lncRNA Functional Networks in Oligodendrocytes Reveal Stage-Specific Myelination Control by an lncOL1 /Suz12 Complex in the CNS

He, Danyang; Wang, Jincheng; Lu, Yulan; Deng, Yaqi; Zhao, Chuntao; Xu, Lei; Chen, Yinhuai; Hu, Yueh Chiang; Zhou, Wenhao; Lü, Qing

doi:10.1016/j.neuron.2016.11.044

Cited by 115 publications

(124 citation statements)

References 52 publications

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“…It has been shown that Wave1/Wsf1 knockout in mice leads to fewer OL processes per cell and hypomyelination in the white matter (Kim et al, ). Despite the fact that no significant correlation was found between Pcdh17 and Pcdh17it expression by an earlier bioinformatics analysis (He et al, ), we discovered that they are largely co‐expressed in imOLs (Figure S5e,f; A. Fudge and H. Li unpublished observations). Taken together, the available evidence suggests that Pcdh17 might take part in the initiation of myelination by regulating f‐actin assembly while Pcdh17it might fine‐tune the level of Pcdh17 expression.…”

Section: Discussioncontrasting

confidence: 69%

“…We provide evidence that Pcdh17it is specifically expressed in imOLs and is present in cytoplasm and/or nucleus (Figure ). Pcdh17it (also known as 9630013A20Rik or lncOL1 ) was reported to regulate OL differentiation through interaction with polycomb repressive complex 2 (Prc2) via Suz12 (He et al, ). The Pcdh17it gene lies inside intron 1 of the Pcdh17 gene (encoding cell–cell adhesion molecule Protocadherin 17), in the antisense direction, on mouse chromosome 14.…”

Section: Discussionmentioning

confidence: 99%

“…Here, tapping into available data, we identify an OL lineage‐specific long noncoding RNA (lncRNA; Zhang et al, ) that is down‐regulated in myelinating OLs and provide evidence that this lncRNA (named Pcdh17it ) is a specific marker for immature, premyelinating imOLs. This lncRNA has previously been named 9630013A20Rik (Zeisel et al, ), lncOL1 (He et al, ), and Pcdh17it (Marques et al, ), and we adopt the name Pcdh17it in accord with the guidelines of the HUGO Gene Nomenclature Committee (Wright, ). In addition, we show that Pcdh17it expressing cells in adult mouse brain are newly generated cells and, with the help of this new marker, we demonstrate OL generation over the lifespan in mouse forebrain.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of a long noncoding RNA Pcdh17it as a novel marker for immature premyelinating oligodendrocytes

Kasuga

Fudge

Zhang

et al. 2019

Glia

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Oligodendrocyte precursors (OPs) proliferate and differentiate into oligodendrocytes (OLs) during postnatal development and into adulthood in the central nervous system (CNS). Following the initiation of differentiation, OPs give rise to immature, premyelinating OLs, which undergo further differentiation and mature into myelin‐forming OLs. We identified an immature OL‐specific long noncoding RNA, named Pcdh17it. Through co‐localization analysis and morphological characterization of OLs, we found that Pcdh17it is a specific marker for newly born immature OLs in the developing and adult forebrain of mice, and we used this new marker to analyze OL generation over the lifespan of mice. Pcdh17it is an effective tool for monitoring newly born OLs in adult brain, allowing detailed study of the dynamics of OP differentiation into OLs in the normal and pathological CNS.

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Section: Discussioncontrasting

confidence: 69%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Characterization of a long noncoding RNA Pcdh17it as a novel marker for immature premyelinating oligodendrocytes

Kasuga

Fudge

Zhang

et al. 2019

Glia

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“…Emerging evidence indicates that lncRNAs not only participate in autoimmune diseases including systemic lupus erythematosus (SLE), rheumatoid arthritis (RA) and psoriasis [25-27], but also play important roles in CNS development, homeostasis, stress responses, and plasticity [28]. Recent work points to the role of lncRNAs in oligodendrocyte precursor cell (OPC) differentiation from neural stem cells (NSCs), myelination and remyelination in the CNS [29, 30]. lncRNA (Malat1) displays anti–apoptotic and anti-inflammatory roles in microvasculature structure of the brain to reduce ischemic brain injury [31].…”

