Epigenetic Activation of WNT5A Drives Glioblastoma Stem Cell Differentiation and Invasive Growth | Zendy

Baoli Hu | Zendy; Qianghu Wang | Zendy; Yanru Wang | Zendy; Sujun Hua | Zendy; Charles-Etienne Gabriel Sauvé | Zendy; Derrick Sek Tong Ong | Zendy; Zheng D. Lan | Zendy; Qing Chang | Zendy; Yan Wing Ho | Zendy; Marta Moreno Monasterio | Zendy; Xin Lü | Zendy; Yi Zhong | Zendy; Jianhua Zhang | Zendy; Pingna Deng | Zendy; Zhi Tan | Zendy; Guocan Wang | Zendy; Wenting Liao | Zendy; Lynda Corley | Zendy; Haiyan Yan | Zendy; Junxia Zhang | Zendy; Yongping You | Zendy; Ning Liu | Zendy; Linbo Cai | Zendy; Gaetano Finocchiaro | Zendy; Joanna J. Phillips | Zendy; Mitchel S. Berger | Zendy; Denise J. Spring | Zendy; Jian Hu | Zendy; Erik P. Sulman | Zendy; Gregory N. Fuller | Zendy; Lynda Chin | Zendy; Roeland Verhaak | Zendy; Ronald A. DePinho | Zendy

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Epigenetic Activation of WNT5A Drives Glioblastoma Stem Cell Differentiation and Invasive Growth

Author(s) -

Baoli Hu,

Qianghu Wang,

Yanru Wang,

Sujun Hua,

Charles-Etienne Gabriel Sauvé,

Derrick Sek Tong Ong,

Zheng D. Lan,

Qing Chang,

Yan Wing Ho,

Marta Moreno Monasterio,

Xin Lü,

Yi Zhong,

Jianhua Zhang,

Pingna Deng,

Zhi Tan,

Guocan Wang,

Wenting Liao,

Lynda Corley,

Haiyan Yan,

Junxia Zhang,

Yongping You,

Ning Liu,

Linbo Cai,

Gaetano Finocchiaro,

Joanna J. Phillips,

Mitchel S. Berger,

Denise J. Spring,

Jian Hu,

Erik P. Sulman,

Gregory N. Fuller,

Lynda Chin,

Roeland Verhaak,

Ronald A. DePinho

Publication year - 2016

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2016.10.039

Subject(s) - biology , glioma , neural stem cell , progenitor cell , cancer research , stem cell , transcriptome , epigenetics , cancer stem cell , cellular differentiation , pathology , microbiology and biotechnology , gene expression , genetics , gene , medicine

Glioblastoma stem cells (GSCs) are implicated in tumor neovascularization, invasiveness, and therapeutic resistance. To illuminate mechanisms governing these hallmark features, we developed a de novo glioblastoma multiforme (GBM) model derived from immortalized human neural stem/progenitor cells (hNSCs) to enable precise system-level comparisons of pre-malignant and oncogene-induced malignant states of NSCs. Integrated transcriptomic and epigenomic analyses uncovered a PAX6/DLX5 transcriptional program driving WNT5A-mediated GSC differentiation into endothelial-like cells (GdECs). GdECs recruit existing endothelial cells to promote peritumoral satellite lesions, which serve as a niche supporting the growth of invasive glioma cells away from the primary tumor. Clinical data reveal higher WNT5A and GdECs expression in peritumoral and recurrent GBMs relative to matched intratumoral and primary GBMs, respectively, supporting WNT5A-mediated GSC differentiation and invasive growth in disease recurrence. Thus, the PAX6/DLX5-WNT5A axis governs the diffuse spread of glioma cells throughout the brain parenchyma, contributing to the lethality of GBM.

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