Single-cell transcriptomic analysis of oligodendrocyte lineage cells

•Several studies catalogued central nervous system cell types by bulk and single-cell RNA-seq.•An unexpected heterogeneity of oligodendrocyte lineage cells is starting to emerge.•Does a given cell cluster ultimately constitute a cell type or cell state?•Functional studies will be required to address...

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Published inCurrent opinion in neurobiology Vol. 47; pp. 168 - 175
Main Authors van Bruggen, David, Agirre, Eneritz, Castelo-Branco, Gonçalo
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.12.2017
Subjects
Animals
Cell Lineage - genetics
Central Nervous System - cytology
Gene Expression Profiling
Humans
Neural Stem Cells - cytology
Oligodendroglia - cytology
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Abstract •Several studies catalogued central nervous system cell types by bulk and single-cell RNA-seq.•An unexpected heterogeneity of oligodendrocyte lineage cells is starting to emerge.•Does a given cell cluster ultimately constitute a cell type or cell state?•Functional studies will be required to address whether a transcriptional state is constitutive or transient, and thus a cell type or state. Oligodendrocytes (OLs) are glial cells in the central nervous system (CNS), which produce myelin, a lipid-rich membrane that insulates neuronal axons. The main function ascribed to OLs is to regulate the speed of electric pulse transmission, and as such OLs have been widely considered as a single and discrete population. Nevertheless, OLs and their precursor cells (OPCs) throughout the CNS have different morphologies and regional functional differences have been observed. Moreover, OLs have recently been involved in other functional processes such as metabolic coupling with axons. In this review, we focus on recent advances in single-cell transcriptomics suggesting that OLs are more heterogeneous than previously thought, with defined subpopulations and cell states that are associated with different stages of lineage progression and might also represent distinct functional states.
AbstractList Oligodendrocytes (OLs) are glial cells in the central nervous system (CNS), which produce myelin, a lipid-rich membrane that insulates neuronal axons. The main function ascribed to OLs is to regulate the speed of electric pulse transmission, and as such OLs have been widely considered as a single and discrete population. Nevertheless, OLs and their precursor cells (OPCs) throughout the CNS have different morphologies and regional functional differences have been observed. Moreover, OLs have recently been involved in other functional processes such as metabolic coupling with axons. In this review, we focus on recent advances in single-cell transcriptomics suggesting that OLs are more heterogeneous than previously thought, with defined subpopulations and cell states that are associated with different stages of lineage progression and might also represent distinct functional states.
•Several studies catalogued central nervous system cell types by bulk and single-cell RNA-seq.•An unexpected heterogeneity of oligodendrocyte lineage cells is starting to emerge.•Does a given cell cluster ultimately constitute a cell type or cell state?•Functional studies will be required to address whether a transcriptional state is constitutive or transient, and thus a cell type or state. Oligodendrocytes (OLs) are glial cells in the central nervous system (CNS), which produce myelin, a lipid-rich membrane that insulates neuronal axons. The main function ascribed to OLs is to regulate the speed of electric pulse transmission, and as such OLs have been widely considered as a single and discrete population. Nevertheless, OLs and their precursor cells (OPCs) throughout the CNS have different morphologies and regional functional differences have been observed. Moreover, OLs have recently been involved in other functional processes such as metabolic coupling with axons. In this review, we focus on recent advances in single-cell transcriptomics suggesting that OLs are more heterogeneous than previously thought, with defined subpopulations and cell states that are associated with different stages of lineage progression and might also represent distinct functional states.
Oligodendrocytes (OLs) are glial cells in the central nervous system (CNS), which produce myelin, a lipid-rich membrane that insulates neuronal axons. The main function ascribed to OLs is to regulate the speed of electric pulse transmission, and as such OLs have been widely considered as a single and discrete population. Nevertheless, OLs and their precursor cells (OPCs) throughout the CNS have different morphologies and regional functional differences have been observed. Moreover, OLs have recently been involved in other functional processes such as metabolic coupling with axons. In this review, we focus on recent advances in single-cell transcriptomics suggesting that OLs are more heterogeneous than previously thought, with defined subpopulations and cell states that are associated with different stages of lineage progression and might also represent distinct functional states.Oligodendrocytes (OLs) are glial cells in the central nervous system (CNS), which produce myelin, a lipid-rich membrane that insulates neuronal axons. The main function ascribed to OLs is to regulate the speed of electric pulse transmission, and as such OLs have been widely considered as a single and discrete population. Nevertheless, OLs and their precursor cells (OPCs) throughout the CNS have different morphologies and regional functional differences have been observed. Moreover, OLs have recently been involved in other functional processes such as metabolic coupling with axons. In this review, we focus on recent advances in single-cell transcriptomics suggesting that OLs are more heterogeneous than previously thought, with defined subpopulations and cell states that are associated with different stages of lineage progression and might also represent distinct functional states.
Author Castelo-Branco, Gonçalo
Agirre, Eneritz
van Bruggen, David
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Snippet •Several studies catalogued central nervous system cell types by bulk and single-cell RNA-seq.•An unexpected heterogeneity of oligodendrocyte lineage cells is...
Oligodendrocytes (OLs) are glial cells in the central nervous system (CNS), which produce myelin, a lipid-rich membrane that insulates neuronal axons. The main...
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SubjectTerms Animals
Cell Lineage - genetics
Central Nervous System - cytology
Gene Expression Profiling
Humans
Neural Stem Cells - cytology
Oligodendroglia - cytology
Title Single-cell transcriptomic analysis of oligodendrocyte lineage cells
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