Mechanical strain stimulates COPII ‐dependent secretory trafficking via Rac1

Abstract: Cells are constantly exposed to various chemical and physical stimuli. While much has been learned about the biochemical factors that regulate secretory trafficking from the endoplasmic reticulum (ER), much less is known about whether and how this trafficking is subject to regulation by mechanical signals. Here, we show that subjecting cells to mechanical strain both induces the formation of ER exit sites (ERES) and accelerates ER‐to‐Golgi trafficking. We found that cells with impaired ERES function were less capable of expanding their surface area when placed under mechanical stress and were more prone to develop plasma membrane defects when subjected to stretching. Thus, coupling of ERES function to mechanotransduction appears to confer resistance of cells to mechanical stress. Furthermore, we show that the coupling of mechanotransduction to ERES formation was mediated via a previously unappreciated ER‐localized pool of the small GTPase Rac1. Mechanistically, we show that Rac1 interacts with the small GTPase Sar1 to drive budding of COPII carriers and stimulates ER‐to‐Golgi transport. This interaction therefore represents an unprecedented link between mechanical strain and export from the ER.

Standort
Deutsche Nationalbibliothek Frankfurt am Main
Umfang
Online-Ressource
Sprache
Englisch

Erschienen in
Mechanical strain stimulates COPII ‐dependent secretory trafficking via Rac1 ; day:08 ; month:08 ; year:2022 ; extent:20
The EMBO journal / European Molecular Biology Organization ; (08.08.2022) (gesamt 20)

Urheber
Phuyal, Santosh
Djaerff, Elena
Le Roux, Anabel‐Lise
Baker, Martin J.
Fankhauser, Daniela
Mahdizadeh, Sayyed Jalil
Reiterer, Veronika
Parizadeh, Amirabbas
Felder, Edward
Kahlhofer, Jennifer C.
Teis, David
Kazanietz, Marcelo G.
Geley, Stephan
Eriksson, Leif
Roca‐Cusachs, Pere
Farhan, Hesso

DOI
10.15252/embj.2022110596
URN
urn:nbn:de:101:1-2022080815271822427330
Rechteinformation
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Letzte Aktualisierung
15.08.2025, 07:38 MESZ

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Beteiligte

  • Phuyal, Santosh
  • Djaerff, Elena
  • Le Roux, Anabel‐Lise
  • Baker, Martin J.
  • Fankhauser, Daniela
  • Mahdizadeh, Sayyed Jalil
  • Reiterer, Veronika
  • Parizadeh, Amirabbas
  • Felder, Edward
  • Kahlhofer, Jennifer C.
  • Teis, David
  • Kazanietz, Marcelo G.
  • Geley, Stephan
  • Eriksson, Leif
  • Roca‐Cusachs, Pere
  • Farhan, Hesso

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