Disruption of perineuronal nets increases the frequency of sharp wave ripples

1 Memory disruption in mild cognitive impairment (MCI) and Alzheimer's disease (AD) is poorly 2 understood, particularly at early stages prior to neuronal or synaptic degeneration. In mouse models of 3 AD, there are observed disruptions to sharp wave ripples (SWRs), hippocampal population events with 4 a critical role in memory consolidation. However, the micro-circuitry underlying these disruptions are 5under-explored. We tested the hypothesis that a selective reduction in parvalbumin-expressing (PV) 6 inhibitory interneuron activity underlies hyperactivity and SWR disruption. We employed the 5xFAD 7 model of familial Alzheimer's disease crossed with mouse lines that selectively label excitatory pyramidal 8 cells (PCs) and inhibitory PV cells. We observed a 33% increase in frequency, 58% increase in amplitude, 9 and 8% decrease in duration of SWRs in acute slices from 3-month 5xFAD mice versus littermate 10 controls. 5xFAD mice of the same age were impaired in a task of hippocampal-dependent memory. 11Concurrent with SWR recordings, we performed calcium imaging, cell-attached, and whole-cell 12 recordings of PC and PV cells within the CA1 region. PCs in 5xFAD mice participated in enlarged 13 ensembles, with similar spiking activity, and increased synaptic E/I ratio, suggesting a disinhibitory 14 mechanism. In contrast, we observed a selective 46% spike rate reduction during SWRs in PV basket 15 cells (PVBCs), whereas PV bistratified and PV axo-axonic cells were unimpaired. Excitatory synaptic 16 drive to PVBCs was selectively reduced by 50%, resulting in decreased E/I ratio. Considering prior 17 studies of intrinsic PV cell dysfunction in AD, these findings suggest synaptic and network mechanisms 18 also play a prominent role. 19 Significance Statement 20We demonstrate that a specific sub-type of inhibitory neuron, PV-expressing basket cells, are 21 selectively impaired in a model of Alzheimer's disease during activity critical for the consolidation of 22 memory (i.e. SWRs). These results identify a cellular target for therapeutic intervention to restore aberrant 23 network activity in early amyloid pathology. While PV-expressing cells have previously been identified as 24 a potential therapeutic target, this study for the first time recognizes that other PV-expressing neuronal 25 sub-types, including bistratified and axo-axonic cells, are spared. It also represents the first attempt to 26 record synaptic and spiking activity during SWR events in early amyloid pathology, revealing that a 27 selective decrease in excitatory synaptic drive to PV basket cells likely underlies reduced function. 28

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Disruption of perineuronal nets increases the frequency of sharp wave ripples

Cited by 2 publications

References 83 publications

Scaling of Network Excitability and Inhibition may Contribute to the Septotemporal Differentiation of Sharp Waves–Ripples in Rat Hippocampus In Vitro

Scaling of Network Excitability and Inhibition may Contribute to the Septotemporal Differentiation of Sharp Waves–Ripples in Rat Hippocampus In Vitro

Inhibitory parvalbumin basket cell activity is selectively reduced during hippocampal sharp wave ripples in a mouse model of familial Alzheimer’s disease

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