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Onset of hippocampal network aberration and memory deficits in P301S tau mice are associated with an early gene signature

Magdalena Przybyla, Janet van Eersel, Annika van Hummel, Julia van der Hoven, Miheer Sabale, Anne E. Harasta, Julius Müller, Mehul Gajwani, Emmanuel Prikas, Thomas Mueller, Claire H. Stevens, John Power, Gary D. Housley, Tim Karl, Michael Kassiou, Yazi D. Ke, Arne Ittner, Lars M. Ittner

2020Brain33 citationsDOIOpen Access PDF

Abstract

Hyperphosphorylation and deposition of tau in the brain characterizes frontotemporal dementia and Alzheimer's disease. Disease-associated mutations in the tau-encoding MAPT gene have enabled the generation of transgenic mouse models that recapitulate aspects of human neurodegenerative diseases, including tau hyperphosphorylation and neurofibrillary tangle formation. Here, we characterized the effects of transgenic P301S mutant human tau expression on neuronal network function in the murine hippocampus. Onset of progressive spatial learning deficits in P301S tau transgenic TAU58/2 mice were paralleled by long-term potentiation deficits and neuronal network aberrations during electrophysiological and EEG recordings. Gene-expression profiling just prior to onset of apparent deficits in TAU58/2 mice revealed a signature of immediate early genes that is consistent with neuronal network hypersynchronicity. We found that the increased immediate early gene activity was confined to neurons harbouring tau pathology, providing a cellular link between aberrant tau and network dysfunction. Taken together, our data suggest that tau pathology drives neuronal network dysfunction through hyperexcitation of individual, pathology-harbouring neurons, thereby contributing to memory deficits.

Topics & Concepts

NeuroscienceHyperphosphorylationTau proteinHippocampusHippocampal formationFrontotemporal dementiaLong-term potentiationGenetically modified mouseTransgeneTauopathyPsychologyAlzheimer's diseaseDementiaBiologyNeurodegenerationPathologyDiseaseMedicineGeneGeneticsKinaseReceptorAlzheimer's disease research and treatmentsNeuroscience and Neuropharmacology ResearchMemory and Neural Mechanisms