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Hemispheric asymmetry in the human brain and in Parkinson’s disease is linked to divergent epigenetic patterns in neurons
Hemispheric asymmetry in the human brain and in Parkinson’s disease is linked to divergent epigenetic patterns in neurons
by Schilthuis, Meghan , Lamp, Jared , Labrie, Viviane , Ensink, Elizabeth , Li, Peipei , Lang, Sean , Marshall, Lee , Vega, Irving
in Aged / Aged, 80 and over / Aging / Aging - genetics / Animal Genetics and Genomics / Asymmetry / Bioinformatics / Biomedical and Life Sciences / bisulfites / Brain / Brain - metabolism / chromatin / Deoxyribonucleic acid / Disease / disease course / DNA / DNA Methylation / Enhancer / Epigenesis, Genetic / Epigenetics / Evolutionary Biology / Gene expression / genome / Genomes / Hemisphere asymmetry / Hemispheric laterality / Human Genetics / Humans / Life Sciences / Microbial Genetics and Genomics / Middle Aged / Movement disorders / Neurodegeneration / Neurodegenerative diseases / neurodevelopment / Neurons / Neurons - metabolism / Parkinson Disease - genetics / Parkinson Disease - metabolism / Parkinson's disease / Plant Genetics and Genomics / prefrontal cortex / Proteomics / Regression analysis / risk / synaptic transmission / Transcription, Genetic / transcriptomics
2020
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Hemispheric asymmetry in the human brain and in Parkinson’s disease is linked to divergent epigenetic patterns in neurons
by Schilthuis, Meghan , Lamp, Jared , Labrie, Viviane , Ensink, Elizabeth , Li, Peipei , Lang, Sean , Marshall, Lee , Vega, Irving
in Aged / Aged, 80 and over / Aging / Aging - genetics / Animal Genetics and Genomics / Asymmetry / Bioinformatics / Biomedical and Life Sciences / bisulfites / Brain / Brain - metabolism / chromatin / Deoxyribonucleic acid / Disease / disease course / DNA / DNA Methylation / Enhancer / Epigenesis, Genetic / Epigenetics / Evolutionary Biology / Gene expression / genome / Genomes / Hemisphere asymmetry / Hemispheric laterality / Human Genetics / Humans / Life Sciences / Microbial Genetics and Genomics / Middle Aged / Movement disorders / Neurodegeneration / Neurodegenerative diseases / neurodevelopment / Neurons / Neurons - metabolism / Parkinson Disease - genetics / Parkinson Disease - metabolism / Parkinson's disease / Plant Genetics and Genomics / prefrontal cortex / Proteomics / Regression analysis / risk / synaptic transmission / Transcription, Genetic / transcriptomics
2020
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Hemispheric asymmetry in the human brain and in Parkinson’s disease is linked to divergent epigenetic patterns in neurons
Hemispheric asymmetry in the human brain and in Parkinson’s disease is linked to divergent epigenetic patterns in neurons
by Schilthuis, Meghan , Lamp, Jared , Labrie, Viviane , Ensink, Elizabeth , Li, Peipei , Lang, Sean , Marshall, Lee , Vega, Irving
in Aged / Aged, 80 and over / Aging / Aging - genetics / Animal Genetics and Genomics / Asymmetry / Bioinformatics / Biomedical and Life Sciences / bisulfites / Brain / Brain - metabolism / chromatin / Deoxyribonucleic acid / Disease / disease course / DNA / DNA Methylation / Enhancer / Epigenesis, Genetic / Epigenetics / Evolutionary Biology / Gene expression / genome / Genomes / Hemisphere asymmetry / Hemispheric laterality / Human Genetics / Humans / Life Sciences / Microbial Genetics and Genomics / Middle Aged / Movement disorders / Neurodegeneration / Neurodegenerative diseases / neurodevelopment / Neurons / Neurons - metabolism / Parkinson Disease - genetics / Parkinson Disease - metabolism / Parkinson's disease / Plant Genetics and Genomics / prefrontal cortex / Proteomics / Regression analysis / risk / synaptic transmission / Transcription, Genetic / transcriptomics
2020

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Hemispheric asymmetry in the human brain and in Parkinson’s disease is linked to divergent epigenetic patterns in neurons
Hemispheric asymmetry in the human brain and in Parkinson’s disease is linked to divergent epigenetic patterns in neurons
Journal Article

Hemispheric asymmetry in the human brain and in Parkinson’s disease is linked to divergent epigenetic patterns in neurons

Schilthuis, Meghan,
Lamp, Jared,
Labrie, Viviane,
Ensink, Elizabeth,
Li, Peipei,
Lang, Sean,
Marshall, Lee,
Vega, Irving
2020
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Overview
Background Hemispheric asymmetry in neuronal processes is a fundamental feature of the human brain and drives symptom lateralization in Parkinson’s disease (PD), but its molecular determinants are unknown. Here, we identify divergent epigenetic patterns involved in hemispheric asymmetry by profiling DNA methylation in isolated prefrontal cortex neurons from control and PD brain hemispheres. DNA methylation is fine-mapped at enhancers and promoters, genome-wide, by targeted bisulfite sequencing in two independent sample cohorts. Results We find that neurons of the human prefrontal cortex exhibit hemispheric differences in DNA methylation. Hemispheric asymmetry in neuronal DNA methylation patterns is largely mediated by differential CpH methylation, and chromatin conformation analysis finds that it targets thousands of genes. With aging, there is a loss of hemispheric asymmetry in neuronal epigenomes, such that hemispheres epigenetically converge in late life. In neurons of PD patients, hemispheric asymmetry in DNA methylation is greater than in controls and involves many PD risk genes. Epigenetic, transcriptomic, and proteomic differences between PD hemispheres correspond to the lateralization of PD symptoms, with abnormalities being most prevalent in the hemisphere matched to side of symptom predominance. Hemispheric asymmetry and symptom lateralization in PD is linked to genes affecting neurodevelopment, immune activation, and synaptic transmission. PD patients with a long disease course have greater hemispheric asymmetry in neuronal epigenomes than those with a short disease course. Conclusions Hemispheric differences in DNA methylation patterns are prevalent in neurons and may affect the progression and symptoms of PD.
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Publisher
BioMed Central,Springer Nature B.V,BMC
Subject

Aged

/ Aged, 80 and over

/ Aging

/ Aging - genetics

/ Animal Genetics and Genomics

/ Asymmetry

/ Bioinformatics

/ Biomedical and Life Sciences

/ bisulfites

/ Brain

/ Brain - metabolism

/ chromatin

/ Deoxyribonucleic acid

/ Disease

/ disease course

/ DNA

/ DNA Methylation

/ Enhancer

/ Epigenesis, Genetic

/ Epigenetics

/ Evolutionary Biology

/ Gene expression

/ genome

/ Genomes

/ Hemisphere asymmetry

/ Hemispheric laterality

/ Human Genetics

/ Humans

/ Life Sciences

/ Microbial Genetics and Genomics

/ Middle Aged

/ Movement disorders

/ Neurodegeneration

/ Neurodegenerative diseases

/ neurodevelopment

/ Neurons

/ Neurons - metabolism

/ Parkinson Disease - genetics

/ Parkinson Disease - metabolism

/ Parkinson's disease

/ Plant Genetics and Genomics

/ prefrontal cortex

/ Proteomics

/ Regression analysis

/ risk

/ synaptic transmission

/ Transcription, Genetic

/ transcriptomics

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