Redeployment of Myc and E2f1-3 drives Rb deficient cell cycles

Robust mechanisms to control cell proliferation have evolved to maintain the integrity of organ architecture. Here, we investigated how two critical proliferative pathways, Myc and E2f, are integrated to control cell cycles in normal and Rb deficient cells using a murine intestinal model. We show th...

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Autores principales: Liu, Huayang, Tang, Xing, Srivastava, Arunima, Pécot, Thierry, Daniel, Piotr, Hemmelgarn, Benjamin, Reyes, Stephan, Fackler, Nicholas, Bajwa, Amneet, Kladney, Raleigh, Koivisto, Christopher, Chen, Zhong, Wang, Qianben, Huang, Kun, Machiraju, Raghu, Sáenz-Robles, Maria Teresa, Cantalupo, Paul, Pipas, James M., Leone, Gustavo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2015
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4526313/
https://www.ncbi.nlm.nih.gov/pubmed/26192440
http://dx.doi.org/10.1038/ncb3210
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author Liu, Huayang
Tang, Xing
Srivastava, Arunima
Pécot, Thierry
Daniel, Piotr
Hemmelgarn, Benjamin
Reyes, Stephan
Fackler, Nicholas
Bajwa, Amneet
Kladney, Raleigh
Koivisto, Christopher
Chen, Zhong
Wang, Qianben
Huang, Kun
Machiraju, Raghu
Sáenz-Robles, Maria Teresa
Cantalupo, Paul
Pipas, James M.
Leone, Gustavo
author_facet Liu, Huayang
Tang, Xing
Srivastava, Arunima
Pécot, Thierry
Daniel, Piotr
Hemmelgarn, Benjamin
Reyes, Stephan
Fackler, Nicholas
Bajwa, Amneet
Kladney, Raleigh
Koivisto, Christopher
Chen, Zhong
Wang, Qianben
Huang, Kun
Machiraju, Raghu
Sáenz-Robles, Maria Teresa
Cantalupo, Paul
Pipas, James M.
Leone, Gustavo
author_sort Liu, Huayang
collection PubMed
description Robust mechanisms to control cell proliferation have evolved to maintain the integrity of organ architecture. Here, we investigated how two critical proliferative pathways, Myc and E2f, are integrated to control cell cycles in normal and Rb deficient cells using a murine intestinal model. We show that Myc and E2f1-3 have little impact on normal G(1)-S transitions. Instead, they synergistically control an S-G(2) transcriptional program required for normal cell divisions and maintaining crypt-villus integrity. Surprisingly, Rb deficiency results in the Myc-dependent accumulation of E2f3 protein and chromatin repositioning of both Myc and E2f3, leading to the ‘super activation’ of a G(1)-S transcriptional program, ectopic S phase entry and rampant cell proliferation. These findings reveal that Rb deficient cells hijack and redeploy Myc and E2f3 from an S-G(2) program essential for normal cell cycles to a G(1)-S program that re-engages ectopic cell cycles, exposing an unanticipated addiction of Rb-null cells on Myc.
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spelling pubmed-45263132016-01-31 Redeployment of Myc and E2f1-3 drives Rb deficient cell cycles Liu, Huayang Tang, Xing Srivastava, Arunima Pécot, Thierry Daniel, Piotr Hemmelgarn, Benjamin Reyes, Stephan Fackler, Nicholas Bajwa, Amneet Kladney, Raleigh Koivisto, Christopher Chen, Zhong Wang, Qianben Huang, Kun Machiraju, Raghu Sáenz-Robles, Maria Teresa Cantalupo, Paul Pipas, James M. Leone, Gustavo Nat Cell Biol Article Robust mechanisms to control cell proliferation have evolved to maintain the integrity of organ architecture. Here, we investigated how two critical proliferative pathways, Myc and E2f, are integrated to control cell cycles in normal and Rb deficient cells using a murine intestinal model. We show that Myc and E2f1-3 have little impact on normal G(1)-S transitions. Instead, they synergistically control an S-G(2) transcriptional program required for normal cell divisions and maintaining crypt-villus integrity. Surprisingly, Rb deficiency results in the Myc-dependent accumulation of E2f3 protein and chromatin repositioning of both Myc and E2f3, leading to the ‘super activation’ of a G(1)-S transcriptional program, ectopic S phase entry and rampant cell proliferation. These findings reveal that Rb deficient cells hijack and redeploy Myc and E2f3 from an S-G(2) program essential for normal cell cycles to a G(1)-S program that re-engages ectopic cell cycles, exposing an unanticipated addiction of Rb-null cells on Myc. 2015-07-20 2015-08 /pmc/articles/PMC4526313/ /pubmed/26192440 http://dx.doi.org/10.1038/ncb3210 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
Liu, Huayang
Tang, Xing
Srivastava, Arunima
Pécot, Thierry
Daniel, Piotr
Hemmelgarn, Benjamin
Reyes, Stephan
Fackler, Nicholas
Bajwa, Amneet
Kladney, Raleigh
Koivisto, Christopher
Chen, Zhong
Wang, Qianben
Huang, Kun
Machiraju, Raghu
Sáenz-Robles, Maria Teresa
Cantalupo, Paul
Pipas, James M.
Leone, Gustavo
Redeployment of Myc and E2f1-3 drives Rb deficient cell cycles
title Redeployment of Myc and E2f1-3 drives Rb deficient cell cycles
title_full Redeployment of Myc and E2f1-3 drives Rb deficient cell cycles
title_fullStr Redeployment of Myc and E2f1-3 drives Rb deficient cell cycles
title_full_unstemmed Redeployment of Myc and E2f1-3 drives Rb deficient cell cycles
title_short Redeployment of Myc and E2f1-3 drives Rb deficient cell cycles
title_sort redeployment of myc and e2f1-3 drives rb deficient cell cycles
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4526313/
https://www.ncbi.nlm.nih.gov/pubmed/26192440
http://dx.doi.org/10.1038/ncb3210
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