Post-translational targeting of Rab35 by the effector IcsB of Shigella determines intracellular bacterial niche formation

Nora Mellouk; Arthur Lensen; Noelia Lopez-Montero; Magdalena Gil; Camila Valenzuela; Kerstin Klinkert; Gael Moneron; Léa Swistak; David DiGregorio; Arnaud Echard; Jost Enninga

doi:10.1016/j.celrep.2024.114034

Post-translational targeting of Rab35 by the effector IcsB of Shigella determines intracellular bacterial niche formation

Nora Mellouk
, Arthur Lensen
, Noelia Lopez-Montero
, Magdalena Gil
, Camila Valenzuela
, Kerstin Klinkert
, Gael Moneron
, Léa Swistak
, David DiGregorio
, Arnaud Echard
, Jost Enninga

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

Abstract

Escape from the bacterial-containing vacuole (BCV) is a key step of Shigella host cell invasion. Rab GTPases subverted to in situ-formed macropinosomes in the vicinity of the BCV have been shown to promote its rupture. The involvement of the BCV itself has remained unclear. We demonstrate that Rab35 is non-canonically entrapped at the BCV. Stimulated emission depletion imaging localizes Rab35 directly on the BCV membranes before vacuolar rupture. The bacterial effector IcsB, a lysine N^ε-fatty acylase, is a key regulator of Rab35-BCV recruitment, and we show post-translational acylation of Rab35 by IcsB in its polybasic region. While Rab35 and IcsB are dispensable for the first step of BCV breakage, they are needed for the unwrapping of damaged BCV remnants from Shigella. This provides a framework for understanding Shigella invasion implicating re-localization of a Rab GTPase via its bacteria-dependent post-translational modification to support the mechanical unpeeling of the BCV.

Original language	English
Article number	114034
Journal	Cell Reports
Volume	43
Issue number	4
DOIs	https://doi.org/10.1016/j.celrep.2024.114034
Publication status	Published - 23 Apr 2024
Externally published	Yes

Keywords

CP: Microbiology
IcsB
N-fatty acylation
Rab35
Shigella
T3SS effector
post-translational modification
vacuolar rupture

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10.1016/j.celrep.2024.114034

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title = "Post-translational targeting of Rab35 by the effector IcsB of Shigella determines intracellular bacterial niche formation",

abstract = "Escape from the bacterial-containing vacuole (BCV) is a key step of Shigella host cell invasion. Rab GTPases subverted to in situ-formed macropinosomes in the vicinity of the BCV have been shown to promote its rupture. The involvement of the BCV itself has remained unclear. We demonstrate that Rab35 is non-canonically entrapped at the BCV. Stimulated emission depletion imaging localizes Rab35 directly on the BCV membranes before vacuolar rupture. The bacterial effector IcsB, a lysine Nε-fatty acylase, is a key regulator of Rab35-BCV recruitment, and we show post-translational acylation of Rab35 by IcsB in its polybasic region. While Rab35 and IcsB are dispensable for the first step of BCV breakage, they are needed for the unwrapping of damaged BCV remnants from Shigella. This provides a framework for understanding Shigella invasion implicating re-localization of a Rab GTPase via its bacteria-dependent post-translational modification to support the mechanical unpeeling of the BCV.",

keywords = "CP: Microbiology, IcsB, N-fatty acylation, Rab35, Shigella, T3SS effector, post-translational modification, vacuolar rupture",

author = "Nora Mellouk and Arthur Lensen and Noelia Lopez-Montero and Magdalena Gil and Camila Valenzuela and Kerstin Klinkert and Gael Moneron and L{\'e}a Swistak and David DiGregorio and Arnaud Echard and Jost Enninga",

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year = "2024",

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doi = "10.1016/j.celrep.2024.114034",

language = "English",

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TY - JOUR

T1 - Post-translational targeting of Rab35 by the effector IcsB of Shigella determines intracellular bacterial niche formation

AU - Mellouk, Nora

AU - Lensen, Arthur

AU - Lopez-Montero, Noelia

AU - Gil, Magdalena

AU - Valenzuela, Camila

AU - Klinkert, Kerstin

AU - Moneron, Gael

AU - Swistak, Léa

AU - DiGregorio, David

AU - Echard, Arnaud

AU - Enninga, Jost

PY - 2024/4/23

Y1 - 2024/4/23

N2 - Escape from the bacterial-containing vacuole (BCV) is a key step of Shigella host cell invasion. Rab GTPases subverted to in situ-formed macropinosomes in the vicinity of the BCV have been shown to promote its rupture. The involvement of the BCV itself has remained unclear. We demonstrate that Rab35 is non-canonically entrapped at the BCV. Stimulated emission depletion imaging localizes Rab35 directly on the BCV membranes before vacuolar rupture. The bacterial effector IcsB, a lysine Nε-fatty acylase, is a key regulator of Rab35-BCV recruitment, and we show post-translational acylation of Rab35 by IcsB in its polybasic region. While Rab35 and IcsB are dispensable for the first step of BCV breakage, they are needed for the unwrapping of damaged BCV remnants from Shigella. This provides a framework for understanding Shigella invasion implicating re-localization of a Rab GTPase via its bacteria-dependent post-translational modification to support the mechanical unpeeling of the BCV.

AB - Escape from the bacterial-containing vacuole (BCV) is a key step of Shigella host cell invasion. Rab GTPases subverted to in situ-formed macropinosomes in the vicinity of the BCV have been shown to promote its rupture. The involvement of the BCV itself has remained unclear. We demonstrate that Rab35 is non-canonically entrapped at the BCV. Stimulated emission depletion imaging localizes Rab35 directly on the BCV membranes before vacuolar rupture. The bacterial effector IcsB, a lysine Nε-fatty acylase, is a key regulator of Rab35-BCV recruitment, and we show post-translational acylation of Rab35 by IcsB in its polybasic region. While Rab35 and IcsB are dispensable for the first step of BCV breakage, they are needed for the unwrapping of damaged BCV remnants from Shigella. This provides a framework for understanding Shigella invasion implicating re-localization of a Rab GTPase via its bacteria-dependent post-translational modification to support the mechanical unpeeling of the BCV.

KW - CP: Microbiology

KW - IcsB

KW - N-fatty acylation

KW - Rab35

KW - Shigella

KW - T3SS effector

KW - post-translational modification

KW - vacuolar rupture

U2 - 10.1016/j.celrep.2024.114034

DO - 10.1016/j.celrep.2024.114034

M3 - Article

C2 - 38568808

AN - SCOPUS:85189503789

SN - 2211-1247

VL - 43

JO - Cell Reports

JF - Cell Reports

IS - 4

M1 - 114034

ER -

Post-translational targeting of Rab35 by the effector IcsB of Shigella determines intracellular bacterial niche formation

Abstract

Keywords

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