EGFR wild-type amplification and activation promote invasion and development of glioblastoma independent of angiogenesis

Krishna M. Talasila; Anke Soentgerath; Philipp Euskirchen; Gro V. Rosland; Jian Wang; Peter C. Huszthy; Lars Prestegarden; Kai Ove Skaftnesmo; Per Øystein Sakariassen; Eskil Eskilsson; Daniel Stieber; Olivier Keunen; Narve Brekka; Ingrid Moen; Janice M. Nigro; Olav K. Vintermyr; Morten Lund-Johansen; Simone Niclou; Sverre J. Mørk; Per Øyvind Enger; Rolf Bjerkvig; Hrvoje Miletic

doi:10.1007/s00401-013-1101-1

EGFR wild-type amplification and activation promote invasion and development of glioblastoma independent of angiogenesis

Krishna M. Talasila, Anke Soentgerath, Philipp Euskirchen, Gro V. Rosland, Jian Wang, Peter C. Huszthy, Lars Prestegarden, Kai Ove Skaftnesmo, Per Øystein Sakariassen, Eskil Eskilsson, Daniel Stieber, Olivier Keunen, Narve Brekka, Ingrid Moen, Janice M. Nigro, Olav K. Vintermyr, Morten Lund-Johansen, Simone Niclou, Sverre J. Mørk, Per Øyvind EngerRolf Bjerkvig, Hrvoje Miletic

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109 Scopus citations

Abstract

Angiogenesis is regarded as a hallmark of cancer progression and it has been postulated that solid tumor growth depends on angiogenesis. At present, however, it is clear that tumor cell invasion can occur without angiogenesis, a phenomenon that is particularly evident by the infiltrative growth of malignant brain tumors, such as glioblastomas (GBMs). In these tumors, amplification or overexpression of wild-type (wt) or truncated and constitutively activated epidermal growth factor receptor (EGFR) are regarded as important events in GBM development, where the complex downstream signaling events have been implicated in tumor cell invasion, angiogenesis and proliferation. Here, we show that amplification and in particular activation of wild-type EGFR represents an underlying mechanism for non-angiogenic, invasive tumor growth. Using a clinically relevant human GBM xenograft model, we show that tumor cells with EGFR gene amplification and activation diffusely infiltrate normal brain tissue independent of angiogenesis and that transient inhibition of EGFR activity by cetuximab inhibits the invasive tumor growth. Moreover, stable, longterm expression of a dominant-negative EGFR leads to a mesenchymal to epithelial-like transition and induction of angiogenic tumor growth. Analysis of human GBM biopsies confirmed that EGFR activation correlated with invasive/non-angiogenic tumor growth. In conclusion, our results indicate that activation of wild-type EGFR promotes invasion and glioblastoma development independent of angiogenesis, whereas loss of its activity results in angiogenic tumor growth.

Original language	English (US)
Pages (from-to)	683-698
Number of pages	16
Journal	Acta neuropathologica
Volume	125
Issue number	5
DOIs	https://doi.org/10.1007/s00401-013-1101-1
State	Published - May 2013

Keywords

EGFR amplification
Glioblastoma
Invasion

ASJC Scopus subject areas

Pathology and Forensic Medicine
Clinical Neurology
Cellular and Molecular Neuroscience

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10.1007/s00401-013-1101-1

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Talasila, K. M., Soentgerath, A., Euskirchen, P., Rosland, G. V., Wang, J., Huszthy, P. C., Prestegarden, L., Skaftnesmo, K. O., Sakariassen, P. Ø., Eskilsson, E., Stieber, D., Keunen, O., Brekka, N., Moen, I., Nigro, J. M., Vintermyr, O. K., Lund-Johansen, M., Niclou, S., Mørk, S. J., ... Miletic, H. (2013). EGFR wild-type amplification and activation promote invasion and development of glioblastoma independent of angiogenesis. Acta neuropathologica, 125(5), 683-698. https://doi.org/10.1007/s00401-013-1101-1

