Evaluation of AZD1446 as a Therapeutic in DYT1 Dystonia

Evaluation of AZD1446 as a Therapeutic in DYT1 Dystonia

DYT1 dystonia is an early-onset, hyperkinetic movement disorder caused by a deletion in the gene TOR1A, which encodes the protein torsinA. Several lines of evidence show that in animal models of DTY1 dystonia, there is impaired basal dopamine (DA) release and enhanced acetylcholine tone. Clinically,...

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Main Authors: Chelsea N. Zimmerman, Karen L. Eskow Jaunarajs, Maria Meringolo, Francesca R. Rizzo, Massimo Santoro, David G. Standaert, Antonio Pisani
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-06-01
Series:Frontiers in Systems Neuroscience
Subjects:
AZD1446
nicotine
DYT1
dystonia
cholinergic interneurons
dopamine
Online Access:http://journal.frontiersin.org/article/10.3389/fnsys.2017.00043/full
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spelling doaj-6823d9863bf647e2aed3be29cfb972b02020-11-24T22:50:19ZengFrontiers Media S.A.Frontiers in Systems Neuroscience1662-51372017-06-011110.3389/fnsys.2017.00043261288Evaluation of AZD1446 as a Therapeutic in DYT1 DystoniaChelsea N. Zimmerman0Karen L. Eskow Jaunarajs1Maria Meringolo2Maria Meringolo3Francesca R. Rizzo4Massimo Santoro5David G. Standaert6Antonio Pisani7Antonio Pisani8Center for Neurodegeneration and Experimental Therapeutics, Department of Neurology, University of Alabama-BirminghamBirmingham, AL, United StatesCenter for Neurodegeneration and Experimental Therapeutics, Department of Neurology, University of Alabama-BirminghamBirmingham, AL, United StatesNeurophysiology and Plasticity Laboratory, Fondazione Santa Lucia IRCCSRome, ItalyDepartment of Systems Medicine, University of Rome Tor VergataRome, ItalyNeurophysiology and Plasticity Laboratory, Fondazione Santa Lucia IRCCSRome, ItalyDepartment of Neuroscience, Fondazione Don GnocchiMilan, ItalyCenter for Neurodegeneration and Experimental Therapeutics, Department of Neurology, University of Alabama-BirminghamBirmingham, AL, United StatesNeurophysiology and Plasticity Laboratory, Fondazione Santa Lucia IRCCSRome, ItalyDepartment of Systems Medicine, University of Rome Tor VergataRome, ItalyDYT1 dystonia is an early-onset, hyperkinetic movement disorder caused by a deletion in the gene TOR1A, which encodes the protein torsinA. Several lines of evidence show that in animal models of DTY1 dystonia, there is impaired basal dopamine (DA) release and enhanced acetylcholine tone. Clinically, anticholinergic drugs are the most effective pharmacological treatment for DYT1 dystonia, but the currently used agents are non-selective muscarinic antagonists and associated with side effects. We used a DYT1 ∆GAG knock-in mouse model (DYT1 KI) to investigate whether nicotine and/or a non-desensitizing nicotinic agonist, AZD1446, would increase DA output in DYT1 dystonia. Using in vivo microdialysis, we found that DYT1 KI mice showed significantly increased DA output and greater sensitivity to nicotine compared to wild type (WT) littermate controls. In contrast, neither systemic injection (0.25–0.75 mg/kg) or intrastriatal infusion (30 μM–1 mM) of AZD1446 had a significant effect on DA efflux in WT or DYT1 KI mice. In vitro, we found that AZD1446 had no effect on the membrane properties of striatal spiny projection neurons (SPNs) and did not alter the spontaneous firing of ChI interneurons in either WT or DYT1 KI mice. We did observe that the firing frequency of dopaminergic neurons was significantly increased by AZD1446 (10 μM), an effect blocked by dihydro-beta-erythroidine (DHβE 3 μM), but the effect was similar in WT and DYT1 KI mice. Our results support the view that DYT1 models are associated with abnormal striatal cholinergic transmission, and that the DYT1 KI animals have enhanced sensitivity to nicotine. We found little effect of AZD1446 in this model, suggesting that other approaches to nicotinic modulation should be explored.http://journal.frontiersin.org/article/10.3389/fnsys.2017.00043/fullAZD1446nicotineDYT1dystoniacholinergic interneuronsdopamine
