Hypoxia enhances migration and invasion in glioblastoma by promoting a mesenchymal shift mediated by the HIF1α-ZEB1 axis

Justin Vareecal Joseph; Siobhan Conroy; Kirill Pavlov; Pallavi Sontakke; Tushar Tomar; Ellie Eggens-Meijer; Veerakumar Balasubramaniyan; Michiel Wagemakers; Wilfred F. A. den Dunnen; Frank A. E. Kruyt

doi:10.1016/j.canlet.2015.01.010

Hypoxia enhances migration and invasion in glioblastoma by promoting a mesenchymal shift mediated by the HIF1α-ZEB1 axis

Justin Vareecal Joseph
, Siobhan Conroy
, Kirill Pavlov
, Pallavi Sontakke
, Tushar Tomar
, Ellie Eggens-Meijer
, Veerakumar Balasubramaniyan
, Michiel Wagemakers
, Wilfred F. A. den Dunnen
, Frank A. E. Kruyt^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Glioblastoma (GBM) is the most common brain tumor in adults and the mesenchymal GBM subtype was reported to be the most malignant, presenting severe hypoxia and necrosis. Here, we investigated the possible role of a hypoxic microenvironment for inducing a mesenchymal and invasive phenotype. The exposure of non-mesenchymal SNB75 and U87 cells to hypoxia induced a strong change in cell morphology that was accompanied by enhanced invasive capacity and the acquisition of mesenchymal marker expression. Further analyses showed the induction of HIF1α and HIF2α by hypoxia and exposure to digoxin, a cardiac glycoside known to inhibit HIF1/2 expression, was able to prevent hypoxia-induced mesenchymal transition. ShRNA-mediated knockdown of HIF1α, and not HIF2α, prevented this transition, as well as the knockdown of the EMT transcription factor ZEB1. We provide further evidence for a hypoxia-induced mesenchymal shift in GBM primary material by showing co-localization of GLUT1, ZEB1 and the mesenchymal marker YKL40 in hypoxic regions of the tumor. Collectively, our results identify a HIF1α-ZEB1 signaling axis that promotes hypoxia induced mesenchymal shift and invasion in GBM in a cell line dependent fashion.

Original language	English
Pages (from-to)	107-116
Number of pages	10
Journal	Cancer letters
Volume	359
Issue number	1
DOIs	https://doi.org/10.1016/j.canlet.2015.01.010
Publication status	Published - 1-Apr-2015

Keywords

GBM
Invasion
hypoxia
Mesenchymal phenotype
TUMOR-SUPPRESSOR PROTEIN
STEM-CELLS
MALIGNANT GLIOMAS
RADIATION-RESISTANCE
INDUCIBLE FACTORS
DRUG-RESISTANCE
BRAIN-TUMORS
TRANSITION
CANCER
DIFFERENTIATION

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Hypoxia enhances migration and invasion in glioblastoma by promoting a mesenchymalFinal publisher's version, 3.18 MBLicence: Elsevier

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Vareecal Joseph, J., Conroy, S., Pavlov, K., Sontakke, P., Tomar, T., Eggens-Meijer, E., Balasubramaniyan, V., Wagemakers, M., den Dunnen, W. F. A., & Kruyt, F. A. E. (2015). Hypoxia enhances migration and invasion in glioblastoma by promoting a mesenchymal shift mediated by the HIF1α-ZEB1 axis. Cancer letters, 359(1), 107-116. https://doi.org/10.1016/j.canlet.2015.01.010

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title = "Hypoxia enhances migration and invasion in glioblastoma by promoting a mesenchymal shift mediated by the HIF1α-ZEB1 axis",

abstract = "Glioblastoma (GBM) is the most common brain tumor in adults and the mesenchymal GBM subtype was reported to be the most malignant, presenting severe hypoxia and necrosis. Here, we investigated the possible role of a hypoxic microenvironment for inducing a mesenchymal and invasive phenotype. The exposure of non-mesenchymal SNB75 and U87 cells to hypoxia induced a strong change in cell morphology that was accompanied by enhanced invasive capacity and the acquisition of mesenchymal marker expression. Further analyses showed the induction of HIF1α and HIF2α by hypoxia and exposure to digoxin, a cardiac glycoside known to inhibit HIF1/2 expression, was able to prevent hypoxia-induced mesenchymal transition. ShRNA-mediated knockdown of HIF1α, and not HIF2α, prevented this transition, as well as the knockdown of the EMT transcription factor ZEB1. We provide further evidence for a hypoxia-induced mesenchymal shift in GBM primary material by showing co-localization of GLUT1, ZEB1 and the mesenchymal marker YKL40 in hypoxic regions of the tumor. Collectively, our results identify a HIF1α-ZEB1 signaling axis that promotes hypoxia induced mesenchymal shift and invasion in GBM in a cell line dependent fashion.",

