p19ARF is a critical mediator of both cellular senescence and an innate immune response associated with MYC inactivation in mouse model of acute leukemia

MYC-induced T-ALL exhibit oncogene addiction. Addiction to MYC is a consequence of both cell-autonomous mechanisms, such as proliferative arrest, cellular senescence, and apoptosis, as well as non-cell autonomous mechanisms, such as shutdown of angiogenesis, and recruitment of immune effectors. Here...

Descripción completa

Detalles Bibliográficos
Autores principales: Yetil, Alper, Anchang, Benedict, Gouw, Arvin M., Adam, Stacey J., Zabuawala, Tahera, Parameswaran, Ramya, van Riggelen, Jan, Plevritis, Sylvia, Felsher, Dean W.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Impact Journals LLC 2015
Materias:
Priority Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4414137/
https://www.ncbi.nlm.nih.gov/pubmed/25784651
_version_ 1782368882015600640
author Yetil, Alper
Anchang, Benedict
Gouw, Arvin M.
Adam, Stacey J.
Zabuawala, Tahera
Parameswaran, Ramya
van Riggelen, Jan
Plevritis, Sylvia
Felsher, Dean W.
author_facet Yetil, Alper
Anchang, Benedict
Gouw, Arvin M.
Adam, Stacey J.
Zabuawala, Tahera
Parameswaran, Ramya
van Riggelen, Jan
Plevritis, Sylvia
Felsher, Dean W.
author_sort Yetil, Alper
collection PubMed
description MYC-induced T-ALL exhibit oncogene addiction. Addiction to MYC is a consequence of both cell-autonomous mechanisms, such as proliferative arrest, cellular senescence, and apoptosis, as well as non-cell autonomous mechanisms, such as shutdown of angiogenesis, and recruitment of immune effectors. Here, we show, using transgenic mouse models of MYC-induced T-ALL, that the loss of either p19ARF or p53 abrogates the ability of MYC inactivation to induce sustained tumor regression. Loss of p53 or p19ARF, influenced the ability of MYC inactivation to elicit the shutdown of angiogenesis; however the loss of p19ARF, but not p53, impeded cellular senescence, as measured by SA-beta-galactosidase staining, increased expression of p16INK4A, and specific histone modifications. Moreover, comparative gene expression analysis suggested that a multitude of genes involved in the innate immune response were expressed in p19ARF wild-type, but not null, tumors upon MYC inactivation. Indeed, the loss of p19ARF, but not p53, impeded the in situ recruitment of macrophages to the tumor microenvironment. Finally, p19ARF null-associated gene signature prognosticated relapse-free survival in human patients with ALL. Therefore, p19ARF appears to be important to regulating cellular senescence and innate immune response that may contribute to the therapeutic response of ALL.
format Online
Article
Text
id pubmed-4414137
institution National Center for Biotechnology Information
language English
publishDate 2015
publisher Impact Journals LLC
record_format MEDLINE/PubMed
spelling pubmed-44141372015-05-08 p19ARF is a critical mediator of both cellular senescence and an innate immune response associated with MYC inactivation in mouse model of acute leukemia Yetil, Alper Anchang, Benedict Gouw, Arvin M. Adam, Stacey J. Zabuawala, Tahera Parameswaran, Ramya van Riggelen, Jan Plevritis, Sylvia Felsher, Dean W. Oncotarget Priority Research Paper MYC-induced T-ALL exhibit oncogene addiction. Addiction to MYC is a consequence of both cell-autonomous mechanisms, such as proliferative arrest, cellular senescence, and apoptosis, as well as non-cell autonomous mechanisms, such as shutdown of angiogenesis, and recruitment of immune effectors. Here, we show, using transgenic mouse models of MYC-induced T-ALL, that the loss of either p19ARF or p53 abrogates the ability of MYC inactivation to induce sustained tumor regression. Loss of p53 or p19ARF, influenced the ability of MYC inactivation to elicit the shutdown of angiogenesis; however the loss of p19ARF, but not p53, impeded cellular senescence, as measured by SA-beta-galactosidase staining, increased expression of p16INK4A, and specific histone modifications. Moreover, comparative gene expression analysis suggested that a multitude of genes involved in the innate immune response were expressed in p19ARF wild-type, but not null, tumors upon MYC inactivation. Indeed, the loss of p19ARF, but not p53, impeded the in situ recruitment of macrophages to the tumor microenvironment. Finally, p19ARF null-associated gene signature prognosticated relapse-free survival in human patients with ALL. Therefore, p19ARF appears to be important to regulating cellular senescence and innate immune response that may contribute to the therapeutic response of ALL. Impact Journals LLC 2015-01-13 /pmc/articles/PMC4414137/ /pubmed/25784651 Text en Copyright: © 2015 Yetil et al. http://creativecommons.org/licenses/by/2.5/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Priority Research Paper
Yetil, Alper
Anchang, Benedict
Gouw, Arvin M.
Adam, Stacey J.
Zabuawala, Tahera
Parameswaran, Ramya
van Riggelen, Jan
Plevritis, Sylvia
Felsher, Dean W.
p19ARF is a critical mediator of both cellular senescence and an innate immune response associated with MYC inactivation in mouse model of acute leukemia
title p19ARF is a critical mediator of both cellular senescence and an innate immune response associated with MYC inactivation in mouse model of acute leukemia
title_full p19ARF is a critical mediator of both cellular senescence and an innate immune response associated with MYC inactivation in mouse model of acute leukemia
title_fullStr p19ARF is a critical mediator of both cellular senescence and an innate immune response associated with MYC inactivation in mouse model of acute leukemia
title_full_unstemmed p19ARF is a critical mediator of both cellular senescence and an innate immune response associated with MYC inactivation in mouse model of acute leukemia
title_short p19ARF is a critical mediator of both cellular senescence and an innate immune response associated with MYC inactivation in mouse model of acute leukemia
title_sort p19arf is a critical mediator of both cellular senescence and an innate immune response associated with myc inactivation in mouse model of acute leukemia
topic Priority Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4414137/
https://www.ncbi.nlm.nih.gov/pubmed/25784651
work_keys_str_mv AT yetilalper p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia
AT anchangbenedict p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia
AT gouwarvinm p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia
AT adamstaceyj p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia
AT zabuawalatahera p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia
AT parameswaranramya p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia
AT vanriggelenjan p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia
AT plevritissylvia p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia
AT felsherdeanw p19arfisacriticalmediatorofbothcellularsenescenceandaninnateimmuneresponseassociatedwithmycinactivationinmousemodelofacuteleukemia

Ejemplares similares