Galantamine-induced Amyloid-β Clearance Mediated via Stimulation of Microglial Nicotinic Acetylcholine Receptors

Reduction of brain amyloid-β (Aβ) has been proposed as a therapeutic target for Alzheimer disease (AD), and microglial Aβ phagocytosis is noted as an Aβ clearance system in brains. Galantamine is an acetylcholinesterase inhibitor approved for symptomatic treatment of AD. Galantamine also acts as an...

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Veröffentlicht in:	The Journal of biological chemistry 2010-12, Vol.285 (51), p.40180-40191
Hauptverfasser:	Takata, Kazuyuki, Kitamura, Yoshihisa, Saeki, Mana, Terada, Maki, Kagitani, Sachiko, Kitamura, Risa, Fujikawa, Yasuhiro, Maelicke, Alfred, Tomimoto, Hidekazu, Taniguchi, Takashi, Shimohama, Shun
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Sprache:	eng
Schlagworte:	Actin Allosterically Potentiating Ligand Alzheimer Disease Amyloid Galantamine Microglia Molecular Bases of Disease Nicotinic Acetylcholine Receptors Phagocytosis
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container_title	The Journal of biological chemistry
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creator	Takata, Kazuyuki Kitamura, Yoshihisa Saeki, Mana Terada, Maki Kagitani, Sachiko Kitamura, Risa Fujikawa, Yasuhiro Maelicke, Alfred Tomimoto, Hidekazu Taniguchi, Takashi Shimohama, Shun
description	Reduction of brain amyloid-β (Aβ) has been proposed as a therapeutic target for Alzheimer disease (AD), and microglial Aβ phagocytosis is noted as an Aβ clearance system in brains. Galantamine is an acetylcholinesterase inhibitor approved for symptomatic treatment of AD. Galantamine also acts as an allosterically potentiating ligand (APL) for nicotinic acetylcholine receptors (nAChRs). APL-binding site is located close to but distinct from that for acetylcholine on nAChRs, and FK1 antibody specifically binds to the APL-binding site without interfering with the acetylcholine-binding site. We found that in human AD brain, microglia accumulated on Aβ deposits and expressed α7 nAChRs including the APL-binding site recognized with FK1 antibody. Treatment of rat microglia with galantamine significantly enhanced microglial Aβ phagocytosis, and acetylcholine competitive antagonists as well as FK1 antibody inhibited the enhancement. Thus, the galantamine-enhanced microglial Aβ phagocytosis required the combined actions of an acetylcholine competitive agonist and the APL for nAChRs. Indeed, depletion of choline, an acetylcholine-competitive α7 nAChR agonist, from the culture medium impeded the enhancement. Similarly, Ca2+ depletion or inhibition of the calmodulin-dependent pathways for the actin reorganization abolished the enhancement. These results suggest that galantamine sensitizes microglial α7 nAChRs to choline and induces Ca2+ influx into microglia. The Ca2+-induced intracellular signaling cascades may then stimulate Aβ phagocytosis through the actin reorganization. We further demonstrated that galantamine treatment facilitated Aβ clearance in brains of rodent AD models. In conclusion, we propose a further advantage of galantamine in clinical AD treatment and microglial nAChRs as a new therapeutic target.
doi_str_mv	10.1074/jbc.M110.142356
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Galantamine is an acetylcholinesterase inhibitor approved for symptomatic treatment of AD. Galantamine also acts as an allosterically potentiating ligand (APL) for nicotinic acetylcholine receptors (nAChRs). APL-binding site is located close to but distinct from that for acetylcholine on nAChRs, and FK1 antibody specifically binds to the APL-binding site without interfering with the acetylcholine-binding site. We found that in human AD brain, microglia accumulated on Aβ deposits and expressed α7 nAChRs including the APL-binding site recognized with FK1 antibody. Treatment of rat microglia with galantamine significantly enhanced microglial Aβ phagocytosis, and acetylcholine competitive antagonists as well as FK1 antibody inhibited the enhancement. Thus, the galantamine-enhanced microglial Aβ phagocytosis required the combined actions of an acetylcholine competitive agonist and the APL for nAChRs. Indeed, depletion of choline, an acetylcholine-competitive α7 nAChR agonist, from the culture medium impeded the enhancement. Similarly, Ca2+ depletion or inhibition of the calmodulin-dependent pathways for the actin reorganization abolished the enhancement. These results suggest that galantamine sensitizes microglial α7 nAChRs to choline and induces Ca2+ influx into microglia. The Ca2+-induced intracellular signaling cascades may then stimulate Aβ phagocytosis through the actin reorganization. We further demonstrated that galantamine treatment facilitated Aβ clearance in brains of rodent AD models. 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Indeed, depletion of choline, an acetylcholine-competitive α7 nAChR agonist, from the culture medium impeded the enhancement. Similarly, Ca2+ depletion or inhibition of the calmodulin-dependent pathways for the actin reorganization abolished the enhancement. These results suggest that galantamine sensitizes microglial α7 nAChRs to choline and induces Ca2+ influx into microglia. The Ca2+-induced intracellular signaling cascades may then stimulate Aβ phagocytosis through the actin reorganization. We further demonstrated that galantamine treatment facilitated Aβ clearance in brains of rodent AD models. 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subjects	Actin Allosterically Potentiating Ligand Alzheimer Disease Amyloid Galantamine Microglia Molecular Bases of Disease Nicotinic Acetylcholine Receptors Phagocytosis
title	Galantamine-induced Amyloid-β Clearance Mediated via Stimulation of Microglial Nicotinic Acetylcholine Receptors
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