Schwannoma development is mediated by Hippo pathway dysregulation and modified by RAS/MAPK signaling
Zhiguo Chen, Stephen Li, Juan Mo, Eric Hawley, Yong Wang, Yongzheng He, Jean-Philippe Brosseau, Tracey Shipman, D. Wade Clapp, Thomas J. Carroll, Lu Q. Le
Zhiguo Chen, Stephen Li, Juan Mo, Eric Hawley, Yong Wang, Yongzheng He, Jean-Philippe Brosseau, Tracey Shipman, D. Wade Clapp, Thomas J. Carroll, Lu Q. Le
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Research Article Genetics Oncology

Schwannoma development is mediated by Hippo pathway dysregulation and modified by RAS/MAPK signaling

Abstract

Schwannomas are tumors of the Schwann cells that cause chronic pain, numbness, and potentially life-threatening impairment of vital organs. Despite the identification of causative genes, including NF2 (Merlin), INI1/SMARCB1, and LZTR1, the exact molecular mechanism of schwannoma development is still poorly understood. Several studies have identified Merlin as a key regulator of the Hippo, MAPK, and PI3K signaling pathways; however, definitive evidence demonstrating the importance of these pathways in schwannoma pathogenesis is absent. Here, we provide direct genetic evidence that dysregulation of the Hippo pathway in the Schwann cell lineage causes development of multiple schwannomas in mice. We found that canonical Hippo signaling through the effectors YAP/TAZ is required for schwannomagenesis and that MAPK signaling modifies schwannoma formation. Furthermore, cotargeting YAP/TAZ transcriptional activity and MAPK signaling demonstrated a synergistic therapeutic effect on schwannomas. Our new model provides a tractable platform to dissect the molecular mechanisms underpinning schwannoma formation and the role of combinatorial targeted therapy in schwannoma treatment.

Authors

Zhiguo Chen, Stephen Li, Juan Mo, Eric Hawley, Yong Wang, Yongzheng He, Jean-Philippe Brosseau, Tracey Shipman, D. Wade Clapp, Thomas J. Carroll, Lu Q. Le

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Figure 3

Loss of YAP or TAZ alone does not inhibit schwannoma proliferation.

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Loss of YAP or TAZ alone does not inhibit schwannoma proliferation. (A) ...
(A) Western blot analysis of YAP and TAZ protein level in shControl, shYAP-5, and shYAP-7 transduced tumor cells (Hoxb7-Cre;Lats1fl/+;Lats2fl/fl). shCon, shControl. (B) Tumor volume of shControl, shYAP-5, and shYAP-7 transduced tumor cells after transplantation into nude mice (n = 5/group). (C) Gross picture of tumors from the experimental endpoint in B (n = 5/group). (D) Average weight of excised tumors from C (n = 5/group). (E) Representative images of allografted tumor sections stained for YAP and TAZ. (F) Western blot analysis of YAP and TAZ protein level in cultured tumor–derived cells. (G) Western blot analysis of YAP and TAZ protein level in shControl, shTAZ-6, shTAZ-7, shTAZ-8, and shTAZ-9 tumor cells. (H) Tumor volume of shControl, shTAZ-6, and shTAZ-8 schwannomas in nude mice (n = 7/group). (I) Gross picture of tumors from the experimental endpoint in H (n = 7/group). (J) Average weight of excised tumors from I (n = 7/group). (K) Representative images of tumor sections stained for YAP and TAZ. (L) Western blot analysis of YAP and TAZ protein levels in cultured tumor cells derived from tumors in I. Scale bars: 50 μm. One-way ANOVA was applied to evaluate statistical significance in B, D, H, and J. All statistics are represented as the mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001.