keywords = "GBM, Invasion, hypoxia, Mesenchymal phenotype, TUMOR-SUPPRESSOR PROTEIN, STEM-CELLS, MALIGNANT GLIOMAS, RADIATION-RESISTANCE, INDUCIBLE FACTORS, DRUG-RESISTANCE, BRAIN-TUMORS, TRANSITION, CANCER, DIFFERENTIATION",

author = "\{Vareecal Joseph\}, Justin and Siobhan Conroy and Kirill Pavlov and Pallavi Sontakke and Tushar Tomar and Ellie Eggens-Meijer and Veerakumar Balasubramaniyan and Michiel Wagemakers and \{den Dunnen\}, \{Wilfred F. A.\} and Kruyt, \{Frank A. E.\}",

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T1 - Hypoxia enhances migration and invasion in glioblastoma by promoting a mesenchymal shift mediated by the HIF1α-ZEB1 axis

AU - Vareecal Joseph, Justin

AU - Conroy, Siobhan

AU - Pavlov, Kirill

AU - Sontakke, Pallavi

AU - Tomar, Tushar

AU - Eggens-Meijer, Ellie

AU - Balasubramaniyan, Veerakumar

AU - Wagemakers, Michiel

AU - den Dunnen, Wilfred F. A.

AU - Kruyt, Frank A. E.

PY - 2015/4/1

Y1 - 2015/4/1

N2 - Glioblastoma (GBM) is the most common brain tumor in adults and the mesenchymal GBM subtype was reported to be the most malignant, presenting severe hypoxia and necrosis. Here, we investigated the possible role of a hypoxic microenvironment for inducing a mesenchymal and invasive phenotype. The exposure of non-mesenchymal SNB75 and U87 cells to hypoxia induced a strong change in cell morphology that was accompanied by enhanced invasive capacity and the acquisition of mesenchymal marker expression. Further analyses showed the induction of HIF1α and HIF2α by hypoxia and exposure to digoxin, a cardiac glycoside known to inhibit HIF1/2 expression, was able to prevent hypoxia-induced mesenchymal transition. ShRNA-mediated knockdown of HIF1α, and not HIF2α, prevented this transition, as well as the knockdown of the EMT transcription factor ZEB1. We provide further evidence for a hypoxia-induced mesenchymal shift in GBM primary material by showing co-localization of GLUT1, ZEB1 and the mesenchymal marker YKL40 in hypoxic regions of the tumor. Collectively, our results identify a HIF1α-ZEB1 signaling axis that promotes hypoxia induced mesenchymal shift and invasion in GBM in a cell line dependent fashion.

AB - Glioblastoma (GBM) is the most common brain tumor in adults and the mesenchymal GBM subtype was reported to be the most malignant, presenting severe hypoxia and necrosis. Here, we investigated the possible role of a hypoxic microenvironment for inducing a mesenchymal and invasive phenotype. The exposure of non-mesenchymal SNB75 and U87 cells to hypoxia induced a strong change in cell morphology that was accompanied by enhanced invasive capacity and the acquisition of mesenchymal marker expression. Further analyses showed the induction of HIF1α and HIF2α by hypoxia and exposure to digoxin, a cardiac glycoside known to inhibit HIF1/2 expression, was able to prevent hypoxia-induced mesenchymal transition. ShRNA-mediated knockdown of HIF1α, and not HIF2α, prevented this transition, as well as the knockdown of the EMT transcription factor ZEB1. We provide further evidence for a hypoxia-induced mesenchymal shift in GBM primary material by showing co-localization of GLUT1, ZEB1 and the mesenchymal marker YKL40 in hypoxic regions of the tumor. Collectively, our results identify a HIF1α-ZEB1 signaling axis that promotes hypoxia induced mesenchymal shift and invasion in GBM in a cell line dependent fashion.

KW - GBM

KW - Invasion

KW - hypoxia

KW - Mesenchymal phenotype

KW - TUMOR-SUPPRESSOR PROTEIN

KW - STEM-CELLS

KW - MALIGNANT GLIOMAS

KW - RADIATION-RESISTANCE

KW - INDUCIBLE FACTORS

KW - DRUG-RESISTANCE

KW - BRAIN-TUMORS

KW - TRANSITION

KW - CANCER

KW - DIFFERENTIATION

U2 - 10.1016/j.canlet.2015.01.010

DO - 10.1016/j.canlet.2015.01.010

M3 - Article

C2 - 25592037

SN - 0304-3835

VL - 359

SP - 107

EP - 116

JO - Cancer letters

JF - Cancer letters

IS - 1

ER -

Hypoxia enhances migration and invasion in glioblastoma by promoting a mesenchymal shift mediated by the HIF1α-ZEB1 axis

Abstract

Keywords

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