The DNA damage checkpoint precedes activation of ARF in response to escalating oncogenic stress during tumorigenesis

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

The DNA damage checkpoint precedes activation of ARF in response to escalating oncogenic stress during tumorigenesis. / Evangelou, K.; Bartkova, J.; Kotsinas, A.; Pateras, I.S.; Liontos, M.; Velimezi, G.; Kosar, M.; Liloglou, T.; Trougakos, I.P.; Dyrskjot, L.; Andersen, C.L.; Papaioannou, M.; Drosos, Y.; Papafotiou, G.; Hodny, Z.; Sosa-Pineda, B.; Wu, X.-R.; Klinakis, A.; Ørntoft, Torben Falck; Lukas, J.; Bartek, J.; Gorgoulis, V.G.

In: Cell Death and Differentiation, Vol. 20, No. 11, 01.11.2013, p. 1485-1497.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Evangelou, K, Bartkova, J, Kotsinas, A, Pateras, IS, Liontos, M, Velimezi, G, Kosar, M, Liloglou, T, Trougakos, IP, Dyrskjot, L, Andersen, CL, Papaioannou, M, Drosos, Y, Papafotiou, G, Hodny, Z, Sosa-Pineda, B, Wu, X-R, Klinakis, A, Ørntoft, TF, Lukas, J, Bartek, J & Gorgoulis, VG 2013, 'The DNA damage checkpoint precedes activation of ARF in response to escalating oncogenic stress during tumorigenesis', Cell Death and Differentiation, vol. 20, no. 11, pp. 1485-1497. https://doi.org/10.1038/cdd.2013.76

APA

Evangelou, K., Bartkova, J., Kotsinas, A., Pateras, I. S., Liontos, M., Velimezi, G., Kosar, M., Liloglou, T., Trougakos, I. P., Dyrskjot, L., Andersen, C. L., Papaioannou, M., Drosos, Y., Papafotiou, G., Hodny, Z., Sosa-Pineda, B., Wu, X-R., Klinakis, A., Ørntoft, T. F., ... Gorgoulis, V. G. (2013). The DNA damage checkpoint precedes activation of ARF in response to escalating oncogenic stress during tumorigenesis. Cell Death and Differentiation, 20(11), 1485-1497. https://doi.org/10.1038/cdd.2013.76

Vancouver

Evangelou K, Bartkova J, Kotsinas A, Pateras IS, Liontos M, Velimezi G et al. The DNA damage checkpoint precedes activation of ARF in response to escalating oncogenic stress during tumorigenesis. Cell Death and Differentiation. 2013 Nov 1;20(11):1485-1497. https://doi.org/10.1038/cdd.2013.76

Author

Evangelou, K. ; Bartkova, J. ; Kotsinas, A. ; Pateras, I.S. ; Liontos, M. ; Velimezi, G. ; Kosar, M. ; Liloglou, T. ; Trougakos, I.P. ; Dyrskjot, L. ; Andersen, C.L. ; Papaioannou, M. ; Drosos, Y. ; Papafotiou, G. ; Hodny, Z. ; Sosa-Pineda, B. ; Wu, X.-R. ; Klinakis, A. ; Ørntoft, Torben Falck ; Lukas, J. ; Bartek, J. ; Gorgoulis, V.G. / The DNA damage checkpoint precedes activation of ARF in response to escalating oncogenic stress during tumorigenesis. In: Cell Death and Differentiation. 2013 ; Vol. 20, No. 11. pp. 1485-1497.

Bibtex

@article{8e7198295cec41eeb8160c4a2cd950fe,
title = "The DNA damage checkpoint precedes activation of ARF in response to escalating oncogenic stress during tumorigenesis",
abstract = "Oncogenic stimuli trigger the DNA damage response (DDR) and induction of the alternative reading frame (ARF) tumor suppressor, both of which can activate the p53 pathway and provide intrinsic barriers to tumor progression. However, the respective timeframes and signal thresholds for ARF induction and DDR activation during tumorigenesis remain elusive. Here, these issues were addressed by analyses of mouse models of urinary bladder, colon, pancreatic and skin premalignant and malignant lesions. Consistently, ARF expression occurred at a later stage of tumor progression than activation of the DDR or p16 , a tumor-suppressor gene overlapping with ARF. Analogous results were obtained in several human clinical settings, including early and progressive lesions of the urinary bladder, head and neck, skin and pancreas. Mechanistic analyses of epithelial and fibroblast cell models exposed to various oncogenes showed that the delayed upregulation of ARF reflected a requirement for a higher, transcriptionally based threshold of oncogenic stress, elicited by at least two oncogenic 'hits', compared with lower activation threshold for DDR. We propose that relative to DDR activation, ARF provides a complementary and delayed barrier to tumor development, responding to more robust stimuli of escalating oncogenic overload.",
author = "K. Evangelou and J. Bartkova and A. Kotsinas and I.S. Pateras and M. Liontos and G. Velimezi and M. Kosar and T. Liloglou and I.P. Trougakos and L. Dyrskjot and C.L. Andersen and M. Papaioannou and Y. Drosos and G. Papafotiou and Z. Hodny and B. Sosa-Pineda and X.-R. Wu and A. Klinakis and {\O}rntoft, {Torben Falck} and J. Lukas and J. Bartek and V.G. Gorgoulis",
year = "2013",
month = nov,
day = "1",
doi = "10.1038/cdd.2013.76",
language = "English",
volume = "20",
pages = "1485--1497",
journal = "Cell Differentiation and Development",
issn = "1350-9047",
publisher = "nature publishing group",
number = "11",