Talasila, KM, Soentgerath, A, Euskirchen, P, Rosland, GV, Wang, J, Huszthy, PC, Prestegarden, L, Skaftnesmo, KO, Sakariassen, PØ, Eskilsson, E, Stieber, D, Keunen, O, Brekka, N, Moen, I, Nigro, JM, Vintermyr, OK, Lund-Johansen, M, Niclou, S, Mørk, SJ, Enger, PØ, Bjerkvig, R & Miletic, H 2013, 'EGFR wild-type amplification and activation promote invasion and development of glioblastoma independent of angiogenesis', Acta neuropathologica, vol. 125, no. 5, pp. 683-698. https://doi.org/10.1007/s00401-013-1101-1

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title = "EGFR wild-type amplification and activation promote invasion and development of glioblastoma independent of angiogenesis",

abstract = "Angiogenesis is regarded as a hallmark of cancer progression and it has been postulated that solid tumor growth depends on angiogenesis. At present, however, it is clear that tumor cell invasion can occur without angiogenesis, a phenomenon that is particularly evident by the infiltrative growth of malignant brain tumors, such as glioblastomas (GBMs). In these tumors, amplification or overexpression of wild-type (wt) or truncated and constitutively activated epidermal growth factor receptor (EGFR) are regarded as important events in GBM development, where the complex downstream signaling events have been implicated in tumor cell invasion, angiogenesis and proliferation. Here, we show that amplification and in particular activation of wild-type EGFR represents an underlying mechanism for non-angiogenic, invasive tumor growth. Using a clinically relevant human GBM xenograft model, we show that tumor cells with EGFR gene amplification and activation diffusely infiltrate normal brain tissue independent of angiogenesis and that transient inhibition of EGFR activity by cetuximab inhibits the invasive tumor growth. Moreover, stable, longterm expression of a dominant-negative EGFR leads to a mesenchymal to epithelial-like transition and induction of angiogenic tumor growth. Analysis of human GBM biopsies confirmed that EGFR activation correlated with invasive/non-angiogenic tumor growth. In conclusion, our results indicate that activation of wild-type EGFR promotes invasion and glioblastoma development independent of angiogenesis, whereas loss of its activity results in angiogenic tumor growth.",

keywords = "EGFR amplification, Glioblastoma, Invasion",

author = "Talasila, {Krishna M.} and Anke Soentgerath and Philipp Euskirchen and Rosland, {Gro V.} and Jian Wang and Huszthy, {Peter C.} and Lars Prestegarden and Skaftnesmo, {Kai Ove} and Sakariassen, {Per {\O}ystein} and Eskil Eskilsson and Daniel Stieber and Olivier Keunen and Narve Brekka and Ingrid Moen and Nigro, {Janice M.} and Vintermyr, {Olav K.} and Morten Lund-Johansen and Simone Niclou and M{\o}rk, {Sverre J.} and Enger, {Per {\O}yvind} and Rolf Bjerkvig and Hrvoje Miletic",

note = "Funding Information: Acknowledgments We thank I. Gavlen, B. Hansen, E. Fick, L. V{\aa}rdal, E. Jensen, A. S. Herdlev{\ae}r, R. Owen, S. Leh, K. Mangseth and E. Mutlu for expert technical assistance and the Molecular imaging center (MIC) in Bergen, Norway for technical support. We thank A. Muller from the Genomics Research Unit of CRP-Sant{\'e} in Luxembourg for expert assistance with the use of Ingenuity Pathway Analysis. K. Talasila was supported by a PhD fellowship from the University of Bergen. This work was supported by the Research Council of Norway (grant 213630 to HM), The Norwegian Cancer Society, Helse Vest, Haukeland University Hospital, the Bergen Medical Research Foundation, the European Commission 6th Framework Programme (Contract 504743) and by the CORE program of the Fonds National de la Recherche (FNR) in Luxembourg (ESCAPE C10/BM/784322).",

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doi = "10.1007/s00401-013-1101-1",

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T1 - EGFR wild-type amplification and activation promote invasion and development of glioblastoma independent of angiogenesis

AU - Talasila, Krishna M.

AU - Soentgerath, Anke

AU - Euskirchen, Philipp

AU - Rosland, Gro V.

AU - Wang, Jian

AU - Huszthy, Peter C.

AU - Prestegarden, Lars

AU - Skaftnesmo, Kai Ove

AU - Sakariassen, Per Øystein

AU - Eskilsson, Eskil

AU - Stieber, Daniel

AU - Keunen, Olivier

AU - Brekka, Narve

AU - Moen, Ingrid

AU - Nigro, Janice M.

