Endocytosis of synaptic ADAM10 in neuronal plasticity and Alzheimer’s disease
Elena Marcello, … , Fabrizio Gardoni, Monica Di Luca
Elena Marcello, … , Fabrizio Gardoni, Monica Di Luca
Published May 8, 2013
Citation Information: J Clin Invest. 2013;123(6):2523-2538. https://doi.org/10.1172/JCI65401.
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Research Article Neuroscience

Endocytosis of synaptic ADAM10 in neuronal plasticity and Alzheimer’s disease

Abstract

A disintegrin and metalloproteinase 10 (ADAM10), a disintegrin and metalloproteinase that resides in the postsynaptic densities (PSDs) of excitatory synapses, has previously been shown to limit β-amyloid peptide (Aβ) formation in Alzheimer’s disease (AD). ADAM10 also plays a critical role in regulating functional membrane proteins at the synapse. Using human hippocampal homogenates, we found that ADAM10 removal from the plasma membrane was mediated by clathrin-dependent endocytosis. Additionally, we identified the clathrin adaptor AP2 as an interacting partner of a previously uncharacterized atypical binding motif in the ADAM10 C-terminal domain. This domain was required for ADAM10 endocytosis and modulation of its plasma membrane levels. We found that the ADAM10/AP2 association was increased in the hippocampi of AD patients compared with healthy controls. Long-term potentiation (LTP) in hippocampal neuronal cultures induced ADAM10 endocytosis through AP2 association and decreased surface ADAM10 levels and activity. Conversely, long-term depression (LTD) promoted ADAM10 synaptic membrane insertion and stimulated its activity. ADAM10 interaction with the synapse-associated protein-97 (SAP97) was necessary for LTD-induced ADAM10 trafficking and required for LTD maintenance and LTD-induced changes in spine morphogenesis. These data identify and characterize a mechanism controlling ADAM10 localization and activity at excitatory synapses that is relevant to AD pathogenesis.

Authors

Elena Marcello, Claudia Saraceno, Stefano Musardo, Hugo Vara, Alerie Guzman de la Fuente, Silvia Pelucchi, Daniele Di Marino, Barbara Borroni, Anna Tramontano, Isabel Pérez-Otaño, Alessandro Padovani, Maurizio Giustetto, Fabrizio Gardoni, Monica Di Luca

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Figure 7

LTD induces ADAM10 trafficking toward the postsynaptic membranes.

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LTD induces ADAM10 trafficking toward the postsynaptic membranes. (A) WB...
(A) WB analysis of homogenate and TIF from control or cLTD-treated hippocampal cultures. cLTD leads to a redistribution of SAP97 and ADAM10 in TIF but not in homogenate and to a decrease in Ser-845 phosphorylation of GluR1. ADAM22 localization is not affected. (B) Quantification of the ratio of ADAM10/tubulin and SAP97/tubulin OD of experiments in A (*P < 0.05, cLTD versus C, n = 4). (C) WB of homogenate and TIF from control and cLTP-treated cultures. Ser-845 phosphorylation of GluR1 is enhanced, whereas ADAM10, SAP97, and ADAM22 protein levels and localization are not affected. (D) LTD was induced by LFS and TIF was purified from CA1 region. WB shows an increased localization of ADAM10 and SAP97 in TIF, while total protein levels are not changed. (E) Quantification of the ratio of ADAM10/tubulin and SAP97/tubulin OD of experiments in D (*P < 0.05, LTD versus C, n = 4). (F) WB analysis of homogenate and TIF from CA1 region of control and LTP-induced slices shows no changes in ADAM10 and SAP97 synaptic localization and total protein levels.