}

RIS

TY - JOUR

T1 - The DNA damage checkpoint precedes activation of ARF in response to escalating oncogenic stress during tumorigenesis

AU - Evangelou, K.

AU - Bartkova, J.

AU - Kotsinas, A.

AU - Pateras, I.S.

AU - Liontos, M.

AU - Velimezi, G.

AU - Kosar, M.

AU - Liloglou, T.

AU - Trougakos, I.P.

AU - Dyrskjot, L.

AU - Andersen, C.L.

AU - Papaioannou, M.

AU - Drosos, Y.

AU - Papafotiou, G.

AU - Hodny, Z.

AU - Sosa-Pineda, B.

AU - Wu, X.-R.

AU - Klinakis, A.

AU - Ørntoft, Torben Falck

AU - Lukas, J.

AU - Bartek, J.

AU - Gorgoulis, V.G.

PY - 2013/11/1

Y1 - 2013/11/1

N2 - Oncogenic stimuli trigger the DNA damage response (DDR) and induction of the alternative reading frame (ARF) tumor suppressor, both of which can activate the p53 pathway and provide intrinsic barriers to tumor progression. However, the respective timeframes and signal thresholds for ARF induction and DDR activation during tumorigenesis remain elusive. Here, these issues were addressed by analyses of mouse models of urinary bladder, colon, pancreatic and skin premalignant and malignant lesions. Consistently, ARF expression occurred at a later stage of tumor progression than activation of the DDR or p16 , a tumor-suppressor gene overlapping with ARF. Analogous results were obtained in several human clinical settings, including early and progressive lesions of the urinary bladder, head and neck, skin and pancreas. Mechanistic analyses of epithelial and fibroblast cell models exposed to various oncogenes showed that the delayed upregulation of ARF reflected a requirement for a higher, transcriptionally based threshold of oncogenic stress, elicited by at least two oncogenic 'hits', compared with lower activation threshold for DDR. We propose that relative to DDR activation, ARF provides a complementary and delayed barrier to tumor development, responding to more robust stimuli of escalating oncogenic overload.

AB - Oncogenic stimuli trigger the DNA damage response (DDR) and induction of the alternative reading frame (ARF) tumor suppressor, both of which can activate the p53 pathway and provide intrinsic barriers to tumor progression. However, the respective timeframes and signal thresholds for ARF induction and DDR activation during tumorigenesis remain elusive. Here, these issues were addressed by analyses of mouse models of urinary bladder, colon, pancreatic and skin premalignant and malignant lesions. Consistently, ARF expression occurred at a later stage of tumor progression than activation of the DDR or p16 , a tumor-suppressor gene overlapping with ARF. Analogous results were obtained in several human clinical settings, including early and progressive lesions of the urinary bladder, head and neck, skin and pancreas. Mechanistic analyses of epithelial and fibroblast cell models exposed to various oncogenes showed that the delayed upregulation of ARF reflected a requirement for a higher, transcriptionally based threshold of oncogenic stress, elicited by at least two oncogenic 'hits', compared with lower activation threshold for DDR. We propose that relative to DDR activation, ARF provides a complementary and delayed barrier to tumor development, responding to more robust stimuli of escalating oncogenic overload.

UR - http://www.scopus.com/inward/record.url?scp=84885427983&partnerID=8YFLogxK

U2 - 10.1038/cdd.2013.76

DO - 10.1038/cdd.2013.76

M3 - Journal article

AN - SCOPUS:84885427983

VL - 20

SP - 1485

EP - 1497

JO - Cell Differentiation and Development

JF - Cell Differentiation and Development

SN - 1350-9047

IS - 11

ER -

ID: 88688724