Hippocampal Long-term Synaptic Depression and Memory Deficits Induced in Early Amyloidopathy Are Prevented by Enhancing G-protein-gated Inwardly Rectifying Potassium Channel Activity

Overview

Journal J Neurochem

Specialties Chemistry
Neurology

Date 2019 Dec 27

PMID 31875959

Citations 24

Authors

Irene Sanchez-Rodriguez

Souhail Djebari

Sara Temprano-Carazo

David Vega-Avelaira

Raquel Jimenez-Herrera

Guillermo Iborra-Lazaro

Javier Yajeya

Lydia Jimenez-Diaz

Juan D Navarro-Lopez

Affiliations

Soon will be listed here.

Abstract

Hippocampal synaptic plasticity disruption by amyloid-β (Aβ) peptides + thought to be responsible for learning and memory impairments in Alzheimer's disease (AD) early stage. Failures in neuronal excitability maintenance seems to be an underlying mechanism. G-protein-gated inwardly rectifying potassium (GirK) channels control neural excitability by hyperpolarization in response to many G-protein-coupled receptors activation. Here, in early in vitro and in vivo amyloidosis mouse models, we study whether GirK channels take part of the hippocampal synaptic plasticity impairments generated by Aβ . In vitro electrophysiological recordings from slices showed that Aβ alters synaptic plasticity by switching high-frequency stimulation (HFS) induced long-term potentiation (LTP) to long-term depression (LTD), which led to in vivo hippocampal-dependent memory deficits. Remarkably, selective pharmacological activation of GirK channels with ML297 rescued both HFS-induced LTP and habituation memory from Aβ action. Moreover, when GirK channels were specifically blocked by Tertiapin-Q, their activation with ML297 failed to rescue LTP from the HFS-dependent LTD induced by Aβ . On the other hand, the molecular analysis of the recorded slices by western blot showed that the expression of GIRK1/2 subunits, which form the prototypical GirK channel in the hippocampus, was not significantly regulated by Aβ . However, immunohistochemical examination of our in vivo amyloidosis model showed Aβ to down-regulate hippocampal GIRK1 subunit expression. Together, our results describe an Aβ-mediated deleterious synaptic mechanism that modifies the induction threshold for hippocampal LTP/LTD and underlies memory alterations observed in amyloidosis models. In this scenario, GirK activation assures memory formation by preventing the transformation of HFS-induced LTP into LTD.

Citing Articles

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Amyloid-β oligomers trigger sex-dependent inhibition of GIRK channel activity in hippocampal neurons in mice.

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