AU - Vintermyr, Olav K.

AU - Lund-Johansen, Morten

AU - Niclou, Simone

AU - Mørk, Sverre J.

AU - Enger, Per Øyvind

AU - Bjerkvig, Rolf

AU - Miletic, Hrvoje

N1 - Funding Information: Acknowledgments We thank I. Gavlen, B. Hansen, E. Fick, L. Vårdal, E. Jensen, A. S. Herdlevær, R. Owen, S. Leh, K. Mangseth and E. Mutlu for expert technical assistance and the Molecular imaging center (MIC) in Bergen, Norway for technical support. We thank A. Muller from the Genomics Research Unit of CRP-Santé in Luxembourg for expert assistance with the use of Ingenuity Pathway Analysis. K. Talasila was supported by a PhD fellowship from the University of Bergen. This work was supported by the Research Council of Norway (grant 213630 to HM), The Norwegian Cancer Society, Helse Vest, Haukeland University Hospital, the Bergen Medical Research Foundation, the European Commission 6th Framework Programme (Contract 504743) and by the CORE program of the Fonds National de la Recherche (FNR) in Luxembourg (ESCAPE C10/BM/784322).

PY - 2013/5

Y1 - 2013/5

N2 - Angiogenesis is regarded as a hallmark of cancer progression and it has been postulated that solid tumor growth depends on angiogenesis. At present, however, it is clear that tumor cell invasion can occur without angiogenesis, a phenomenon that is particularly evident by the infiltrative growth of malignant brain tumors, such as glioblastomas (GBMs). In these tumors, amplification or overexpression of wild-type (wt) or truncated and constitutively activated epidermal growth factor receptor (EGFR) are regarded as important events in GBM development, where the complex downstream signaling events have been implicated in tumor cell invasion, angiogenesis and proliferation. Here, we show that amplification and in particular activation of wild-type EGFR represents an underlying mechanism for non-angiogenic, invasive tumor growth. Using a clinically relevant human GBM xenograft model, we show that tumor cells with EGFR gene amplification and activation diffusely infiltrate normal brain tissue independent of angiogenesis and that transient inhibition of EGFR activity by cetuximab inhibits the invasive tumor growth. Moreover, stable, longterm expression of a dominant-negative EGFR leads to a mesenchymal to epithelial-like transition and induction of angiogenic tumor growth. Analysis of human GBM biopsies confirmed that EGFR activation correlated with invasive/non-angiogenic tumor growth. In conclusion, our results indicate that activation of wild-type EGFR promotes invasion and glioblastoma development independent of angiogenesis, whereas loss of its activity results in angiogenic tumor growth.

AB - Angiogenesis is regarded as a hallmark of cancer progression and it has been postulated that solid tumor growth depends on angiogenesis. At present, however, it is clear that tumor cell invasion can occur without angiogenesis, a phenomenon that is particularly evident by the infiltrative growth of malignant brain tumors, such as glioblastomas (GBMs). In these tumors, amplification or overexpression of wild-type (wt) or truncated and constitutively activated epidermal growth factor receptor (EGFR) are regarded as important events in GBM development, where the complex downstream signaling events have been implicated in tumor cell invasion, angiogenesis and proliferation. Here, we show that amplification and in particular activation of wild-type EGFR represents an underlying mechanism for non-angiogenic, invasive tumor growth. Using a clinically relevant human GBM xenograft model, we show that tumor cells with EGFR gene amplification and activation diffusely infiltrate normal brain tissue independent of angiogenesis and that transient inhibition of EGFR activity by cetuximab inhibits the invasive tumor growth. Moreover, stable, longterm expression of a dominant-negative EGFR leads to a mesenchymal to epithelial-like transition and induction of angiogenic tumor growth. Analysis of human GBM biopsies confirmed that EGFR activation correlated with invasive/non-angiogenic tumor growth. In conclusion, our results indicate that activation of wild-type EGFR promotes invasion and glioblastoma development independent of angiogenesis, whereas loss of its activity results in angiogenic tumor growth.

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KW - Glioblastoma

KW - Invasion

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EGFR wild-type amplification and activation promote invasion and development of glioblastoma independent of angiogenesis

Abstract

Keywords

ASJC Scopus subject areas

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