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Prominin-1 controls stem cell activation by orchestrating ciliary dynamics

Prominin-1 controls stem cell activation by orchestrating ciliary dynamics
Prominin-1 controls stem cell activation by orchestrating ciliary dynamics
Proper temporal and spatial activation of stem cells relies on highly coordinated cell signaling. The primary cilium is the sensory organelle that is responsible for transmitting extracellular signals into a cell. Primary cilium size, architecture, and assembly–disassembly dynamics are under rigid cell cycle-dependent control. Using mouse incisor tooth epithelia as a model, we show that ciliary dynamics in stem cells require the proper functions of a cholesterol-binding membrane glycoprotein, Prominin-1 (Prom1/CD133), which controls sequential recruitment of ciliary membrane components, histone deacetylase, and transcription factors. Nuclear translocation of Prom1 and these molecules is particularly evident in transit amplifying cells, the immediate derivatives of stem cells. The absence of Prom1 impairs ciliary dynamics and abolishes the growth stimulation effects of sonic hedgehog (SHH) treatment, resulting in the disruption of stem cell quiescence maintenance and activation. We propose that Prom1 is a key regulator ensuring appropriate response of stem cells to extracellular signals, with important implications for development, regeneration, and diseases.
CD133, cilia, sonic hedgehog, stem cells, tooth
0261-4189
Singer, Donald
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Thamm, Kristina
4895f407-1043-41b9-b2e3-1232618c86c4
Zhuang, Heng
c8a8f25f-1cdb-4344-b41e-043b26fa47cc
Gao, Yan
23154085-596b-483e-8c31-79916fca87ea
Wann, Angus K.T.
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Karbanová, Jana
5ada9e97-5378-4f42-8b26-cb59529676c8
Walker, Jemma Victoria
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Jin, Heng
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Wu, Xiangnan
94fd1c48-8550-407e-b600-39e54c8c11c6
Coveney, Clarissa R.
254cb939-73c7-462b-b3dc-ea2f38cbd9cc
Marangoni, Pauline
e4305751-221a-4e9c-9089-8e7a13ce2a95
Lu, Dongmei
6fdd9ed3-6117-43a1-9096-e8bca10dcc31
Grayson, Portia Rebecca Clare
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Gulsen, Tulay
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Liu, Karen J.
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Ardu, Stefano
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Corbeil, Denis
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Luo, Shouqing
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Zambon, Alexander C.
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Jetten, Anton M.
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Tredwin, Christopher
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Klein, Ophir D.
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Attanasio, Massimo
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Carmeliet, Peter
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Huttner, Wieland B.
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Hu, Bing
077182c9-214d-41b3-8c05-9ed86f145cd1
University of Plymouth
Singer, Donald
7aa05194-7ef1-431b-9a59-431f9b283af9
Thamm, Kristina
4895f407-1043-41b9-b2e3-1232618c86c4
Zhuang, Heng
c8a8f25f-1cdb-4344-b41e-043b26fa47cc
Gao, Yan
23154085-596b-483e-8c31-79916fca87ea
Wann, Angus K.T.
f1b0ea2f-dc8a-4588-a9d8-ae462ed0a993
Karbanová, Jana
5ada9e97-5378-4f42-8b26-cb59529676c8
Walker, Jemma Victoria
1fb157b3-f8f3-4888-856d-0cef117c3681
Jin, Heng
87e61298-d885-4d2d-90d8-ebf1fedd9bc8
Wu, Xiangnan
94fd1c48-8550-407e-b600-39e54c8c11c6
Coveney, Clarissa R.
254cb939-73c7-462b-b3dc-ea2f38cbd9cc
Marangoni, Pauline
e4305751-221a-4e9c-9089-8e7a13ce2a95
Lu, Dongmei
6fdd9ed3-6117-43a1-9096-e8bca10dcc31
Grayson, Portia Rebecca Clare
e4b8c968-8ffe-4877-9974-7be62545a943
Gulsen, Tulay
43928f17-cb9e-4f7a-b59d-35cedc19bdb7
Liu, Karen J.
03ea9d6d-ed81-4b86-9dfd-b12ccb3bd9a9
Ardu, Stefano
f5ea265d-17a3-4af6-b56d-3a0683169250
Corbeil, Denis
f2049bdf-94a6-46db-a914-5aee3d8f9649
Luo, Shouqing
27cb482a-9310-4118-86d2-2e16193365c5
Zambon, Alexander C.
8615129d-f1cf-4f61-98c6-b741e955220d
Jetten, Anton M.
571e0993-78d9-4790-b692-e000fa6a4178
Tredwin, Christopher
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Klein, Ophir D.
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Attanasio, Massimo
74561ff0-ebb1-4135-a951-0b639d260a96
Carmeliet, Peter
ab74091f-3211-40b8-b920-fa07a4aa0a8f
Huttner, Wieland B.
8b3b3f30-7d36-406b-b6fa-4f4e1094e7f0
Hu, Bing
077182c9-214d-41b3-8c05-9ed86f145cd1

