ZEB1 loss increases glioma stem cell tumorigenicity and resistance to chemoradiation

George K. Hanna; Mecca Madany; Angelique Sao Mai Sy Tay; Lincoln A. Edwards; Sungjin Kim; Justin S. Michael; Miriam Nuno; Tom Thomas; Aiguo Li; Dror Berel; Keith L. Black; Xuemo Fan; Wei Zhang; Jeremy D. Rudnick; Rongfu Wang; John S. Yu

doi:10.3171/2022.7.JNS22259

ZEB1 loss increases glioma stem cell tumorigenicity and resistance to chemoradiation

George K. Hanna, Mecca Madany, Angelique Sao Mai Sy Tay, Lincoln A. Edwards, Sungjin Kim, Justin S. Michael, Miriam Nuno, Tom Thomas, Aiguo Li, Dror Berel, Keith L. Black, Xuemo Fan, Wei Zhang, Jeremy D. Rudnick, Rongfu Wang, John S. Yu

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Abstract

OBJECTIVE Glioblastoma has been known to be resistant to chemotherapy and radiation, whereas the underlying mechanisms of resistance have not been fully elucidated. The authors studied the role of the transcription factor ZEB1 (zinc finger E-box-binding homeobox 1 protein), which is associated with epithelial-mesenchymal transition (EMT) and is central to the stemness of glioblastoma, to determine its role in therapeutic resistance to radiation and chemotherapy. The authors previously demonstrated that ZEB1 is deleted in a majority of glioblastomas. METHODS The authors explored resistance to therapy in the context of ZEB1 loss and overexpression in glioma stem cells (GSCs) and in patient data. RESULTS Patients with ZEB1 loss had a shorter survival time than patients with wild-type ZEB1 in both the high- and low-MGMT groups. Consistent with the clinical data, mice implanted with ZEB1 knockdown GSCs showed shortened survival compared with mice inoculated with nonsilencing control (NS) short-hairpin RNA (shRNA) GSC glioblastoma. ZEB1-deleted GSCs demonstrated increased tumorigenicity with regard to proliferation and invasion. Importantly, GSCs that lose ZEB1 expression develop enhanced resistance to chemotherapy, radiotherapy, and combined chemoradiation. ZEB1 loss may lead to increased HER3 expression through the HER3/Akt pathway associated with this chemoresistance. Conversely, overexpression of ZEB1 in GSCs that are ZEB1 null leads to increased sensitivity to chemoradiation. CONCLUSIONS The study results indicate that ZEB1 loss in cancer stem cells confers resistance to chemoradiation and uncovers a potentially targetable cell surface receptor in these resistant cells.

Original language	English (US)
Pages (from-to)	1313-1324
Number of pages	12
Journal	Journal of Neurosurgery
Volume	138
Issue number	5
DOIs	https://doi.org/10.3171/2022.7.JNS22259
State	Published - May 1 2023

Keywords

ZEB1
chemotherapy
glioblastoma
glioma stem cells
oncology
radiation
Zinc Finger E-box-Binding Homeobox 1/genetics
Glioma/metabolism
Cell Proliferation
Neoplastic Stem Cells/metabolism
Transcription Factors/genetics
Glioblastoma/genetics
Animals
Epithelial-Mesenchymal Transition/genetics
Cell Line, Tumor
Mice
RNA, Small Interfering/therapeutic use

ASJC Scopus subject areas

Clinical Neurology
Surgery

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10.3171/2022.7.JNS22259

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Hanna, G. K., Madany, M., Tay, A. S. M. S., Edwards, L. A., Kim, S., Michael, J. S., Nuno, M., Thomas, T., Li, A., Berel, D., Black, K. L., Fan, X., Zhang, W., Rudnick, J. D., Wang, R., & Yu, J. S. (2023). ZEB1 loss increases glioma stem cell tumorigenicity and resistance to chemoradiation. Journal of Neurosurgery, 138(5), 1313-1324. https://doi.org/10.3171/2022.7.JNS22259

