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Decreased glucocerebrosidase activity and substrate accumulation of glycosphingolipids in a novel GBA1 D409V knock-in mouse model

by Shan, Weisong , Chen, Yi , Pellegrino, Lee J. , Dave, Kuldip D. , Drolet, Robert E. , Cosden, Mali , Dungan, Leo B. , Clark, Sean W. , Gareus, Ralph , Ellsworth, Gregory D. , Herberth, Mark , Switzer, Robert , Hirst, Warren D. , Ahmad, Syed O. , Buckett, Peter D. , Sasner, Michael , Gorodinsky, Alexander , Kandebo, Monika , Polinski, Nicole K. , Martinez, Terina N.

in Accumulation / Alzheimer's disease / Animal models / Anosmia / Basal ganglia / Biology and Life Sciences / Biotechnology / Brain diseases / Cell culture / Central nervous system diseases / Cognitive ability / Dementia / Dopamine / Dopamine D4 receptors / Enzymes / Fox, Michael J / Genetic aspects / Glucosylceramidase / Glycolipids / Glycosphingolipids / Health aspects / Hydrolases / Laboratories / Medical treatment / Medicine and Health Sciences / Movement disorders / Mutation / Neostriatum / Neurotransmitters / Parkinson's disease / Pathology / Research and Analysis Methods / Rigidity / Signs and symptoms / Substantia nigra / Substrates / Synuclein / Transgenic mice / Tremor

2021

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Decreased glucocerebrosidase activity and substrate accumulation of glycosphingolipids in a novel GBA1 D409V knock-in mouse model

2021

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Decreased glucocerebrosidase activity and substrate accumulation of glycosphingolipids in a novel GBA1 D409V knock-in mouse model

2021

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Journal Article

Decreased glucocerebrosidase activity and substrate accumulation of glycosphingolipids in a novel GBA1 D409V knock-in mouse model

Shan, Weisong,

Chen, Yi,

Pellegrino, Lee J.,

Dave, Kuldip D.,

Drolet, Robert E.,

Cosden, Mali,

Dungan, Leo B.,

Clark, Sean W.,

Gareus, Ralph,

Ellsworth, Gregory D.,

Herberth, Mark,

Switzer, Robert,

Hirst, Warren D.,

Ahmad, Syed O.,

Buckett, Peter D.,

Sasner, Michael,

Gorodinsky, Alexander,

Kandebo, Monika,

Polinski, Nicole K.,

Martinez, Terina N.

2021

Overview

Multiple mutations have been described in the human GBA1 gene, which encodes the lysosomal enzyme beta-glucocerebrosidase (GCase) that degrades glucosylceramide and is pivotal in glycosphingolipid substrate metabolism. Depletion of GCase, typically by homozygous mutations in GBA1 , is linked to the lysosomal storage disorder Gaucher’s disease (GD) and distinct or heterozygous mutations in GBA1 are associated with increased Parkinson’s disease (PD) risk. While numerous genes have been linked to heritable PD, GBA1 mutations in aggregate are the single greatest risk factor for development of idiopathic PD. The importance of GCase in PD necessitates preclinical models in which to study GCase-related mechanisms and novel therapeutic approaches, as well as to elucidate the molecular mechanisms leading to enhanced PD risk in GBA1 mutation carriers. The aim of this study was to develop and characterize a novel GBA1 mouse model and to facilitate wide accessibility of the model with phenotypic data. Herein we describe the results of molecular, biochemical, histological, and behavioral phenotyping analyses in a GBA1 D409V knock-in (KI) mouse. This mouse model exhibited significantly decreased GCase activity in liver and brain, with substantial increases in glycosphingolipid substrates in the liver. While no changes in the number of dopamine neurons in the substantia nigra were noted, subtle changes in striatal neurotransmitters were observed in GBA1 D409V KI mice. Alpha-synuclein pathology and inflammation were not observed in the nigrostriatal system of this model. In summary, the GBA1 D409V KI mouse model provides an ideal model for studies aimed at pharmacodynamic assessments of potential therapies aiming to restore GCase.

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Publisher

Public Library of Science,Public Library of Science (PLoS)

Subject

Accumulation

/ Alzheimer's disease

/ Animal models

/ Anosmia

/ Basal ganglia

/ Biology and Life Sciences

/ Biotechnology