the established in vitro models of acute seizures is the 4-aminopyridine (4-AP) model. Previous studies have shown that the 4-AP model is capable to recapitulate the antiepileptic efficacy of standard antiepileptic drugs (AEDs) such as valproate or carbamazepine. Here, we employed a dual methodological approach using electrophysiology and optical imaging to systematically test the antiepileptic efficacy of three new-generation AEDs with distinct mechanisms of action (lacosamide, zonisamide, and levetiracetam). We found that frequency of 4-AP induced seizure like events (SLE) was the most sensitive parameter to detect dose-dependent antiepileptic effects in these compounds. Specifically, levetiracetam reduced SLE frequency while lacosamide and zonisamide at higher doses completely blocked SLE incidence. Analysis of the intrinsic optical signal additionally revealed a subiculum-specific reduction of the area involved in the propagation of ictal activity when lacosamide or zonisamide were administered. Taken together, our data adds some evidence that acute seizure models in vitro are in principle capable to detect antiepileptic effects across different mechanisms of action with efficacy similar to acute models in vivo . Further studies with negative controls, e.g., penicillin as a proconvulsant, and other clinically relevant AEDs are needed to determine if this acute in vitro model might be useful as exploratory screening tool. In view of the increasing sensitivity toward animal welfare, an affective in vitro model may help to reduce the number of laboratory animals deployed in burdening in vivo experiments and to preselect substances for subsequent testing in time- and cost-laborious models of chronic epilepsy.

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5-HT4-Receptors Modulate Induction of Long-Term Depression but Not Potentiation at Hippocampal Output Synapses in Acute Rat Brain Slices

Wawra

Fidzinski

Heinemann

et al. 2014

PLoS ONE

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The subiculum is the principal target of CA1 pyramidal cells and mediates hippocampal output to various cortical and subcortical regions of the brain. The majority of subicular pyramidal cells are burst-spiking neurons. Previous studies indicated that high frequency stimulation in subicular burst-spiking cells causes presynaptic NMDA-receptor dependent long-term potentiation (LTP) whereas low frequency stimulation induces postsynaptic NMDA-receptor-dependent long-term depression (LTD). In the present study, we investigate the effect of 5-hydroxytryptamine type 4 (5-HT4) receptor activation and blockade on both forms of synaptic plasticity in burst-spiking cells. We demonstrate that neither activation nor block of 5-HT4 receptors modulate the induction or expression of LTP. In contrast, activation of 5-HT4 receptors facilitates expression of LTD, and block of the 5-HT4 receptor prevents induction of short-term depression and LTD. As 5-HT4 receptors are positively coupled to adenylate cyclase 1 (AC1), 5-HT4 receptors might modulate PKA activity through AC1. Since LTD is blocked in the presence of 5-HT4 receptor antagonists, our data are consistent with 5-HT4 receptor activation by ambient serotonin or intrinsically active 5-HT4 receptors. Our findings provide new insight into aminergic modulation of hippocampal output.

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Dentate gyrus autonomous ictal activity in the status epilepticus rat model of epilepsy

et al. 2017

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Low‐frequency stimulation of the temporoammonic pathway induces heterosynaptic disinhibition in the subiculum

et al. 2011

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The subiculum (Sub) is the principal target of CA1 pyramidal cells. It serves as the final relay of hippocampal output and thus mediates hippocampal-cortical interaction. In addition, the Sub receives direct input from the entorhinal cortex via the temporoammonic pathway. In this study, we demonstrate that low-frequency stimulation of the temporoammonic pathway results in the disinhibition of excitatory synaptic transmission at CA1-Sub synapses. We provide evidence that this disinhibition is mediated by an NMDA receptor-dependent long-term depression (LTD) of GABAergic inhibition. This mechanism might bear physiological significance for the stabilization and processing of mnemonic information at hippocampal output synapses and underpins the functional role of hippocampal-entorhinal interaction in memory formation.

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High-frequency stimulation of the temporoammonic pathway induces input-specific long-term potentiation in subicular bursting cells

et al. 2012

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Matthias Wawra

The 4-Aminopyridine Model of Acute Seizures in vitro Elucidates Efficacy of New Antiepileptic Drugs

5-HT4-Receptors Modulate Induction of Long-Term Depression but Not Potentiation at Hippocampal Output Synapses in Acute Rat Brain Slices

Dentate gyrus autonomous ictal activity in the status epilepticus rat model of epilepsy

Low‐frequency stimulation of the temporoammonic pathway induces heterosynaptic disinhibition in the subiculum

High-frequency stimulation of the temporoammonic pathway induces input-specific long-term potentiation in subicular bursting cells

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