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title = "ZEB1 loss increases glioma stem cell tumorigenicity and resistance to chemoradiation",

abstract = "OBJECTIVE Glioblastoma has been known to be resistant to chemotherapy and radiation, whereas the underlying mechanisms of resistance have not been fully elucidated. The authors studied the role of the transcription factor ZEB1 (zinc finger E-box-binding homeobox 1 protein), which is associated with epithelial-mesenchymal transition (EMT) and is central to the stemness of glioblastoma, to determine its role in therapeutic resistance to radiation and chemotherapy. The authors previously demonstrated that ZEB1 is deleted in a majority of glioblastomas. METHODS The authors explored resistance to therapy in the context of ZEB1 loss and overexpression in glioma stem cells (GSCs) and in patient data. RESULTS Patients with ZEB1 loss had a shorter survival time than patients with wild-type ZEB1 in both the high- and low-MGMT groups. Consistent with the clinical data, mice implanted with ZEB1 knockdown GSCs showed shortened survival compared with mice inoculated with nonsilencing control (NS) short-hairpin RNA (shRNA) GSC glioblastoma. ZEB1-deleted GSCs demonstrated increased tumorigenicity with regard to proliferation and invasion. Importantly, GSCs that lose ZEB1 expression develop enhanced resistance to chemotherapy, radiotherapy, and combined chemoradiation. ZEB1 loss may lead to increased HER3 expression through the HER3/Akt pathway associated with this chemoresistance. Conversely, overexpression of ZEB1 in GSCs that are ZEB1 null leads to increased sensitivity to chemoradiation. CONCLUSIONS The study results indicate that ZEB1 loss in cancer stem cells confers resistance to chemoradiation and uncovers a potentially targetable cell surface receptor in these resistant cells.",

keywords = "ZEB1, chemotherapy, glioblastoma, glioma stem cells, oncology, radiation, Zinc Finger E-box-Binding Homeobox 1/genetics, Glioma/metabolism, Cell Proliferation, Neoplastic Stem Cells/metabolism, Transcription Factors/genetics, Glioblastoma/genetics, Animals, Epithelial-Mesenchymal Transition/genetics, Cell Line, Tumor, Mice, RNA, Small Interfering/therapeutic use",

author = "Hanna, {George K.} and Mecca Madany and Tay, {Angelique Sao Mai Sy} and Edwards, {Lincoln A.} and Sungjin Kim and Michael, {Justin S.} and Miriam Nuno and Tom Thomas and Aiguo Li and Dror Berel and Black, {Keith L.} and Xuemo Fan and Wei Zhang and Rudnick, {Jeremy D.} and Rongfu Wang and Yu, {John S.}",

note = "Funding Information: This study was funded by the National Institute of Neurological Disorders and Stroke (RO1 NS048959) and the Milken Foundation. We acknowledge the National Institute of Neurological Disorders and Stroke, FasterCures, and the Milken Foundation for their financial support in the production of this research and manuscript. Publisher Copyright: {\textcopyright}AANS 2023, except where prohibited by US copyright law.",

year = "2023",

month = may,

day = "1",

doi = "10.3171/2022.7.JNS22259",

language = "English (US)",

volume = "138",

pages = "1313--1324",

journal = "Journal of Neurosurgery",

issn = "0022-3085",

publisher = "American Association of Neurological Surgeons",

number = "5",

}

TY - JOUR

T1 - ZEB1 loss increases glioma stem cell tumorigenicity and resistance to chemoradiation

AU - Hanna, George K.

AU - Madany, Mecca

AU - Tay, Angelique Sao Mai Sy

AU - Edwards, Lincoln A.

AU - Kim, Sungjin

AU - Michael, Justin S.

AU - Nuno, Miriam

AU - Thomas, Tom

AU - Li, Aiguo

AU - Berel, Dror

AU - Black, Keith L.

AU - Fan, Xuemo

AU - Zhang, Wei

AU - Rudnick, Jeremy D.

AU - Wang, Rongfu

AU - Yu, John S.

N1 - Funding Information: This study was funded by the National Institute of Neurological Disorders and Stroke (RO1 NS048959) and the Milken Foundation. We acknowledge the National Institute of Neurological Disorders and Stroke, FasterCures, and the Milken Foundation for their financial support in the production of this research and manuscript. Publisher Copyright: ©AANS 2023, except where prohibited by US copyright law.

