ANGI-11. MOLECULAR MECHANISM OF TARGETING EPITHELIAL MEMBRANE PROTEIN-2 IN MALIGNANT MENINGIOMAS

Abstract BACKGROUND Meningiomas comprise approximately one-third of all primary central nervous system neoplasms. While many meningiomas remain benign, as many as 35% of meningiomas are graded as atypical or anaplastic/malignant with a 5-y survival rate as low as 35%. Targeting the tetraspan protein...

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Published in:Neuro-oncology (Charlottesville, Va.) Va.), 2023-11, Vol.25 (Supplement_5), p.v3-v3
Main Authors: Yang, Isaac, Mekonnen, Mahlet, Chandla, Anubhav, Aguirre, Brian, Wadehra, Madhuri
Format: Article
Language:English
Subjects:
Angiogenesis and Invasion
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Summary:Abstract BACKGROUND Meningiomas comprise approximately one-third of all primary central nervous system neoplasms. While many meningiomas remain benign, as many as 35% of meningiomas are graded as atypical or anaplastic/malignant with a 5-y survival rate as low as 35%. Targeting the tetraspan protein epithelial membrane protein-2 (EMP2)-HIF1α pathway through EMP2 knockdown may inhibit tumor growth, invasion, and neoangiogenesis in malignant meningioma. METHODS In collaboration with the UCLA Brain Tumor SPORE, we gathered a panel of malignant meningiomas (IOMM-LEE, CH157). To determine the function of EMP2, we created EMP2 vector control and knockdown models in both cell lines and analyzed the cells by RNA sequencing, transcriptomic functional analysis, and migration assay. RESULTS Gene functional analysis enriched for biological processes showed that knockdown of EMP2 inhibited multiple malignant pathways in these meningioma cells including the response to hypoxia, cell proliferation, invasion, and stem cell maintenance. Further analyses of EMP2 expression with other differentially expressed genes of interest revealed that VEGFA expression significantly decreased when EMP2 is knocked down (p< 0.001). Moreover, cellular migration and invasion regulated by EMP2 were tested in control and EMP2 knockdown malignant cells using a scratch assay, where knockdown of EMP2 reduced the rate of cell invasion by 50% (p = 0.0003). Additionally, anti-EMP2 mAb treatment in the control malignant cell line significantly reduced EMP2-mediated signal transduction (p = 0.0031). CONCLUSIONS Our study is the first to demonstrate the modulation of EMP2 and its implications in malignant meningioma pathogenesis, VEGFA-HIF1α pathway, and stem cell regulation. Targeting EMP2 may result in therapeutic benefits for malignant meningioma.
ISSN:1522-8517
1523-5866
DOI:10.1093/neuonc/noad179.0011