Singer, Donald, Thamm, Kristina, Zhuang, Heng, Gao, Yan, Wann, Angus K.T. and Corbeil, Denis , University of Plymouth (2019) Prominin-1 controls stem cell activation by orchestrating ciliary dynamics. EMBO Journal, 38 (2), [e99845]. (doi:10.15252/embj.201899845).

Record type: Article

Abstract

Proper temporal and spatial activation of stem cells relies on highly coordinated cell signaling. The primary cilium is the sensory organelle that is responsible for transmitting extracellular signals into a cell. Primary cilium size, architecture, and assembly–disassembly dynamics are under rigid cell cycle-dependent control. Using mouse incisor tooth epithelia as a model, we show that ciliary dynamics in stem cells require the proper functions of a cholesterol-binding membrane glycoprotein, Prominin-1 (Prom1/CD133), which controls sequential recruitment of ciliary membrane components, histone deacetylase, and transcription factors. Nuclear translocation of Prom1 and these molecules is particularly evident in transit amplifying cells, the immediate derivatives of stem cells. The absence of Prom1 impairs ciliary dynamics and abolishes the growth stimulation effects of sonic hedgehog (SHH) treatment, resulting in the disruption of stem cell quiescence maintenance and activation. We propose that Prom1 is a key regulator ensuring appropriate response of stem cells to extracellular signals, with important implications for development, regeneration, and diseases.

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More information

Published date: 15 January 2019
Additional Information: Publisher Copyright: © 2018 The Authors. Published under the terms of the CC BY 4.0 license
Keywords: CD133, cilia, sonic hedgehog, stem cells, tooth
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Identifiers

Local EPrints ID: 492442
URI: http://eprints.soton.ac.uk/id/eprint/492442
DOI: doi:10.15252/embj.201899845
ISSN: 0261-4189
PURE UUID: 4ce5928d-1e44-45f6-a304-3398094c01bb
ORCID for Angus K.T. Wann: ORCID iD orcid.org/0000-0002-8224-8661

Catalogue record

Date deposited: 26 Jul 2024 16:56
Last modified: 27 Jul 2024 02:08

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Contributors

Author: Donald Singer
Author: Kristina Thamm
Author: Heng Zhuang
Author: Yan Gao
Author: Angus K.T. Wann ORCID iD
Author: Jana Karbanová
Author: Jemma Victoria Walker
Author: Heng Jin
Author: Xiangnan Wu
Author: Clarissa R. Coveney
Author: Pauline Marangoni
Author: Dongmei Lu
Author: Portia Rebecca Clare Grayson
Author: Tulay Gulsen
Author: Karen J. Liu
Author: Stefano Ardu
Author: Denis Corbeil
Author: Shouqing Luo
Author: Alexander C. Zambon
Author: Anton M. Jetten
Author: Christopher Tredwin
Author: Ophir D. Klein
Author: Massimo Attanasio
Author: Peter Carmeliet
Author: Wieland B. Huttner
Author: Bing Hu
Corporate Author: University of Plymouth

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