A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy

Autophagy is an essential eukaryotic pathway requiring tight regulation to maintain homeostasis and preclude disease. Using yeast and mammalian cells, we report a conserved mechanism of autophagy regulation by RNA helicase RCK family members in association with the decapping enzyme Dcp2. Under nutri...

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Autores principales: Hu, Guowu, McQuiston, Travis, Bernard, Amélie, Park, Yoon-Dong, Qiu, Jin, Vural, Ali, Zhang, Nannan, Waterman, Scott R., Blewett, Nathan H., Myers, Timothy G., Maraia, Richard J., Kehrl, John H., Uzel, Gulbu, Klionsky, Daniel J., Williamson, Peter R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2015
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4528364/
https://www.ncbi.nlm.nih.gov/pubmed/26098573
http://dx.doi.org/10.1038/ncb3189
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author Hu, Guowu
McQuiston, Travis
Bernard, Amélie
Park, Yoon-Dong
Qiu, Jin
Vural, Ali
Zhang, Nannan
Waterman, Scott R.
Blewett, Nathan H.
Myers, Timothy G.
Maraia, Richard J.
Kehrl, John H.
Uzel, Gulbu
Klionsky, Daniel J.
Williamson, Peter R.
author_facet Hu, Guowu
McQuiston, Travis
Bernard, Amélie
Park, Yoon-Dong
Qiu, Jin
Vural, Ali
Zhang, Nannan
Waterman, Scott R.
Blewett, Nathan H.
Myers, Timothy G.
Maraia, Richard J.
Kehrl, John H.
Uzel, Gulbu
Klionsky, Daniel J.
Williamson, Peter R.
author_sort Hu, Guowu
collection PubMed
description Autophagy is an essential eukaryotic pathway requiring tight regulation to maintain homeostasis and preclude disease. Using yeast and mammalian cells, we report a conserved mechanism of autophagy regulation by RNA helicase RCK family members in association with the decapping enzyme Dcp2. Under nutrient-replete conditions, Dcp2 undergoes TOR-dependent phosphorylation and associates with RCK members to form a complex with autophagy-related (ATG) mRNA transcripts, leading to decapping, degradation and autophagy suppression. Simultaneous with the induction of ATG mRNA synthesis, starvation reverses the process, facilitating ATG mRNA accumulation and autophagy induction. This conserved post-transcriptional mechanism modulates fungal virulence and the mammalian inflammasome, the latter providing mechanistic insight into autoimmunity reported in a patient with a PIK3CD/p110δ gain-of-function mutation. We propose a dynamic model wherein RCK family members, in conjunction with Dcp2, function in controlling ATG mRNA stability to govern autophagy, which in turn modulates vital cellular processes affecting inflammation and microbial pathogenesis.
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spelling pubmed-45283642016-01-01 A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy Hu, Guowu McQuiston, Travis Bernard, Amélie Park, Yoon-Dong Qiu, Jin Vural, Ali Zhang, Nannan Waterman, Scott R. Blewett, Nathan H. Myers, Timothy G. Maraia, Richard J. Kehrl, John H. Uzel, Gulbu Klionsky, Daniel J. Williamson, Peter R. Nat Cell Biol Article Autophagy is an essential eukaryotic pathway requiring tight regulation to maintain homeostasis and preclude disease. Using yeast and mammalian cells, we report a conserved mechanism of autophagy regulation by RNA helicase RCK family members in association with the decapping enzyme Dcp2. Under nutrient-replete conditions, Dcp2 undergoes TOR-dependent phosphorylation and associates with RCK members to form a complex with autophagy-related (ATG) mRNA transcripts, leading to decapping, degradation and autophagy suppression. Simultaneous with the induction of ATG mRNA synthesis, starvation reverses the process, facilitating ATG mRNA accumulation and autophagy induction. This conserved post-transcriptional mechanism modulates fungal virulence and the mammalian inflammasome, the latter providing mechanistic insight into autoimmunity reported in a patient with a PIK3CD/p110δ gain-of-function mutation. We propose a dynamic model wherein RCK family members, in conjunction with Dcp2, function in controlling ATG mRNA stability to govern autophagy, which in turn modulates vital cellular processes affecting inflammation and microbial pathogenesis. 2015-06-22 2015-07 /pmc/articles/PMC4528364/ /pubmed/26098573 http://dx.doi.org/10.1038/ncb3189 Text en http://www.nature.com/authors/editorial_policies/license.html#terms Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Hu, Guowu
McQuiston, Travis
Bernard, Amélie
Park, Yoon-Dong
Qiu, Jin
Vural, Ali
Zhang, Nannan
Waterman, Scott R.
Blewett, Nathan H.
Myers, Timothy G.
Maraia, Richard J.
Kehrl, John H.
Uzel, Gulbu
Klionsky, Daniel J.
Williamson, Peter R.
A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy
title A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy
title_full A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy
title_fullStr A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy
title_full_unstemmed A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy
title_short A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy
title_sort conserved mechanism of tor-dependent rck-mediated mrna degradation regulates autophagy
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4528364/
https://www.ncbi.nlm.nih.gov/pubmed/26098573
http://dx.doi.org/10.1038/ncb3189
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