Interplay between the plasma membrane and cell-cell adhesion maintains epithelial identity for correct polarised cell divisions
Interplay between the plasma membrane and cell-cell adhesion maintains epithelial identity for correct polarised cell divisions
Polarised epithelial cell divisions represent a fundamental mechanism for tissue maintenance and morphogenesis. Morphological and mechanical changes in the plasma membrane influence the organisation and crosstalk of microtubules and actin at the cell cortex, thereby regulating the mitotic spindle machinery and chromosome segregation. Yet, the precise mechanisms linking plasma membrane remodelling to cell polarity and cortical cytoskeleton dynamics to ensure accurate execution of mitosis in mammalian epithelial cells remain poorly understood. Here, we manipulated the density of mammary epithelial cells in culture, which led to several mitotic defects. Perturbation of cell-cell adhesion formation impairs the dynamics of the plasma membrane, affecting the shape and size of mitotic cells and resulting in defects in mitotic progression and the generation of daughter cells with aberrant architecture. In these conditions, F- actin-astral microtubule crosstalk is impaired, leading to mitotic spindle misassembly and misorientation, which in turn contributes to chromosome mis-segregation. Mechanistically, we identify S100 Ca2+-binding protein A11 (S100A11) as a key membrane-associated regulator that forms a complex with E-cadherin (CDH1) and the leucine-glycine-asparagine repeat protein LGN (also known as GPSM2) to coordinate plasma membrane remodelling with E-cadherin-mediated cell adhesion and LGN-dependent mitotic spindle machinery. Thus, plasma membrane-mediated maintenance of mammalian epithelial cell identity is crucial for correct execution of polarised cell divisions, genome maintenance and safeguarding tissue integrity.
Cell–cell adhesion, Chromosome segregation, Epithelial identity, Mitotic spindle, Plasma membrane remodelling, Polarised cell divisions, Cell-cell adhesion, INTRODUCTION
Hosawi, Manal M.
2a002947-9222-475d-b915-52bbc332ae5b
Cheng, Jiaoqi
c01eafe7-bfec-4b9c-9a3b-7d86f452cd67
Fankhaenel, Maria
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Przewloka, Marcin R.
9b25e73c-ec15-43df-a5a4-ac9574bb20ab
Elias, Salah
a9b11116-8efb-44b3-8241-2f0f2af847c3
1 March 2024
Hosawi, Manal M.
2a002947-9222-475d-b915-52bbc332ae5b
Cheng, Jiaoqi
c01eafe7-bfec-4b9c-9a3b-7d86f452cd67
Fankhaenel, Maria
f8f09d0e-8f56-4a25-a2f0-88ed28bb1fe2
Przewloka, Marcin R.
9b25e73c-ec15-43df-a5a4-ac9574bb20ab
Elias, Salah
a9b11116-8efb-44b3-8241-2f0f2af847c3
Hosawi, Manal M., Cheng, Jiaoqi, Fankhaenel, Maria, Przewloka, Marcin R. and Elias, Salah
(2024)
Interplay between the plasma membrane and cell-cell adhesion maintains epithelial identity for correct polarised cell divisions.
Journal of Cell Science, 137 (5).
(doi:10.1242/jcs.261701).
Abstract
Polarised epithelial cell divisions represent a fundamental mechanism for tissue maintenance and morphogenesis. Morphological and mechanical changes in the plasma membrane influence the organisation and crosstalk of microtubules and actin at the cell cortex, thereby regulating the mitotic spindle machinery and chromosome segregation. Yet, the precise mechanisms linking plasma membrane remodelling to cell polarity and cortical cytoskeleton dynamics to ensure accurate execution of mitosis in mammalian epithelial cells remain poorly understood. Here, we manipulated the density of mammary epithelial cells in culture, which led to several mitotic defects. Perturbation of cell-cell adhesion formation impairs the dynamics of the plasma membrane, affecting the shape and size of mitotic cells and resulting in defects in mitotic progression and the generation of daughter cells with aberrant architecture. In these conditions, F- actin-astral microtubule crosstalk is impaired, leading to mitotic spindle misassembly and misorientation, which in turn contributes to chromosome mis-segregation. Mechanistically, we identify S100 Ca2+-binding protein A11 (S100A11) as a key membrane-associated regulator that forms a complex with E-cadherin (CDH1) and the leucine-glycine-asparagine repeat protein LGN (also known as GPSM2) to coordinate plasma membrane remodelling with E-cadherin-mediated cell adhesion and LGN-dependent mitotic spindle machinery. Thus, plasma membrane-mediated maintenance of mammalian epithelial cell identity is crucial for correct execution of polarised cell divisions, genome maintenance and safeguarding tissue integrity.
Text
jcs261701
- Accepted Manuscript
More information
Accepted/In Press date: 17 October 2023
e-pub ahead of print date: 27 October 2023
Published date: 1 March 2024
Additional Information:
Publisher Copyright:
© 2024 Company of Biologists Ltd. All rights reserved.
Keywords:
Cell–cell adhesion, Chromosome segregation, Epithelial identity, Mitotic spindle, Plasma membrane remodelling, Polarised cell divisions, Cell-cell adhesion, INTRODUCTION
Identifiers
Local EPrints ID: 484893
URI: http://eprints.soton.ac.uk/id/eprint/484893
ISSN: 0021-9533
PURE UUID: dc759c7e-04fe-4cf6-b23e-13888cb36ba8
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Date deposited: 24 Nov 2023 17:30
Last modified: 27 Apr 2024 01:58
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Author:
Jiaoqi Cheng
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