Age-dependent changes in hippocampal synaptic transmission and plasticity in the PLB1 Triple Alzheimer mouse
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Cellular and Molecular Life Sciences
RESEARCH ARTICLE
Age-dependent changes in hippocampal synaptic transmission and plasticity in the PLB1Triple Alzheimer mouse David J. Koss · Benjamin D. Drever · Sandra Stoppelkamp · Gernot Riedel · Bettina Platt
Received: 15 September 2012 / Revised: 14 January 2013 / Accepted: 21 January 2013 / Published online: 14 February 2013 © Springer Basel 2013
Abstract Several genetically engineered models exist that mimic aspects of the pathological and cognitive hallmarks of Alzheimer’s disease (AD). Here we report on a novel mouse model generated by targeted knock-in of transgenes containing mutated human amyloid precursor protein (APP) and microtubule-associated protein tau genes, inserted into the HPRT locus and controlled by the CaMKIIα regulatory element. These mice were crossed with an asymptomatic presenilin1A246E overexpressing line to generate PLB1Triple mice. Gene expression analysis and in situ hybridization confirmed stable, forebrain-specific, and gene-dose-dependent transgene expression. Brain tissue harvested from homozygous, heterozygous, and wild-type cohorts aged between 3 and 24 months was analyzed immunohistochemically and electrophysiologically. Homozygous PLB1Triple offspring presented with mostly intracellular cortical and hippocampal human APP/amyloid, first detected reliably at 6 months. Human tau was already uncovered at 3 months (phospho-tau at 6 months) and labeling intensifying progressively with age. Gene-dose dependence was confirmed in age-matched heterozygous females that accumulated less tau and amyloid protein. General excitability of hippocampal neurones was not altered in slices from PLB1Triple mice up to 12 months, but 2-year-old homozygous PLB1Triple mice had smaller synaptically evoked postsynaptic potentials compared with wild types. Synaptic plasticity (paired-pulse depression/
D. J. Koss · B. D. Drever · S. Stoppelkamp · G. Riedel (*) · B. Platt (*) School of Medical Sciences College of Life Sciences and Medicine, Institute of Medical Sciences, University of Aberdeen, Foresterhill, Aberdeen B25 2ZD, Scotland, UK e-mail: [email protected] B. Platt e-mail: [email protected]
facilitation and long-term potentiation) of synaptic CA1 pyramidal cell responses was deficient from 6 months of age. Long-term depression was not affected at any age or in any genotype. Therefore, despite comparatively subtle gene expression and protein build-up, PLB1Triple mice develop age-dependent progressive phenotypes, suggesting that aggressive protein accumulation is not necessary to reconstruct endophenotypes of AD. Keywords Transgenic mice · Amyloid · Tau · Immunohistochemistry · Synaptic plasticity · LTP · LTD
Introduction Alzheimer’s disease (AD) is the most common form of dementia and is characterized by neurodegeneration in vulnerable forebrain regions such as the hippocampus, coupled with progressive memory loss and cognitive decline. Post-mortem, the disorder is identified by two pathological hallmarks defined as (1) extracellular amyloid plaques
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