Author
Listed:
- Cyril Addi
(Membrane Traffic and Cell Division Lab, Institut Pasteur, UMR3691, CNRS
Sorbonne Université, Collège doctoral)
- Adrien Presle
(Membrane Traffic and Cell Division Lab, Institut Pasteur, UMR3691, CNRS
Sorbonne Université, Collège doctoral)
- Stéphane Frémont
(Membrane Traffic and Cell Division Lab, Institut Pasteur, UMR3691, CNRS)
- Frédérique Cuvelier
(Membrane Traffic and Cell Division Lab, Institut Pasteur, UMR3691, CNRS)
- Murielle Rocancourt
(Membrane Traffic and Cell Division Lab, Institut Pasteur, UMR3691, CNRS)
- Florine Milin
(Membrane Traffic and Cell Division Lab, Institut Pasteur, UMR3691, CNRS)
- Sandrine Schmutz
(Institut Pasteur, UTechS CB)
- Julia Chamot-Rooke
(Institut Pasteur, Mass Spectrometry for Biology Unit, C2RT, USR 2000, CNRS)
- Thibaut Douché
(Institut Pasteur, Proteomics Platform, Mass Spectrometry for Biology, C2RT, USR 2000, CNRS)
- Magalie Duchateau
(Institut Pasteur, Proteomics Platform, Mass Spectrometry for Biology, C2RT, USR 2000, CNRS)
- Quentin Giai Gianetto
(Institut Pasteur, Proteomics Platform, Mass Spectrometry for Biology, C2RT, USR 2000, CNRS
Hub de Bioinformatique et Biostatistique – Département Biologie Computationnelle, Institut Pasteur, USR 3756 CNRS)
- Audrey Salles
(UTechS Photonic BioImaging PBI (Imagopole), Centre de Recherche et de Ressources Technologiques C2RT, Institut Pasteur)
- Hervé Ménager
(Hub de Bioinformatique et Biostatistique – Département Biologie Computationnelle, Institut Pasteur, USR 3756 CNRS)
- Mariette Matondo
(Institut Pasteur, Proteomics Platform, Mass Spectrometry for Biology, C2RT, USR 2000, CNRS)
- Pascale Zimmermann
(Centre de Recherche en Cancérologie de Marseille (CRCM), Equipe labellisée Ligue 2018, Aix-Marseille Université, Inserm, CNRS, Institut Paoli Calmettes
University of Leuven)
- Neetu Gupta-Rossi
(Membrane Traffic and Cell Division Lab, Institut Pasteur, UMR3691, CNRS)
- Arnaud Echard
(Membrane Traffic and Cell Division Lab, Institut Pasteur, UMR3691, CNRS)
Abstract
Cytokinesis requires the constriction of ESCRT-III filaments on the side of the midbody, where abscission occurs. After ESCRT recruitment at the midbody, it is not known how the ESCRT-III machinery localizes to the abscission site. To reveal actors involved in abscission, we obtained the proteome of intact, post-abscission midbodies (Flemmingsome) and identified 489 proteins enriched in this organelle. Among these proteins, we further characterized a plasma membrane-to-ESCRT module composed of the transmembrane proteoglycan syndecan-4, ALIX and syntenin, a protein that bridges ESCRT-III/ALIX to syndecans. The three proteins are highly recruited first at the midbody then at the abscission site, and their depletion delays abscission. Mechanistically, direct interactions between ALIX, syntenin and syndecan-4 are essential for proper enrichment of the ESCRT-III machinery at the abscission site, but not at the midbody. We propose that the ESCRT-III machinery must be physically coupled to a membrane protein at the cytokinetic abscission site for efficient scission, uncovering common requirements in cytokinesis, exosome formation and HIV budding.
Suggested Citation
Cyril Addi & Adrien Presle & Stéphane Frémont & Frédérique Cuvelier & Murielle Rocancourt & Florine Milin & Sandrine Schmutz & Julia Chamot-Rooke & Thibaut Douché & Magalie Duchateau & Quentin Giai Gi, 2020.
"The Flemmingsome reveals an ESCRT-to-membrane coupling via ALIX/syntenin/syndecan-4 required for completion of cytokinesis,"
Nature Communications, Nature, vol. 11(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15205-z
DOI: 10.1038/s41467-020-15205-z
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