PY - 2023/5/1

Y1 - 2023/5/1

N2 - OBJECTIVE Glioblastoma has been known to be resistant to chemotherapy and radiation, whereas the underlying mechanisms of resistance have not been fully elucidated. The authors studied the role of the transcription factor ZEB1 (zinc finger E-box-binding homeobox 1 protein), which is associated with epithelial-mesenchymal transition (EMT) and is central to the stemness of glioblastoma, to determine its role in therapeutic resistance to radiation and chemotherapy. The authors previously demonstrated that ZEB1 is deleted in a majority of glioblastomas. METHODS The authors explored resistance to therapy in the context of ZEB1 loss and overexpression in glioma stem cells (GSCs) and in patient data. RESULTS Patients with ZEB1 loss had a shorter survival time than patients with wild-type ZEB1 in both the high- and low-MGMT groups. Consistent with the clinical data, mice implanted with ZEB1 knockdown GSCs showed shortened survival compared with mice inoculated with nonsilencing control (NS) short-hairpin RNA (shRNA) GSC glioblastoma. ZEB1-deleted GSCs demonstrated increased tumorigenicity with regard to proliferation and invasion. Importantly, GSCs that lose ZEB1 expression develop enhanced resistance to chemotherapy, radiotherapy, and combined chemoradiation. ZEB1 loss may lead to increased HER3 expression through the HER3/Akt pathway associated with this chemoresistance. Conversely, overexpression of ZEB1 in GSCs that are ZEB1 null leads to increased sensitivity to chemoradiation. CONCLUSIONS The study results indicate that ZEB1 loss in cancer stem cells confers resistance to chemoradiation and uncovers a potentially targetable cell surface receptor in these resistant cells.

AB - OBJECTIVE Glioblastoma has been known to be resistant to chemotherapy and radiation, whereas the underlying mechanisms of resistance have not been fully elucidated. The authors studied the role of the transcription factor ZEB1 (zinc finger E-box-binding homeobox 1 protein), which is associated with epithelial-mesenchymal transition (EMT) and is central to the stemness of glioblastoma, to determine its role in therapeutic resistance to radiation and chemotherapy. The authors previously demonstrated that ZEB1 is deleted in a majority of glioblastomas. METHODS The authors explored resistance to therapy in the context of ZEB1 loss and overexpression in glioma stem cells (GSCs) and in patient data. RESULTS Patients with ZEB1 loss had a shorter survival time than patients with wild-type ZEB1 in both the high- and low-MGMT groups. Consistent with the clinical data, mice implanted with ZEB1 knockdown GSCs showed shortened survival compared with mice inoculated with nonsilencing control (NS) short-hairpin RNA (shRNA) GSC glioblastoma. ZEB1-deleted GSCs demonstrated increased tumorigenicity with regard to proliferation and invasion. Importantly, GSCs that lose ZEB1 expression develop enhanced resistance to chemotherapy, radiotherapy, and combined chemoradiation. ZEB1 loss may lead to increased HER3 expression through the HER3/Akt pathway associated with this chemoresistance. Conversely, overexpression of ZEB1 in GSCs that are ZEB1 null leads to increased sensitivity to chemoradiation. CONCLUSIONS The study results indicate that ZEB1 loss in cancer stem cells confers resistance to chemoradiation and uncovers a potentially targetable cell surface receptor in these resistant cells.

KW - ZEB1

KW - chemotherapy

KW - glioblastoma

KW - glioma stem cells

KW - oncology

KW - radiation

KW - Zinc Finger E-box-Binding Homeobox 1/genetics

KW - Glioma/metabolism

KW - Cell Proliferation

KW - Neoplastic Stem Cells/metabolism

KW - Transcription Factors/genetics

KW - Glioblastoma/genetics

KW - Animals

KW - Epithelial-Mesenchymal Transition/genetics

KW - Cell Line, Tumor

KW - Mice

KW - RNA, Small Interfering/therapeutic use

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DO - 10.3171/2022.7.JNS22259

M3 - Article

C2 - 36115050

AN - SCOPUS:85158867427

SN - 0022-3085

VL - 138

SP - 1313

EP - 1324

JO - Journal of Neurosurgery

JF - Journal of Neurosurgery

IS - 5

ER -

ZEB1 loss increases glioma stem cell tumorigenicity and resistance to chemoradiation

Abstract

Keywords

ASJC Scopus subject areas

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