Ependymal cell differentiation, from monociliated to multiciliated cells

Nathalie Delgehyr; Alice Meunier; Marion Faucourt; Montserrat Bosch Grau; Laetitia Strehl; Carsten Janke; Nathalie Spassky

doi:10.1016/bs.mcb.2015.01.004

Ependymal cell differentiation, from monociliated to multiciliated cells

Nathalie Delgehyr
, Alice Meunier
, Marion Faucourt
, Montserrat Bosch Grau
, Laetitia Strehl
, Carsten Janke
, Nathalie Spassky

École Polytechnique

PSL research University & IPSL
INSERM U869
Centre national de la recherche scientifique
Institut Curie
Institut Pasteur, Paris
AP-HP

Research output: Contribution to journal › Article › peer-review

Abstract

Primary and motile cilia differ in their structure, composition, and function. In the brain, primary cilia are immotile signalling organelles present on neural stem cells and neurons. Multiple motile cilia are found on the surface of ependymal cells in all brain ventricles, where they contribute to the flow of cerebrospinal fluid. During development, monociliated ependymal progenitor cells differentiate into multiciliated ependymal cells, thus providing a simple system for studying the transition between these two stages. In this chapter, we provide protocols for immunofluorescence staining of developing ependymal cells in vivo, on whole mounts of lateral ventricle walls, and in vitro, on cultured ependymal cells. We also provide a list of markers we currently use to stain both types of cilia, including proteins at the ciliary membrane and tubulin posttranslational modifications of the axoneme.

Original language	English
Pages (from-to)	19-35
Number of pages	17
Journal	Methods in Cell Biology
Volume	127
DOIs	https://doi.org/10.1016/bs.mcb.2015.01.004
Publication status	Published - 1 Jan 2015

Keywords

Ependymal cells
Multiciliated cells
Neural cells primary culture
Radial glial cells
Tubulin (poly)glutamylation
Tubulin (poly)glycylation
Tubulin detyrosination
Whole mount lateral ventricular walls

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10.1016/bs.mcb.2015.01.004

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title = "Ependymal cell differentiation, from monociliated to multiciliated cells",

abstract = "Primary and motile cilia differ in their structure, composition, and function. In the brain, primary cilia are immotile signalling organelles present on neural stem cells and neurons. Multiple motile cilia are found on the surface of ependymal cells in all brain ventricles, where they contribute to the flow of cerebrospinal fluid. During development, monociliated ependymal progenitor cells differentiate into multiciliated ependymal cells, thus providing a simple system for studying the transition between these two stages. In this chapter, we provide protocols for immunofluorescence staining of developing ependymal cells in vivo, on whole mounts of lateral ventricle walls, and in vitro, on cultured ependymal cells. We also provide a list of markers we currently use to stain both types of cilia, including proteins at the ciliary membrane and tubulin posttranslational modifications of the axoneme.",

keywords = "Ependymal cells, Multiciliated cells, Neural cells primary culture, Radial glial cells, Tubulin (poly)glutamylation, Tubulin (poly)glycylation, Tubulin detyrosination, Whole mount lateral ventricular walls",

author = "Nathalie Delgehyr and Alice Meunier and Marion Faucourt and Grau, \{Montserrat Bosch\} and Laetitia Strehl and Carsten Janke and Nathalie Spassky",

note = "Publisher Copyright: {\textcopyright} 2015 Elsevier Inc.",

year = "2015",

month = jan,

day = "1",

doi = "10.1016/bs.mcb.2015.01.004",

language = "English",

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T1 - Ependymal cell differentiation, from monociliated to multiciliated cells

AU - Delgehyr, Nathalie

AU - Meunier, Alice

AU - Faucourt, Marion

AU - Grau, Montserrat Bosch

AU - Strehl, Laetitia

AU - Janke, Carsten

AU - Spassky, Nathalie

PY - 2015/1/1

Y1 - 2015/1/1

N2 - Primary and motile cilia differ in their structure, composition, and function. In the brain, primary cilia are immotile signalling organelles present on neural stem cells and neurons. Multiple motile cilia are found on the surface of ependymal cells in all brain ventricles, where they contribute to the flow of cerebrospinal fluid. During development, monociliated ependymal progenitor cells differentiate into multiciliated ependymal cells, thus providing a simple system for studying the transition between these two stages. In this chapter, we provide protocols for immunofluorescence staining of developing ependymal cells in vivo, on whole mounts of lateral ventricle walls, and in vitro, on cultured ependymal cells. We also provide a list of markers we currently use to stain both types of cilia, including proteins at the ciliary membrane and tubulin posttranslational modifications of the axoneme.

AB - Primary and motile cilia differ in their structure, composition, and function. In the brain, primary cilia are immotile signalling organelles present on neural stem cells and neurons. Multiple motile cilia are found on the surface of ependymal cells in all brain ventricles, where they contribute to the flow of cerebrospinal fluid. During development, monociliated ependymal progenitor cells differentiate into multiciliated ependymal cells, thus providing a simple system for studying the transition between these two stages. In this chapter, we provide protocols for immunofluorescence staining of developing ependymal cells in vivo, on whole mounts of lateral ventricle walls, and in vitro, on cultured ependymal cells. We also provide a list of markers we currently use to stain both types of cilia, including proteins at the ciliary membrane and tubulin posttranslational modifications of the axoneme.

KW - Ependymal cells

KW - Multiciliated cells

KW - Neural cells primary culture

KW - Radial glial cells

KW - Tubulin (poly)glutamylation

KW - Tubulin (poly)glycylation

KW - Tubulin detyrosination

KW - Whole mount lateral ventricular walls

UR - https://www.scopus.com/pages/publications/84955364729

U2 - 10.1016/bs.mcb.2015.01.004

DO - 10.1016/bs.mcb.2015.01.004

M3 - Article

C2 - 25837384

AN - SCOPUS:84955364729

SN - 0091-679X

VL - 127

SP - 19

EP - 35

JO - Methods in Cell Biology

JF - Methods in Cell Biology

ER -

Ependymal cell differentiation, from monociliated to multiciliated cells

Abstract

Keywords

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