Article ID Journal Published Year Pages File Type
5737362 Neuroscience 2017 14 Pages PDF
Abstract

•Hyperexcitability was observed in motor outputs due to diminished sSTD in the spinal motor system of mSOD1G93A mice.•Spinal network- and NMDAR-dependent oEPSPs were first observed and were hyperactive in mSOD1G93A MNs.•Fast EPSPs were found to be similar between mSOD1G93A MNs and NT MNs at P50-90.

Hyperexcitability is hypothesized to contribute to the degeneration of spinal motoneurons (MNs) in amyotrophic lateral sclerosis (ALS). Studies, thus far, have not linked hyperexcitability to the intrinsic properties of MNs in the adult ALS mouse model with the G93A-mutated SOD1 protein (mSOD1G93A). In this study, we obtained two types of measurements: ventral root recordings to assess motor output and intracellular recordings to assess synaptic properties of individual MNs. All studies were carried out in an in vitro preparation of the sacral spinal cords of mSOD1G93A mice and their non-transgenic (NT) littermates, both in the age range of 50-90 days. Ventral root recordings revealed that maximum compound action potentials (coAPs) evoked by a short-train stimulation of corresponding dorsal roots were similar between the two types of mice. Although the progressive depression of coAPs was present during the train stimulation in all recordings, the coAP depression in mSOD1G93A mice was to a lesser extent, which suggests an increased firing tendency in mSOD1G93A MNs. Intracellular recordings showed no changes in fast excitatory postsynaptic potentials (EPSPs) in mSOD1G93A MNs. However, recording did show that oscillating EPSPs (oEPSPs) were induced by poly-EPSPs at a higher frequency and by less-intense electrical stimulation in mSOD1G93A MNs. These oEPSPs were dependent upon the activities of spinal network and N-methyl-d-aspartate receptors (NMDARs), and were subjected to riluzole modulation. Taken together, these findings revealed abnormal electrophysiology in mSOD1G93A MNs that could underlie ALS excitotoxicity.

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