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YAP/TAZ Transcriptional Coactivators Create Therapeutic Vulnerability to Verteporfin in EGFR-mutant Glioblastoma

Krishanthan Vigneswaran, Nathaniel Boyd, Se-Yeong Oh, Shoeb Lallani, Andrew Boucher, Stewart G. Neill, Jeffrey J. Olson, Renee Read

2020Clinical Cancer Research127 citationsDOIOpen Access PDF

Abstract

PURPOSE: Glioblastomas (GBMs), neoplasms derived from glia and neuroglial progenitor cells, are the most common and lethal malignant primary brain tumors diagnosed in adults, with a median survival of 14 months. GBM tumorigenicity is often driven by genetic aberrations in receptor tyrosine kinases, such as amplification and mutation of EGFR. EXPERIMENTAL DESIGN: glioma model and human patient-derived GBM stem cells and xenograft models, we genetically and pharmacologically tested whether the YAP and TAZ transcription coactivators, effectors of the Hippo pathway that promote gene expression via TEA domain (TEAD) cofactors, are key drivers of GBM tumorigenicity downstream of oncogenic EGFR signaling. RESULTS: itself to create a feedforward loop to drive survival and proliferation of human GBM cells. Moreover, the benzoporphyrin derivative verteporfin, a disruptor of YAP/TAZ-TEAD-mediated transcription, preferentially induced apoptosis of cultured patient-derived EGFR-amplified/mutant GBM cells, suppressed expression of YAP/TAZ transcriptional targets, including EGFR, and conferred significant survival benefit in an orthotopic xenograft GBM model. Our efforts led us to design and initiate a phase 0 clinical trial of Visudyne, an FDA-approved liposomal formulation of verteporfin, where we used intraoperative fluorescence to observe verteporfin uptake into tumor cells in GBM tumors in human patients. CONCLUSIONS: Together, our data suggest that verteporfin is a promising therapeutic agent for EGFR-amplified and -mutant GBM.

Topics & Concepts

GlioblastomaVerteporfinCancer researchMutantBiologyMedicineGeneticsGeneChoroidal neovascularizationBiochemistryRetinalHippo pathway signaling and YAP/TAZCellular Mechanics and InteractionsAxon Guidance and Neuronal Signaling