collection DOAJ
language English
format Article
sources DOAJ
author Chelsea N. Zimmerman
Karen L. Eskow Jaunarajs
Maria Meringolo
Maria Meringolo
Francesca R. Rizzo
Massimo Santoro
David G. Standaert
Antonio Pisani
Antonio Pisani
spellingShingle Chelsea N. Zimmerman
Karen L. Eskow Jaunarajs
Maria Meringolo
Maria Meringolo
Francesca R. Rizzo
Massimo Santoro
David G. Standaert
Antonio Pisani
Antonio Pisani
Evaluation of AZD1446 as a Therapeutic in DYT1 Dystonia
Frontiers in Systems Neuroscience
AZD1446
nicotine
DYT1
dystonia
cholinergic interneurons
dopamine
author_facet Chelsea N. Zimmerman
Karen L. Eskow Jaunarajs
Maria Meringolo
Maria Meringolo
Francesca R. Rizzo
Massimo Santoro
David G. Standaert
Antonio Pisani
Antonio Pisani
author_sort Chelsea N. Zimmerman
title Evaluation of AZD1446 as a Therapeutic in DYT1 Dystonia
title_short Evaluation of AZD1446 as a Therapeutic in DYT1 Dystonia
title_full Evaluation of AZD1446 as a Therapeutic in DYT1 Dystonia
title_fullStr Evaluation of AZD1446 as a Therapeutic in DYT1 Dystonia
title_full_unstemmed Evaluation of AZD1446 as a Therapeutic in DYT1 Dystonia
title_sort evaluation of azd1446 as a therapeutic in dyt1 dystonia
publisher Frontiers Media S.A.
series Frontiers in Systems Neuroscience
issn 1662-5137
publishDate 2017-06-01
description DYT1 dystonia is an early-onset, hyperkinetic movement disorder caused by a deletion in the gene TOR1A, which encodes the protein torsinA. Several lines of evidence show that in animal models of DTY1 dystonia, there is impaired basal dopamine (DA) release and enhanced acetylcholine tone. Clinically, anticholinergic drugs are the most effective pharmacological treatment for DYT1 dystonia, but the currently used agents are non-selective muscarinic antagonists and associated with side effects. We used a DYT1 ∆GAG knock-in mouse model (DYT1 KI) to investigate whether nicotine and/or a non-desensitizing nicotinic agonist, AZD1446, would increase DA output in DYT1 dystonia. Using in vivo microdialysis, we found that DYT1 KI mice showed significantly increased DA output and greater sensitivity to nicotine compared to wild type (WT) littermate controls. In contrast, neither systemic injection (0.25–0.75 mg/kg) or intrastriatal infusion (30 μM–1 mM) of AZD1446 had a significant effect on DA efflux in WT or DYT1 KI mice. In vitro, we found that AZD1446 had no effect on the membrane properties of striatal spiny projection neurons (SPNs) and did not alter the spontaneous firing of ChI interneurons in either WT or DYT1 KI mice. We did observe that the firing frequency of dopaminergic neurons was significantly increased by AZD1446 (10 μM), an effect blocked by dihydro-beta-erythroidine (DHβE 3 μM), but the effect was similar in WT and DYT1 KI mice. Our results support the view that DYT1 models are associated with abnormal striatal cholinergic transmission, and that the DYT1 KI animals have enhanced sensitivity to nicotine. We found little effect of AZD1446 in this model, suggesting that other approaches to nicotinic modulation should be explored.
topic AZD1446
nicotine
DYT1
dystonia
cholinergic interneurons
dopamine
url http://journal.frontiersin.org/article/10.3389/fnsys.2017.00043/full
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