The CRTC1-MAML2 fusion is the major oncogenic driver in mucoepidermoid carcinoma
Zirong Chen, Wei Ni, Jian-Liang Li, Shuibin Lin, Xin Zhou, Yuping Sun, Jennifer W. Li, Marino E. Leon, Maria D. Hurtado, Sergei Zolotukhin, Chen Liu, Jianrong Lu, James D. Griffin, Frederic J. Kaye, Lizi Wu
Zirong Chen, Wei Ni, Jian-Liang Li, Shuibin Lin, Xin Zhou, Yuping Sun, Jennifer W. Li, Marino E. Leon, Maria D. Hurtado, Sergei Zolotukhin, Chen Liu, Jianrong Lu, James D. Griffin, Frederic J. Kaye, Lizi Wu
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Research Article Oncology

The CRTC1-MAML2 fusion is the major oncogenic driver in mucoepidermoid carcinoma

Abstract

No effective systemic treatment is available for patients with unresectable, recurrent, or metastatic mucoepidermoid carcinoma (MEC), the most common salivary gland malignancy. MEC is frequently associated with a t(11;19)(q14-21;p12-13) translocation that creates a CRTC1-MAML2 fusion gene. The CRTC1-MAML2 fusion exhibited transforming activity in vitro; however, whether it serves as an oncogenic driver for MEC establishment and maintenance in vivo remains unknown. Here, we show that doxycycline-induced CRTC1-MAML2 knockdown blocked the growth of established MEC xenografts, validating CRTC1-MAML2 as a therapeutic target. We further generated a conditional transgenic mouse model and observed that Cre-induced CRTC1-MAML2 expression caused 100% penetrant formation of salivary gland tumors resembling histological and molecular characteristics of human MEC. Molecular analysis of MEC tumors revealed altered p16-CDK4/6-RB pathway activity as a potential cooperating event in promoting CRTC1-MAML2–induced tumorigenesis. Cotargeting of aberrant p16-CDK4/6-RB signaling and CRTC1-MAML2 fusion–activated AREG/EGFR signaling with the respective CDK4/6 inhibitor Palbociclib and EGFR inhibitor Erlotinib produced enhanced antitumor responses in vitro and in vivo. Collectively, this study provides direct evidence for CRTC1-MAML2 as a key driver for MEC development and maintenance and identifies a potentially novel combination therapy with FDA-approved EGFR and CDK4/6 inhibitors as a potential viable strategy for patients with MEC.

Authors

Zirong Chen, Wei Ni, Jian-Liang Li, Shuibin Lin, Xin Zhou, Yuping Sun, Jennifer W. Li, Marino E. Leon, Maria D. Hurtado, Sergei Zolotukhin, Chen Liu, Jianrong Lu, James D. Griffin, Frederic J. Kaye, Lizi Wu

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Figure 2

The Cre-regulated CRTC1-MAML2 transgenic mice developed salivary gland tumors.

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The Cre-regulated CRTC1-MAML2 transgenic mice developed salivary gland t...
(A) A schematic representation of the Cre/LoxP-mediated CRTC1-MAML2 fusion transgene construct (LSL-CM). (B) Western blotting confirmed Cre-induced expression of CRTC1-MAML2 transgene. The transgenic construct was cotransfected with pCAGIG-Cre plasmid or empty vector into 293T cells, and the CRTC1-MAML2 fusion expression was detected at 36 hours after transfection by Western blotting using anti-Flag antibodies or anti-MAML2 TAD antibodies. α-Tubulin was used as a loading control. (C) A schematic diagram shows the crossing of the LSL-CM transgenic mice with MMTV-Cre mice to induce CRTC1-MAML2 transgene expression in salivary glands. The resulting mCre-CM(+) mice were monitored for tumor development. (D) A representative mCre-CM(+) mouse developed salivary gland (SG) tumor. (E) Salivary gland tumor occurrence was shown in mCre-CM(+) versus nontransgene mCre-CM(–) control cohorts. Half of mCre-CM(+) mice (n = 96) developed SG tumors by 129 days, while no tumors were observed in the control mCre-CM(–) mice (n = 21). (F) A schematic diagram shows ductal delivery of AAV5-Cre-eGFP viruses to salivary glands of LSL-CM(+) mice. The resulting aCre-CM(+) mice were monitored for tumor development. (G) A representative aCre-CM(+) mouse developed SG tumor at about 3 months after retrograde injection of AAV5-Cre-eGFP viruses. (H) Cell suspensions from primary CRTC1-MAML2–induced salivary gland tumors grew into tumors after s.c. engrafting into immunocompromised NOD.SCID mice or immunocompatible mCre-CM(–) mice containing no CRTC1-MAML2 transgene.