Neurophysiological alterations in the nucleus reuniens of a mouse model of Alzheimer’s disease

Transgenic mice that overproduce beta-amyloid (Aβ) peptides exhibit neurophysiological alterations at the cellular, synaptic and network levels. Recently, increased neuronal activity in nucleus reuniens (Re), has been linked to hyperexcitability within hippocampal-thalamo-cortical networks in the J20 mouse model of amyloidopathy. Here in vitro whole-cell patch clamp recordings were used to compare old pathology-bearing J20 mice and wild-type controls to examine whether alterations to the intrinsic electrophysiological properties of Re neurons could contribute to the amyloidopathy-associated Re hyperactivity. A greater proportion of Re neurons displayed a hyperpolarised membrane potential in J20 mice without changes to the incidence or frequency of spontaneous action potential (AP) generation. Passive membrane properties were independent of transgene expression. Re neurons recorded from J20 mice did not exhibit increased AP generation in response to depolarising current stimuli but did exhibit an increased propensity to rebound burst following hyperpolarising current stimuli. This increase in rebound firing does not appear to result from alterations to T-type calcium channels. Finally, in J20 mice there was an ∼8% reduction in spike width, similar to what we and others have reported in CA1 pyramidal neurons from multiple amyloidopathy mice. We conclude that alterations to the intrinsic properties of Re neurons may contribute to the hyperexcitability observed in hippocampal-thalmo-cortical circuits under pathological Aβ load. Key Points