Emerging roles for long noncoding RNAs in learning, memory and associated disorders

•lncRNA expression and conservation patterns are distinct from those of mRNAs.•lncRNAs regulate the expression of genes important for learning and memory.•Aberrant expression of lncRNAs is related with disorders of memory. While protein-coding genes have been widely studied in learning and memory, t...

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Published inNeurobiology of learning and memory Vol. 163; p. 107034
Main Authors Grinman, Eddie, Espadas, Isabel, Puthanveettil, Sathyanarayanan V.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.09.2019
Subjects
Animals
Brain disorders
Cognition Disorders - metabolism
Gene expression
Hippocampus
Humans
Learning
Learning Disabilities - metabolism
Long non-coding RNAs
LTP
Memory
Memory Disorders - metabolism
RNA, Long Noncoding - metabolism
RNA, Long Noncoding - physiology
Synaptic plasticity
Learning
Long non-coding RNAs
Brain disorders
Memory
Synaptic plasticity
LTP
Gene expression
Hippocampus
Online AccessGet full text
ISSN1074-7427
1095-9564
1095-9564
DOI10.1016/j.nlm.2019.107034

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Abstract •lncRNA expression and conservation patterns are distinct from those of mRNAs.•lncRNAs regulate the expression of genes important for learning and memory.•Aberrant expression of lncRNAs is related with disorders of memory. While protein-coding genes have been widely studied in learning and memory, the role of the non-coding genome has only recently been investigated. With advances in high throughput sequencing technologies and functional profiling methods, multiple long noncoding RNAs (lncRNAs) have been functionally and mechanistically linked with neurobiological processes related with learning and memory, as well disorders that lead to memory impairment. However, these macromolecules are still a subject of controversy and intense scrutiny regarding the proper criteria for determining their functionality and their evolution in the central nervous system. Recent studies have implicated multiple lncRNAs as critical regulators of gene expression in the central nervous system and mediate learning processes. In this review, we explore possible explanations for how lncRNAs are evolved in our central nervous system, discuss our current understanding of their involvement in learning and memory related disorders, and describe emerging tools for studying lncRNAs.
AbstractList While protein-coding genes have been widely studied in learning and memory, the role of the non-coding genome has only recently been investigated. With advances in high throughput sequencing technologies and functional profiling methods, multiple long noncoding RNAs (lncRNAs) have been functionally and mechanistically linked with neurobiological processes related with learning and memory, as well disorders that lead to memory impairment. However, these macromolecules are still a subject of controversy and intense scrutiny regarding the proper criteria for determining their functionality and their evolution in the central nervous system. Recent studies have implicated multiple lncRNAs as critical regulators of gene expression in the central nervous system and mediate learning processes. In this review, we explore possible explanations for how lncRNAs are evolved in our central nervous system, discuss our current understanding of their involvement in learning and memory related disorders, and describe emerging tools for studying lncRNAs.While protein-coding genes have been widely studied in learning and memory, the role of the non-coding genome has only recently been investigated. With advances in high throughput sequencing technologies and functional profiling methods, multiple long noncoding RNAs (lncRNAs) have been functionally and mechanistically linked with neurobiological processes related with learning and memory, as well disorders that lead to memory impairment. However, these macromolecules are still a subject of controversy and intense scrutiny regarding the proper criteria for determining their functionality and their evolution in the central nervous system. Recent studies have implicated multiple lncRNAs as critical regulators of gene expression in the central nervous system and mediate learning processes. In this review, we explore possible explanations for how lncRNAs are evolved in our central nervous system, discuss our current understanding of their involvement in learning and memory related disorders, and describe emerging tools for studying lncRNAs.
While protein-coding genes have been widely studied in learning and memory, the role of the non-coding genome has only recently been investigated. With advances in high throughput sequencing technologies and functional profiling methods, multiple long noncoding RNAs (lncRNAs) have been functionally and mechanistically linked with neurobiological processes related with learning and memory, as well disorders that lead to memory impairment. However, these macromolecules are still a subject of controversy and intense scrutiny regarding the proper criteria for determining their functionality and their evolution in the central nervous system. Recent studies have implicated multiple lncRNAs as critical regulators of gene expression in the central nervous system and mediate learning processes. In this review, we explore possible explanations for how lncRNAs are evolved in our central nervous system, discuss our current understanding of their involvement in learning and memory related disorders, and describe emerging tools for studying lncRNAs.
•lncRNA expression and conservation patterns are distinct from those of mRNAs.•lncRNAs regulate the expression of genes important for learning and memory.•Aberrant expression of lncRNAs is related with disorders of memory. While protein-coding genes have been widely studied in learning and memory, the role of the non-coding genome has only recently been investigated. With advances in high throughput sequencing technologies and functional profiling methods, multiple long noncoding RNAs (lncRNAs) have been functionally and mechanistically linked with neurobiological processes related with learning and memory, as well disorders that lead to memory impairment. However, these macromolecules are still a subject of controversy and intense scrutiny regarding the proper criteria for determining their functionality and their evolution in the central nervous system. Recent studies have implicated multiple lncRNAs as critical regulators of gene expression in the central nervous system and mediate learning processes. In this review, we explore possible explanations for how lncRNAs are evolved in our central nervous system, discuss our current understanding of their involvement in learning and memory related disorders, and describe emerging tools for studying lncRNAs.
ArticleNumber 107034
Author Puthanveettil, Sathyanarayanan V.
Grinman, Eddie
Espadas, Isabel
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Keywords Learning
Long non-coding RNAs
Brain disorders
Memory
Synaptic plasticity
LTP
Gene expression
Hippocampus
Language English
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Snippet •lncRNA expression and conservation patterns are distinct from those of mRNAs.•lncRNAs regulate the expression of genes important for learning and...
While protein-coding genes have been widely studied in learning and memory, the role of the non-coding genome has only recently been investigated. With...
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SubjectTerms Animals
Brain disorders
Cognition Disorders - metabolism
Gene expression
Hippocampus
Humans
Learning
Learning Disabilities - metabolism
Long non-coding RNAs
LTP
Memory
Memory Disorders - metabolism
RNA, Long Noncoding - metabolism
RNA, Long Noncoding - physiology
Synaptic plasticity
Title Emerging roles for long noncoding RNAs in learning, memory and associated disorders
URI https://dx.doi.org/10.1016/j.nlm.2019.107034
https://www.ncbi.nlm.nih.gov/pubmed/31176693
https://www.proquest.com/docview/2251105736
Volume 163
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