Literature DB >> 27058446

Biallelic Mutations in PDE10A Lead to Loss of Striatal PDE10A and a Hyperkinetic Movement Disorder with Onset in Infancy.

Christine P Diggle1, Stacey J Sukoff Rizzo2, Michael Popiolek2, Reetta Hinttala3, Jan-Philip Schülke2, Manju A Kurian4, Ian M Carr1, Alexander F Markham1, David T Bonthron1, Christopher Watson1, Saghira Malik Sharif1, Veronica Reinhart2, Larry C James2, Michelle A Vanase-Frawley5, Erik Charych2, Melanie Allen5, John Harms2, Christopher J Schmidt2, Joanne Ng6, Karen Pysden7, Christine Strick2, Päivi Vieira8, Katariina Mankinen9, Hannaleena Kokkonen10, Matti Kallioinen11, Raija Sormunen12, Juha O Rinne13, Jarkko Johansson14, Kati Alakurtti15, Laura Huilaja16, Tiina Hurskainen16, Kaisa Tasanen16, Eija Anttila8, Tiago Reis Marques17, Oliver Howes18, Marius Politis19, Somayyeh Fahiminiya20, Khanh Q Nguyen21, Jacek Majewski20, Johanna Uusimaa22, Eamonn Sheridan23, Nicholas J Brandon24.   

Abstract

Deficits in the basal ganglia pathways modulating cortical motor activity underlie both Parkinson disease (PD) and Huntington disease (HD). Phosphodiesterase 10A (PDE10A) is enriched in the striatum, and animal data suggest that it is a key regulator of this circuitry. Here, we report on germline PDE10A mutations in eight individuals from two families affected by a hyperkinetic movement disorder due to homozygous mutations c.320A>G (p.Tyr107Cys) and c.346G>C (p.Ala116Pro). Both mutations lead to a reduction in PDE10A levels in recombinant cellular systems, and critically, positron-emission-tomography (PET) studies with a specific PDE10A ligand confirmed that the p.Tyr107Cys variant also reduced striatal PDE10A levels in one of the affected individuals. A knock-in mouse model carrying the homologous p.Tyr97Cys variant had decreased striatal PDE10A and also displayed motor abnormalities. Striatal preparations from this animal had an impaired capacity to degrade cyclic adenosine monophosphate (cAMP) and a blunted pharmacological response to PDE10A inhibitors. These observations highlight the critical role of PDE10A in motor control across species.
Copyright © 2016 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.

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Year:  2016        PMID: 27058446      PMCID: PMC4833436          DOI: 10.1016/j.ajhg.2016.03.015

Source DB:  PubMed          Journal:  Am J Hum Genet        ISSN: 0002-9297            Impact factor:   11.025


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