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Merck
CN
  • Modifying Rap1-signalling by targeting Pde6δ is neuroprotective in models of Alzheimer's disease.

Modifying Rap1-signalling by targeting Pde6δ is neuroprotective in models of Alzheimer's disease.

Molecular neurodegeneration (2018-09-28)
Michael Dumbacher, Tom Van Dooren, Katrien Princen, Koen De Witte, Mélissa Farinelli, Sam Lievens, Jan Tavernier, Wim Dehaen, Stefaan Wera, Joris Winderickx, Sara Allasia, Amuri Kilonda, Stéphane Spieser, Arnaud Marchand, Patrick Chaltin, Casper C Hoogenraad, Gerard Griffioen
摘要

Neuronal Ca2+ dyshomeostasis and hyperactivity play a central role in Alzheimer's disease pathology and progression. Amyloid-beta together with non-genetic risk-factors of Alzheimer's disease contributes to increased Ca2+ influx and aberrant neuronal activity, which accelerates neurodegeneration in a feed-forward fashion. As such, identifying new targets and drugs to modulate excessive Ca2+ signalling and neuronal hyperactivity, without overly suppressing them, has promising therapeutic potential. Here we show, using biochemical, electrophysiological, imaging, and behavioural tools, that pharmacological modulation of Rap1 signalling by inhibiting its interaction with Pde6δ normalises disease associated Ca2+ aberrations and neuronal activity, conferring neuroprotection in models of Alzheimer's disease. The newly identified inhibitors of the Rap1-Pde6δ interaction counteract AD phenotypes, by reconfiguring Rap1 signalling underlying synaptic efficacy, Ca2+ influx, and neuronal repolarisation, without adverse effects in-cellulo or in-vivo. Thus, modulation of Rap1 by Pde6δ accommodates key mechanisms underlying neuronal activity, and therefore represents a promising new drug target for early or late intervention in neurodegenerative disorders. Targeting the Pde6δ-Rap1 interaction has promising therapeutic potential for disorders characterised by neuronal hyperactivity, such as Alzheimer's disease.

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产品描述

Sigma-Aldrich
Tau小鼠单克隆抗体(TAU-5), liquid, clone TAU-5, Calbiochem®
Sigma-Aldrich
MISSION® esiRNA, targeting human PDE6D