Section: Discussionmentioning

confidence: 99%

Analysis of Long Noncoding RNA and mRNA Expression Profiles in IL-9-Activated Astrocytes and EAE Mice

Liu

Zhang

Wang

et al. 2018

Cell Physiol Biochem

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Background/Aims: Multiple sclerosis (MS) is an autoimmune disease in the central nervous system associated with demyelination and axonal injury. Astrocyte activation is involved in the pathogenesis of MS and experimental autoimmune encephalomyelitis (EAE), an animal model of MS. This study was designed to find potential lncRNAs in EAE mice and activated astrocytes. Methods: we performed microarray analysis of lncRNAs from the brain tissues of EAE mice and primary mouse astrocytes treated with IL-9(50 ng/ml). 12 lncRNAs were validated through real-time PCR. Gene ontology and KEGG pathway analysis were applied to explore the potential functions of lncRNAs. Results: Differentially expressed 3300 lncRNAs and 3250 mRNAs were in the brain tissues of EAE mice, and 3748 lncRNAs and 3332 mRNAs were in activated astrocytes. Notably, there were 2 co-up-regulated lncRNAs and 3 co-down-regulated lncRNAs both in the brain tissues of EAE mice and in activated astrocytes, including Gm14005, Gm12478, mouselincRNA1117, AK080435, and mouselincRNA0681, which regulate the ER calcium flux kinetics, zinc finger protein and cell apoptosis. Similarly, there were 7 mRNAs co-up-regulated and 2 mRNAs co-down-regulated both in vivo and in vitro. Gene ontology and KEGG pathway analysis showed that the biological functions of differentially expressed mRNAs were associated with metabolism, development and inflammation. The results of realtime PCR validation were consistent with the data from the microarrays. Conclusions: Our data uncovered the expression profiles of lncRNAs and mRNAs in vivo and in vitro, which may help delineate the mechanisms of astrocyte activation during MS/EAE process.

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“…Histone methyltransfereases (HMT) like Ezh2 in the PRC2 complex can cause chromatin compaction by trimethylation of histone K27, which leads to a repressive state . Ezh2 has been shown to promote murine oligodendrocyte proliferation from NSCs in vitro [Sher et al ., 2008], while deletion of the murine Ezh2 in Olig1 + early progenitors led to dramatic reduction in mature oligodendrocytes and myelination in mice .…”

Section: Atp‐dependent Remodelers In Oligodendrocyte Specification Lmentioning

confidence: 99%

Epigenetic modifications—insight into oligodendrocyte lineage progression, regeneration, and disease

Gregath

2018

FEBS Letters

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Edited by Wilhelm JustMyelination by oligodendrocytes in the central nervous system permits highfidelity saltatory conduction from neuronal cell bodies to axon terminals. Dysmyelinating and demyelinating disorders impair normal nervous system functions. Consequently, an understanding of oligodendrocyte differentiation that moves beyond the genetic code into the field of epigenetics is essential. Chromatin reprogramming is critical for steering stage-specific differentiation processes during oligodendrocyte development. Fine temporal control of chromatin remodeling through ATP-dependent chromatin remodelers and sequential histone modifiers shapes a chromatin regulatory landscape conducive to oligodendrocyte fate specification, lineage differentiation, and maintenance of cell identity. In this Review, we will focus on the biological functions of ATPdependent chromatin remodelers and histone deacetylases in myelinating oligodendrocyte development and implications for myelin regeneration in neurodegenerative diseases.

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lncRNA Functional Networks in Oligodendrocytes Reveal Stage-Specific Myelination Control by an lncOL1 /Suz12 Complex in the CNS

Cited by 115 publications

References 52 publications

Characterization of a long noncoding RNA Pcdh17it as a novel marker for immature premyelinating oligodendrocytes

Characterization of a long noncoding RNA Pcdh17it as a novel marker for immature premyelinating oligodendrocytes

Analysis of Long Noncoding RNA and mRNA Expression Profiles in IL-9-Activated Astrocytes and EAE Mice

Epigenetic modifications—insight into oligodendrocyte lineage progression, regeneration, and disease

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