RalB and the exocyst mediate the cellular starvation response by direct activation of autophagosome assembly

Brian O. Bodemann; Anthony Orvedahl; Tzuling Cheng; Rosalyn R. Ram; Yi Hung Ou; Etienne Formstecher; Mekhala Maiti; C. Clayton Hazelett; Eric M. Wauson; Maria Balakireva; Jacques H. Camonis; Charles Yeaman; Beth Levine; Michael A. White

doi:10.1016/j.cell.2010.12.018

RalB and the exocyst mediate the cellular starvation response by direct activation of autophagosome assembly

Brian O. Bodemann
, Anthony Orvedahl
, Tzuling Cheng
, Rosalyn R. Ram
, Yi Hung Ou
, Etienne Formstecher
, Mekhala Maiti
, C. Clayton Hazelett
, Eric M. Wauson
, Maria Balakireva
, Jacques H. Camonis
, Charles Yeaman
, Beth Levine
, Michael A. White

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The study of macroautophagy in mammalian cells has described induction, vesicle nucleation, and membrane elongation complexes as key signaling intermediates driving autophagosome biogenesis. How these components are recruited to nascent autophagosomes is poorly understood, and although much is known about signaling mechanisms that restrain autophagy, the nature of positive inductive signals that can promote autophagy remain cryptic. We find that the Ras-like small G protein, RalB, is localized to nascent autophagosomes and is activated on nutrient deprivation. RalB and its effector Exo84 are required for nutrient starvation-induced autophagocytosis, and RalB activation is sufficient to promote autophagosome formation. Through direct binding to Exo84, RalB induces the assembly of catalytically active ULK1 and Beclin1-VPS34 complexes on the exocyst, which are required for isolation membrane formation and maturation. Thus, RalB signaling is a primary adaptive response to nutrient limitation that directly engages autophagocytosis through mobilization of the core vesicle nucleation machinery.

langue originale	Anglais
Pages (de - à)	253-267
Nombre de pages	15
journal	Cell
Volume	144
Numéro de publication	2
Les DOIs	https://doi.org/10.1016/j.cell.2010.12.018
état	Publié - 21 janv. 2011
Modification externe	Oui

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10.1016/j.cell.2010.12.018

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Bodemann, B. O., Orvedahl, A., Cheng, T., Ram, R. R., Ou, Y. H., Formstecher, E., Maiti, M., Hazelett, C. C., Wauson, E. M., Balakireva, M., Camonis, J. H., Yeaman, C., Levine, B., & White, M. A. (2011). RalB and the exocyst mediate the cellular starvation response by direct activation of autophagosome assembly. Cell, 144(2), 253-267. https://doi.org/10.1016/j.cell.2010.12.018

@article{88e863d6eb5847559a7b3049a316be15,

title = "RalB and the exocyst mediate the cellular starvation response by direct activation of autophagosome assembly",

abstract = "The study of macroautophagy in mammalian cells has described induction, vesicle nucleation, and membrane elongation complexes as key signaling intermediates driving autophagosome biogenesis. How these components are recruited to nascent autophagosomes is poorly understood, and although much is known about signaling mechanisms that restrain autophagy, the nature of positive inductive signals that can promote autophagy remain cryptic. We find that the Ras-like small G protein, RalB, is localized to nascent autophagosomes and is activated on nutrient deprivation. RalB and its effector Exo84 are required for nutrient starvation-induced autophagocytosis, and RalB activation is sufficient to promote autophagosome formation. Through direct binding to Exo84, RalB induces the assembly of catalytically active ULK1 and Beclin1-VPS34 complexes on the exocyst, which are required for isolation membrane formation and maturation. Thus, RalB signaling is a primary adaptive response to nutrient limitation that directly engages autophagocytosis through mobilization of the core vesicle nucleation machinery.",

author = "Bodemann, \{Brian O.\} and Anthony Orvedahl and Tzuling Cheng and Ram, \{Rosalyn R.\} and Ou, \{Yi Hung\} and Etienne Formstecher and Mekhala Maiti and Hazelett, \{C. Clayton\} and Wauson, \{Eric M.\} and Maria Balakireva and Camonis, \{Jacques H.\} and Charles Yeaman and Beth Levine and White, \{Michael A.\}",

year = "2011",

month = jan,

day = "21",

doi = "10.1016/j.cell.2010.12.018",

language = "English",

volume = "144",

pages = "253--267",

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T1 - RalB and the exocyst mediate the cellular starvation response by direct activation of autophagosome assembly

AU - Bodemann, Brian O.

AU - Orvedahl, Anthony

AU - Cheng, Tzuling

AU - Ram, Rosalyn R.

AU - Ou, Yi Hung

AU - Formstecher, Etienne

AU - Maiti, Mekhala

AU - Hazelett, C. Clayton

AU - Wauson, Eric M.

AU - Balakireva, Maria

AU - Camonis, Jacques H.

AU - Yeaman, Charles

AU - Levine, Beth

AU - White, Michael A.

PY - 2011/1/21

Y1 - 2011/1/21

N2 - The study of macroautophagy in mammalian cells has described induction, vesicle nucleation, and membrane elongation complexes as key signaling intermediates driving autophagosome biogenesis. How these components are recruited to nascent autophagosomes is poorly understood, and although much is known about signaling mechanisms that restrain autophagy, the nature of positive inductive signals that can promote autophagy remain cryptic. We find that the Ras-like small G protein, RalB, is localized to nascent autophagosomes and is activated on nutrient deprivation. RalB and its effector Exo84 are required for nutrient starvation-induced autophagocytosis, and RalB activation is sufficient to promote autophagosome formation. Through direct binding to Exo84, RalB induces the assembly of catalytically active ULK1 and Beclin1-VPS34 complexes on the exocyst, which are required for isolation membrane formation and maturation. Thus, RalB signaling is a primary adaptive response to nutrient limitation that directly engages autophagocytosis through mobilization of the core vesicle nucleation machinery.

AB - The study of macroautophagy in mammalian cells has described induction, vesicle nucleation, and membrane elongation complexes as key signaling intermediates driving autophagosome biogenesis. How these components are recruited to nascent autophagosomes is poorly understood, and although much is known about signaling mechanisms that restrain autophagy, the nature of positive inductive signals that can promote autophagy remain cryptic. We find that the Ras-like small G protein, RalB, is localized to nascent autophagosomes and is activated on nutrient deprivation. RalB and its effector Exo84 are required for nutrient starvation-induced autophagocytosis, and RalB activation is sufficient to promote autophagosome formation. Through direct binding to Exo84, RalB induces the assembly of catalytically active ULK1 and Beclin1-VPS34 complexes on the exocyst, which are required for isolation membrane formation and maturation. Thus, RalB signaling is a primary adaptive response to nutrient limitation that directly engages autophagocytosis through mobilization of the core vesicle nucleation machinery.

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DO - 10.1016/j.cell.2010.12.018

M3 - Article

C2 - 21241894

AN - SCOPUS:78651488777

SN - 0092-8674

VL - 144

SP - 253

EP - 267

JO - Cell

JF - Cell

IS - 2

ER -

RalB and the exocyst mediate the cellular starvation response by direct activation of autophagosome assembly

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