N6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s disease

N6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s disease

Abstract Background N6-methyladenosine (m6A) modification is known to impact many aspects of RNA metabolism, including mRNA stability and translation, and is highly prevalent in the brain. Results We show that m6A modification displays temporal and spatial dynamics during neurodevelopment and aging....

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Main Authors: Andrew M. Shafik, Feiran Zhang, Zhenxing Guo, Qing Dai, Kinga Pajdzik, Yangping Li, Yunhee Kang, Bing Yao, Hao Wu, Chuan He, Emily G. Allen, Ranhui Duan, Peng Jin
Format: Article
Language:English
Published: BMC 2021-01-01
Series:Genome Biology
Subjects:
Epitranscriptomics
m6A
Neurodevelopment
Aging
Alzheimer’s
Regulation of mRNA levels
Online Access:https://doi.org/10.1186/s13059-020-02249-z
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spelling doaj-cea64a1bde4e4e2a803a490e79c908882021-01-10T12:58:56ZengBMCGenome Biology1474-760X2021-01-0122111910.1186/s13059-020-02249-zN6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s diseaseAndrew M. Shafik0Feiran Zhang1Zhenxing Guo2Qing Dai3Kinga Pajdzik4Yangping Li5Yunhee Kang6Bing Yao7Hao Wu8Chuan He9Emily G. Allen10Ranhui Duan11Peng Jin12Department of Human Genetics, School of Medicine, Emory UniversityDepartment of Human Genetics, School of Medicine, Emory UniversityDepartment of Biostatistics and Bioinformatics, School of Public Health, Emory UniversityDepartment of Chemistry, University of ChicagoDepartment of Chemistry, University of ChicagoDepartment of Human Genetics, School of Medicine, Emory UniversityDepartment of Human Genetics, School of Medicine, Emory UniversityDepartment of Human Genetics, School of Medicine, Emory UniversityDepartment of Biostatistics and Bioinformatics, School of Public Health, Emory UniversityDepartment of Chemistry, University of ChicagoDepartment of Human Genetics, School of Medicine, Emory UniversityCenter for Medical Genetics, School of Life Sciences, Central South UniversityDepartment of Human Genetics, School of Medicine, Emory UniversityAbstract Background N6-methyladenosine (m6A) modification is known to impact many aspects of RNA metabolism, including mRNA stability and translation, and is highly prevalent in the brain. Results We show that m6A modification displays temporal and spatial dynamics during neurodevelopment and aging. Genes that are temporally differentially methylated are more prone to have mRNA expression changes and affect many pathways associated with nervous system development. Furthermore, m6A shows a distinct tissue-specific methylation profile, which is most pronounced in the hypothalamus. Tissue-specific methylation is associated with an increase in mRNA expression and is associated with tissue-specific developmental processes. During the aging process, we observe significantly more m6A sites as age increases, in both mouse and human. We show a high level of overlap between mouse and human; however, humans at both young and old ages consistently show more m6A sites compared to mice. Differential m6A sites are found to be enriched in alternative untranslated regions of genes that affect aging-related pathways. These m6A sites are associated with a strong negative effect on mRNA expression. We also show that many Alzheimer-related transcripts exhibit decreased m6A methylation in a mouse model of Alzheimer’s disease, which is correlated with reduced protein levels. Conclusions Our results suggest that m6A exerts a critical function in both early and late brain development in a spatio-temporal fashion. Furthermore, m6A controls protein levels of key genes involved in Alzheimer’s disease-associated pathways, suggesting that m6A plays an important role in aging and neurodegenerative disease.https://doi.org/10.1186/s13059-020-02249-zEpitranscriptomicsm6ANeurodevelopmentAgingAlzheimer’sRegulation of mRNA levels
collection DOAJ
language English
format Article
sources DOAJ
author Andrew M. Shafik
Feiran Zhang
Zhenxing Guo
Qing Dai
Kinga Pajdzik
Yangping Li
Yunhee Kang
Bing Yao
Hao Wu
Chuan He
Emily G. Allen
Ranhui Duan
Peng Jin
spellingShingle Andrew M. Shafik
Feiran Zhang
Zhenxing Guo
Qing Dai
Kinga Pajdzik
Yangping Li
Yunhee Kang
Bing Yao
Hao Wu
Chuan He
Emily G. Allen
Ranhui Duan
Peng Jin
N6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s disease
Genome Biology
Epitranscriptomics
m6A
Neurodevelopment
Aging
Alzheimer’s
Regulation of mRNA levels
author_facet Andrew M. Shafik
Feiran Zhang
Zhenxing Guo
Qing Dai
Kinga Pajdzik
Yangping Li
Yunhee Kang
Bing Yao
Hao Wu
Chuan He
Emily G. Allen
Ranhui Duan
Peng Jin
author_sort Andrew M. Shafik
title N6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s disease
title_short N6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s disease
title_full N6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s disease
title_fullStr N6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s disease
title_full_unstemmed N6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in Alzheimer’s disease
title_sort n6-methyladenosine dynamics in neurodevelopment and aging, and its potential role in alzheimer’s disease
publisher BMC
series Genome Biology
issn 1474-760X
publishDate 2021-01-01
description Abstract Background N6-methyladenosine (m6A) modification is known to impact many aspects of RNA metabolism, including mRNA stability and translation, and is highly prevalent in the brain. Results We show that m6A modification displays temporal and spatial dynamics during neurodevelopment and aging. Genes that are temporally differentially methylated are more prone to have mRNA expression changes and affect many pathways associated with nervous system development. Furthermore, m6A shows a distinct tissue-specific methylation profile, which is most pronounced in the hypothalamus. Tissue-specific methylation is associated with an increase in mRNA expression and is associated with tissue-specific developmental processes. During the aging process, we observe significantly more m6A sites as age increases, in both mouse and human. We show a high level of overlap between mouse and human; however, humans at both young and old ages consistently show more m6A sites compared to mice. Differential m6A sites are found to be enriched in alternative untranslated regions of genes that affect aging-related pathways. These m6A sites are associated with a strong negative effect on mRNA expression. We also show that many Alzheimer-related transcripts exhibit decreased m6A methylation in a mouse model of Alzheimer’s disease, which is correlated with reduced protein levels. Conclusions Our results suggest that m6A exerts a critical function in both early and late brain development in a spatio-temporal fashion. Furthermore, m6A controls protein levels of key genes involved in Alzheimer’s disease-associated pathways, suggesting that m6A plays an important role in aging and neurodegenerative disease.
topic Epitranscriptomics
m6A
Neurodevelopment
Aging
Alzheimer’s
Regulation of mRNA levels
url https://doi.org/10.1186/s13059-020-02249-z
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