APP Deletion Accounts for Age-Dependent Changes in the Bioenergetic Metabolism and in Hyperphosphorylated CaMKII at Stimulated Hippocampal Presynaptic Active Zones

Overview

Journal Front Synaptic Neurosci

Date 2017 Feb 7

PMID 28163681

Citations 2

Authors

Melanie Lassek

Jens Weingarten

Martin Wegner

Moritz Neupartl

Tabiwang N Array

Eva Harde

Benedikt Beckert

Vahid Golghalyani

Jorg Ackermann

Ina Koch

Ulrike C Muller

Michael Karas

Amparo Acker-Palmer

Walter Volknandt

Affiliations

Soon will be listed here.

Abstract

Synaptic release sites are characterized by exocytosis-competent synaptic vesicles tightly anchored to the presynaptic active zone (PAZ) whose proteome orchestrates the fast signaling events involved in synaptic vesicle cycle and plasticity. Allocation of the amyloid precursor protein (APP) to the PAZ proteome implicated a functional impact of APP in neuronal communication. In this study, we combined state-of-the-art proteomics, electrophysiology and bioinformatics to address protein abundance and functional changes at the native hippocampal PAZ in young and old APP-KO mice. We evaluated if APP deletion has an impact on the metabolic activity of presynaptic mitochondria. Furthermore, we quantified differences in the phosphorylation status after long-term-potentiation (LTP) induction at the purified native PAZ. We observed an increase in the phosphorylation of the signaling enzyme calmodulin-dependent kinase II (CaMKII) only in old APP-KO mice. During aging APP deletion is accompanied by a severe decrease in metabolic activity and hyperphosphorylation of CaMKII. This attributes an essential functional role to APP at hippocampal PAZ and putative molecular mechanisms underlying the age-dependent impairments in learning and memory in APP-KO mice.

Citing Articles

Fornix white matter glia damage causes hippocampal gray matter damage during age-dependent limbic decline.

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APP-A Novel Player within the Presynaptic Active Zone Proteome.

Weingarten J, Weingarten M, Wegner M, Volknandt W Front Mol Neurosci. 2017; 10:43.

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