The ubiquitin ligase Cullin5(SOCS2) regulates NDR1/STK38 stability and NF-κB transactivation

SOCS2 is a pleiotropic E3 ligase. Its deficiency is associated with gigantism and organismal lethality upon inflammatory challenge. However, mechanistic understanding of SOCS2 function is dismal due to our unawareness of its protein substrates. We performed a mass spectrometry based proteomic profil...

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Autores principales: Paul, Indranil, Batth, Tanveer S., Iglesias-Gato, Diego, Al-Araimi, Amna, Al-Haddabi, Ibrahim, Alkharusi, Amira, Norstedt, Gunnar, Olsen, Jesper V., Zadjali, Fahad, Flores-Morales, Amilcar
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2017
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5316984/
https://www.ncbi.nlm.nih.gov/pubmed/28216640
http://dx.doi.org/10.1038/srep42800
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author Paul, Indranil
Batth, Tanveer S.
Iglesias-Gato, Diego
Al-Araimi, Amna
Al-Haddabi, Ibrahim
Alkharusi, Amira
Norstedt, Gunnar
Olsen, Jesper V.
Zadjali, Fahad
Flores-Morales, Amilcar
author_facet Paul, Indranil
Batth, Tanveer S.
Iglesias-Gato, Diego
Al-Araimi, Amna
Al-Haddabi, Ibrahim
Alkharusi, Amira
Norstedt, Gunnar
Olsen, Jesper V.
Zadjali, Fahad
Flores-Morales, Amilcar
author_sort Paul, Indranil
collection PubMed
description SOCS2 is a pleiotropic E3 ligase. Its deficiency is associated with gigantism and organismal lethality upon inflammatory challenge. However, mechanistic understanding of SOCS2 function is dismal due to our unawareness of its protein substrates. We performed a mass spectrometry based proteomic profiling upon SOCS2 depletion and yield quantitative data for ~4200 proteins. Through this screen we identify a novel target of SOCS2, the serine-threonine kinase NDR1. Over-expression of SOCS2 accelerates turnover, while its knockdown stabilizes, endogenous NDR1 protein. SOCS2 interacts with NDR1 and promotes its degradation through K48-linked ubiquitination. Functionally, over-expression of SOCS2 antagonizes NDR1-induced TNFα-stimulated NF-κB activity. Conversely, depletion of NDR1 rescues the effect of SOCS2-deficiency on TNFα-induced NF-κB transactivation. Using a SOCS2(−/−) mice model of colitis we show that SOCS2-deficiency is pro-inflammatory and negatively correlates with NDR1 and nuclear p65 levels. Lastly, we provide evidence to suggest that NDR1 acts as an oncogene in prostate cancer. To the best of our knowledge, this is the first report of an identified E3 ligase for NDR1. These results might explain how SOCS2-deficiency leads to hyper-activation of NF-κB and downstream pathological implications and posits that SOCS2 induced degradation of NDR1 may act as a switch in restricting TNFα-NF-κB pathway.
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spelling pubmed-53169842017-02-24 The ubiquitin ligase Cullin5(SOCS2) regulates NDR1/STK38 stability and NF-κB transactivation Paul, Indranil Batth, Tanveer S. Iglesias-Gato, Diego Al-Araimi, Amna Al-Haddabi, Ibrahim Alkharusi, Amira Norstedt, Gunnar Olsen, Jesper V. Zadjali, Fahad Flores-Morales, Amilcar Sci Rep Article SOCS2 is a pleiotropic E3 ligase. Its deficiency is associated with gigantism and organismal lethality upon inflammatory challenge. However, mechanistic understanding of SOCS2 function is dismal due to our unawareness of its protein substrates. We performed a mass spectrometry based proteomic profiling upon SOCS2 depletion and yield quantitative data for ~4200 proteins. Through this screen we identify a novel target of SOCS2, the serine-threonine kinase NDR1. Over-expression of SOCS2 accelerates turnover, while its knockdown stabilizes, endogenous NDR1 protein. SOCS2 interacts with NDR1 and promotes its degradation through K48-linked ubiquitination. Functionally, over-expression of SOCS2 antagonizes NDR1-induced TNFα-stimulated NF-κB activity. Conversely, depletion of NDR1 rescues the effect of SOCS2-deficiency on TNFα-induced NF-κB transactivation. Using a SOCS2(−/−) mice model of colitis we show that SOCS2-deficiency is pro-inflammatory and negatively correlates with NDR1 and nuclear p65 levels. Lastly, we provide evidence to suggest that NDR1 acts as an oncogene in prostate cancer. To the best of our knowledge, this is the first report of an identified E3 ligase for NDR1. These results might explain how SOCS2-deficiency leads to hyper-activation of NF-κB and downstream pathological implications and posits that SOCS2 induced degradation of NDR1 may act as a switch in restricting TNFα-NF-κB pathway. Nature Publishing Group 2017-02-20 /pmc/articles/PMC5316984/ /pubmed/28216640 http://dx.doi.org/10.1038/srep42800 Text en Copyright © 2017, The Author(s) http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Paul, Indranil
Batth, Tanveer S.
Iglesias-Gato, Diego
Al-Araimi, Amna
Al-Haddabi, Ibrahim
Alkharusi, Amira
Norstedt, Gunnar
Olsen, Jesper V.
Zadjali, Fahad
Flores-Morales, Amilcar
The ubiquitin ligase Cullin5(SOCS2) regulates NDR1/STK38 stability and NF-κB transactivation
title The ubiquitin ligase Cullin5(SOCS2) regulates NDR1/STK38 stability and NF-κB transactivation
title_full The ubiquitin ligase Cullin5(SOCS2) regulates NDR1/STK38 stability and NF-κB transactivation
title_fullStr The ubiquitin ligase Cullin5(SOCS2) regulates NDR1/STK38 stability and NF-κB transactivation
title_full_unstemmed The ubiquitin ligase Cullin5(SOCS2) regulates NDR1/STK38 stability and NF-κB transactivation
title_short The ubiquitin ligase Cullin5(SOCS2) regulates NDR1/STK38 stability and NF-κB transactivation
title_sort ubiquitin ligase cullin5(socs2) regulates ndr1/stk38 stability and nf-κb transactivation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5316984/
https://www.ncbi.nlm.nih.gov/pubmed/28216640
http://dx.doi.org/10.1038/srep42800
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