Abstract
Synaptic dysfunction and loss is the strongest pathological correlate of cognitive decline in Alzheimer's disease (AD) with increasing evidence implicating neuropathological tau protein in this process. Despite the knowledge that tau spreads through defined synaptic circuits, it is currently unknown whether synapse loss occurs before the accumulation of tau or as a consequence. To address this, we have used array tomography to examine an rTgTauEC mouse model expressing a P301L human tau transgene and a transgene labeling cytoplasm red (tdTomato) and presynaptic terminals green (Synaptophysin‐EGFP). All transgenes are restricted primarily to the entorhinal cortex using the neuropsin promotor to drive tTA expression. It has previously been shown that rTgTauEC mice exhibit neuronal loss in the entorhinal cortex and synapse density loss in the middle molecular layer (MML) of the dentate gyrus at 24 months of age. Here, we observed the density of tau‐expressing and total presynapses, and the spread of tau into the postsynapse in the MML of 3–6, 9, and 18 month old red–green‐rTgTauEC mice. We observe no loss of synapse density in the MML up to 18 months even in axons expressing tau. Despite the maintenance of synapse density, we see spread of human tau from presynaptic terminals to postsynaptic compartments in the MML at very early ages, indicating that the spread of tau through neural circuits is not due to the degeneration of axon terminals and is an early feature of the disease process.
Highlights
Three to six (n 5 4), 9 (n 5 4), and 18 (n 5 4) month old rTgTauEC 1 ECtdTomato/Syp-GFP and 3–6 (n 5 3), 9 (n 5 3), and 18 (n 5 6) month old entorhinal cortex (EC)-tdTomato/Syp-GFP littermate control mice of both sexes were used for array tomography experiments. rTgTauEC 1 EC-tdTomato/Syp-GFP mice were generated as described previously (Pooler, Polydoro, et al, 2013) by crossing FVB-Tg(tetO-TauP301L)4510 (SantaCruz et al, 2005) mice with the Tg(tetO-tdTomato-Syp/mut4EGFP)1.1Luo/J line obtained from Jackson Laboratory
FIG URE 4 Human tau pathology spreads from presynaptic terminals derived from neurons overexpressing tau to the postsynapses of the middle molecular layer (MML) of the dentate gyrus
Human tau pathology is present within the MML of 3–6 month (A) 9 month (C) and 18 month old (E) rTgTauEC 1 EC-tdTomato/Syp-GFP mice
Summary
Three to six (n 5 4), 9 (n 5 4), and 18 (n 5 4) month old rTgTauEC 1 ECtdTomato/Syp-GFP and 3–6 (n 5 3), 9 (n 5 3), and 18 (n 5 6) month old EC-tdTomato/Syp-GFP littermate control mice of both sexes were used for array tomography experiments. rTgTauEC 1 EC-tdTomato/Syp-GFP mice were generated as described previously (Pooler, Polydoro, et al, 2013) by crossing FVB-Tg(tetO-TauP301L)4510 (SantaCruz et al, 2005) mice with the Tg(tetO-tdTomato-Syp/mut4EGFP)1.1Luo/J line obtained from Jackson Laboratory. For immunolabeling of synaptic density, array ribbons were immunostained with primary antibodies against total presynapses (synaptophysin) and presynapses from neurons overexpressing human tau (GFP) and fluorescently labeled secondary antibodies (Table 1). FIG URE 1 Synaptic images were obtained from the MML of the dentate gyrus from each section along the entire array ribbon (A.I–II). Data shown are means 6 SEM, individual points represent the mean value from each mouse density of both total presynapses and GFP-positive presynapses, thresholded images were processed and analysed in MATLAB to remove background noise (objects present in only a single section were removed). Group data for the colocalization of synaptic pairs with Tau was not normally distributed so the nonparametric Kruskal–Wallis test was performed (GraphPad Prism 5).
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