BACKGROUND: Glioblastoma (GBM) remains a largely incurable disease as current therapy fails to target the invasive nature of glioma growth in disease progression and recurrence. Here, we use the FDA-approved drug and small molecule Hippo inhibitor Verteporfin (VP) to target YAP-TEAD activity, known to mediate convergent aspects of tumor invasion/metastasis, and assess the drug's efficacy and survival benefit in GBM models. METHODS: Up to 8 low-passage patient-derived GBM cell lines with distinct genomic drivers, including 3 primary/recurrent pairs, were treated with VP or vehicle (VEH) to assess in vitro effects on proliferation, migration, invasion, YAP-TEAD activity, and transcriptomics. Patient-derived orthotopic xenograft (PDX) models were used to assess VP's brain penetrance and effects on tumor burden and survival. RESULTS: VP treatment disturbed YAP/TAZ-TEAD activity; disrupted transcriptome signatures related to invasion, epithelial-to-mesenchymal, and proneural-to-mesenchymal transition, phenocopying TEAD1-knockout effects; and impaired tumor migration/invasion dynamics across primary and recurrent GBM lines. In an aggressive orthotopic PDX GBM model, short-term VP treatment consistently diminished core and infiltrative tumor burden, which was associated with decreased tumor expression of Ki67, nuclear YAP, TEAD1, and TEAD-associated targets EGFR, CDH2, and ITGB1. Finally, long-term VP treatment appeared nontoxic and conferred survival benefit compared to VEH in 2 PDX models: as monotherapy in primary (de novo) GBM and in combination with Temozolomide chemoradiation in recurrent GBM, where VP treatment associated with increased MGMT methylation. CONCLUSIONS: We demonstrate combined anti-invasive and anti-proliferative efficacy for VP with survival benefit in preclinical GBM models, indicating potential therapeutic value of this already FDA-approved drug if repurposed for GBM patients.
BACKGROUND: Glioblastoma (GBM) remains a largely incurable disease as current therapy fails to target the invasive nature of glioma growth in disease progression and recurrence. Here, we use the FDA-approved drug and small molecule Hippo inhibitor Verteporfin (VP) to target YAP-TEAD activity, known to mediate convergent aspects of tumor invasion/metastasis, and assess the drug's efficacy and survival benefit in GBM models. METHODS: Up to 8 low-passage patient-derived GBM cell lines with distinct genomic drivers, including 3 primary/recurrent pairs, were treated with VP or vehicle (VEH) to assess in vitro effects on proliferation, migration, invasion, YAP-TEAD activity, and transcriptomics. Patient-derived orthotopic xenograft (PDX) models were used to assess VP's brain penetrance and effects on tumor burden and survival. RESULTS: VP treatment disturbed YAP/TAZ-TEAD activity; disrupted transcriptome signatures related to invasion, epithelial-to-mesenchymal, and proneural-to-mesenchymal transition, phenocopying TEAD1-knockout effects; and impaired tumor migration/invasion dynamics across primary and recurrent GBM lines. In an aggressive orthotopic PDX GBM model, short-term VP treatment consistently diminished core and infiltrative tumor burden, which was associated with decreased tumor expression of Ki67, nuclear YAP, TEAD1, and TEAD-associated targets EGFR, CDH2, and ITGB1. Finally, long-term VP treatment appeared nontoxic and conferred survival benefit compared to VEH in 2 PDX models: as monotherapy in primary (de novo) GBM and in combination with Temozolomide chemoradiation in recurrent GBM, where VP treatment associated with increased MGMT methylation. CONCLUSIONS: We demonstrate combined anti-invasive and anti-proliferative efficacy for VP with survival benefit in preclinical GBM models, indicating potential therapeutic value of this already FDA-approved drug if repurposed for GBM patients.
Authors: Spyros Darmanis; Steven A Sloan; Derek Croote; Marco Mignardi; Sophia Chernikova; Peyman Samghababi; Ye Zhang; Norma Neff; Mark Kowarsky; Christine Caneda; Gordon Li; Steven D Chang; Ian David Connolly; Yingmei Li; Ben A Barres; Melanie Hayden Gephart; Stephen R Quake Journal: Cell Rep Date: 2017-10-31 Impact factor: 9.423
Authors: Yi Liu-Chittenden; Bo Huang; Joong Sup Shim; Qian Chen; Se-Jin Lee; Robert A Anders; Jun O Liu; Duojia Pan Journal: Genes Dev Date: 2012-06-07 Impact factor: 11.361
Authors: Xiaoyang Lan; David J Jörg; Florence M G Cavalli; Laura M Richards; Long V Nguyen; Robert J Vanner; Paul Guilhamon; Lilian Lee; Michelle M Kushida; Davide Pellacani; Nicole I Park; Fiona J Coutinho; Heather Whetstone; Hayden J Selvadurai; Clare Che; Betty Luu; Annaick Carles; Michelle Moksa; Naghmeh Rastegar; Renee Head; Sonam Dolma; Panagiotis Prinos; Michael D Cusimano; Sunit Das; Mark Bernstein; Cheryl H Arrowsmith; Andrew J Mungall; Richard A Moore; Yussanne Ma; Marco Gallo; Mathieu Lupien; Trevor J Pugh; Michael D Taylor; Martin Hirst; Connie J Eaves; Benjamin D Simons; Peter B Dirks Journal: Nature Date: 2017-08-30 Impact factor: 49.962
Authors: Jessica Tome-Garcia; Parsa Erfani; German Nudelman; Alexander M Tsankov; Igor Katsyv; Rut Tejero; Martin Walsh; Roland H Friedel; Elena Zaslavsky; Nadejda M Tsankova Journal: Nat Commun Date: 2018-10-01 Impact factor: 14.919