The Hippo pathway plays a tumorigenic role in highly angiogenic glioblastoma (GBM), whereas little is known about clinically relevant Hippo pathway inhibitors' ability to target adaptive mechanisms involved in GBM chemoresistance. Their molecular impact was investigated here in vitro against an alternative process to tumour angiogenesis termed vasculogenic mimicry (VM) in GBM‐derived cell models. In silico analysis of the downstream Hippo signalling members YAP1, TAZ and TEAD1 transcript levels in low‐grade glioblastoma (LGG) and GBM tumour tissues was performed using GEPIA. TAZ transcript levels did not differ between the healthy and tumour tissues data analysed. In contrast, YAP1 transcript levels were elevated in GBM tissues, whereas TEAD1 levels were high in both LGG and GBM. All three Hippo pathway inhibitors tested, GNE7883, VT107 and IAG933 effectively inhibited U87 and U251 cell migration and in vitro VM as assessed on Cultrex matrix. YAP1 gene and protein expression were induced upon VM, and its translocation to the nucleus was inhibited by the Hippo pathway inhibitors tested. SiRNA‐mediated transient silencing of YAP1 repressed cell migration, VM formation and CTGF and Cyr61 transcription. In conclusion, targeting of VM using Hippo pathway inhibitors could help circumvent GBM chemoresistance and effectively complement other brain cancer treatments.

01 Oct 2023·Trends in cancer

Targeting TEAD-ious resistance

Article

Author: Ott, Connor A ; Aplin, Andrew E

Recent advances in targeting mutant KRAS are limited by resistance. A recent study in Nature Cancer by Hagenbeek et al. utilizes a novel inhibitor that targets the TEAD transcription factor, GNE-7883, to overcome resistance to KRAS inhibitors. Thus, TEAD inhibitors may maximize the durability of KRAS inhibitors in patients with cancer.

01 Jun 2023·Nature cancer

An allosteric pan-TEAD inhibitor blocks oncogenic YAP/TAZ signaling and overcomes KRAS G12C inhibitor resistance.

Article

Author: Kishore, Ayush ; Ye, Xin ; Yang, Michelle N-Y ; Kabza, Michal ; Lin, Eva ; Li, Jason ; Steffek, Micah ; Lacap, Jennifer A ; Zang, Richard ; An, Le ; Clausen, Saundra ; Schmidt, Stephen ; Lee, Ho-June ; Yao, Xiaosai ; Bhat, Kamakoti P ; Chen, Yi-Chen ; Zbieg, Jason R ; Arrazate, Alfonso ; Dey, Anwesha ; Chan, Emily ; Beroza, Paul ; Lorenzo, Maria N ; Hafner, Marc ; Lau, Jeffrey T ; Pham, Trang H ; Evangelista, Marie ; Noland, Cameron L ; Ahmed, Musaddeque ; Sodir, Nicole M ; Chang, Matthew T ; Hagenbeek, Thijs J ; Kubala, Marta H ; Modrusan, Zora ; Lee, Wendy ; Martin, Scott ; Maddalo, Danilo ; Levy, Elizabeth ; Di Lello, Paola ; Afghani, Shervin ; Mroue, Rana ; Crawford, James J ; Fong, Rina

The Hippo pathway is a key growth control pathway that is conserved across species. The downstream effectors of the Hippo pathway, YAP (Yes-associated protein) and TAZ (transcriptional coactivator with PDZ-binding motif), are frequently activated in cancers to drive proliferation and survival. Based on the premise that sustained interactions between YAP/TAZ and TEADs (transcriptional enhanced associate domain) are central to their transcriptional activities, we discovered a potent small-molecule inhibitor (SMI), GNE-7883, that allosterically blocks the interactions between YAP/TAZ and all human TEAD paralogs through binding to the TEAD lipid pocket. GNE-7883 effectively reduces chromatin accessibility specifically at TEAD motifs, suppresses cell proliferation in a variety of cell line models and achieves strong antitumor efficacy in vivo. Furthermore, we uncovered that GNE-7883 effectively overcomes both intrinsic and acquired resistance to KRAS (Kirsten rat sarcoma viral oncogene homolog) G12C inhibitors in diverse preclinical models through the inhibition of YAP/TAZ activation. Taken together, this work demonstrates the activities of TEAD SMIs in YAP/TAZ-dependent cancers and highlights their potential broad applications in precision oncology and therapy resistance.

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Indication	Highest Phase	Country/Location	Organization	Date
Neoplasms	Preclinical	United States	Roche Holding AG	31 Jul 2023

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