PI3K regulates TAZ/YAP and mTORC1 axes that can be synergistically targeted
Keith C. Garcia, Ali A. Khan, Krishnendu Ghosh, Souradip Sinha, Nicholas Scalora, Gillian DeWane, Colleen Fullenkamp, Nicole Merritt, Yuliia Drebot, Samuel Y. Yu, Mariah Leidinger, Michael D. Henry, Patrick J. Breheny, Michael S. Chimenti, Munir R. Tanas
Keith C. Garcia, Ali A. Khan, Krishnendu Ghosh, Souradip Sinha, Nicholas Scalora, Gillian DeWane, Colleen Fullenkamp, Nicole Merritt, Yuliia Drebot, Samuel Y. Yu, Mariah Leidinger, Michael D. Henry, Patrick J. Breheny, Michael S. Chimenti, Munir R. Tanas
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Research Article Cell biology Oncology

PI3K regulates TAZ/YAP and mTORC1 axes that can be synergistically targeted

Abstract

Sarcomas are a heterogeneous group of cancers with few shared therapeutic targets. We show that PI3K signaling is frequently activated in sarcomas due to PTEN loss (in 30%–60%), representing a common therapeutic target. The PI3K pathway has lacked a downstream oncogenic transcription factor. We show TAZ and YAP are transcriptional coactivators regulated by PI3K and drive a transcriptome necessary for tumor growth in a PI3K-driven sarcoma mouse model. This PI3K/TAZ/YAP axis exists in parallel to the known PI3K/AKT/mTORC1 axis, providing a rationale for combination therapy targeting the TAZ/YAP-TEAD interaction and mTORC1. Combination therapy using IK-930 (TEAD inhibitor) and everolimus (mTORC1 inhibitor) synergistically diminished proliferation and anchorage-independent growth of PI3K-activated sarcoma cell lines at low, physiologically achievable doses. Furthermore, this combination therapy showed a synergistic effect in vivo, suggesting that an integrated view of PI3K and Hippo signaling can be leveraged therapeutically in PI3K-activated sarcomas.

Authors

Keith C. Garcia, Ali A. Khan, Krishnendu Ghosh, Souradip Sinha, Nicholas Scalora, Gillian DeWane, Colleen Fullenkamp, Nicole Merritt, Yuliia Drebot, Samuel Y. Yu, Mariah Leidinger, Michael D. Henry, Patrick J. Breheny, Michael S. Chimenti, Munir R. Tanas

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Figure 7

Pharmacological inhibition of YAP/TAZ and mTORC1 works synergistically in vitro.

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Pharmacological inhibition of YAP/TAZ and mTORC1 works synergistically i...
(A) Cells treated with combinational drug matrix of IK-930 and everolimus at indicated doses for 72 hours and cell viability evaluated by MTT-style assay. Arrows demonstrate concentrations of IK-930 and everolimus further evaluated. (B) Clonogenic assay using the synergistic concentrations in A showed statistically significant reduction in clonogenic outgrowth. (C) Western blot evaluating cleaved PARP after monotherapy and combination therapy for the synergistic concentration in B. (D and E) Synergy scores and 3D surface plots of combination studies in soft agar in the A204 cell line (D) and SJCRH30 cell line (E). Arrows demonstrate concentrations of IK-930 and everolimus further evaluated in table form. All in vitro assays were repeated at least twice. Synergy scores and 3D surface plots of cell viability and soft agar growth were quantified and analyzed with the Bliss model using SynergyFinder. Staurosporine was used as a positive control. For soft agar assay, statistical significance was evaluated using an unpaired 2-tailed t test. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.