Literature DB >> 33547198

Yap1 Mediates Trametinib Resistance in Head and Neck Squamous Cell Carcinomas.

Tenny Mudianto1, Katie M Campbell2, Ann Marie Egloff3, Obi L Griffith2,4,5, Ravindra Uppaluri6,3, Jason Webb1, Paul Zolkind7, Zachary L Skidmore2, Rachel Riley1, Erica K Barnell2, Ibrahim Ozgenc1, Tusar Giri7, Gavin P Dunn4,8, Douglas R Adkins4,5, Malachi Griffith2,4,5.   

Abstract

PURPOSE: In a head and neck squamous cell carcinoma (HNSCC) "window of opportunity" clinical trial, we reported that trametinib reduced MEK-Erk1/2 activation and resulted in tumor responses in a subset of patients. Here, we investigated resistance to trametinib and molecular correlates in HNSCC cell lines and patient samples. EXPERIMENTAL
DESIGN: HNSCC cell lines were treated with trametinib to generate resistant lines. Candidate bypass pathways were assessed using immunoblotting, CRISPR knockout, and survival assays. Effectiveness of combined trametinib and verteporfin targeting was evaluated. Patient-derived xenografts (PDXs) from responder patients were treated with trametinib and resistant tumors were analyzed. Window trial clinical samples were subjected to whole-exome and RNA sequencing.
RESULTS: HNSCC cell lines developed resistance (CAL27-TR and HSC3-TR) after prolonged trametinib exposure. Downstream effectors of the Hippo pathway were activated in CAL27-TR and HSC3-TR, and combined trametinib and verteporfin treatment resulted in synergistic treatment response. We defined the Hippo pathway effector Yap1 as an induced survival pathway promoting resistance to trametinib in HSC3-TR. Yap1 was necessary for HSC3-TR trametinib resistance, and constitutively active Yap1 was sufficient to confer resistance in parental HSC3. Analysis of trametinib neoadjuvant trial patient tumors indicated canonical MEK-Erk1/2 pathway activating mutations were infrequent, and Yap1 activity increased following trametinib treatment. Trametinib treatment of a PDX from a responder patient resulted in evolution of resistance with increased Yap1 expression and activity.
CONCLUSIONS: These studies identify a Yap1-dependent resistance to trametinib therapy in HNSCCs. Combined Yap1 and MEK targeting may represent a strategy to enhance HNSCC response. ©2021 American Association for Cancer Research.

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Year:  2021        PMID: 33547198      PMCID: PMC8046740          DOI: 10.1158/1078-0432.CCR-19-4179

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   13.801


  48 in total

1.  Drug combination studies and their synergy quantification using the Chou-Talalay method.

Authors:  Ting-Chao Chou
Journal:  Cancer Res       Date:  2010-01-12       Impact factor: 12.701

2.  Coexpression of proangiogenic factors IL-8 and VEGF by human head and neck squamous cell carcinoma involves coactivation by MEK-MAPK and IKK-NF-kappaB signal pathways.

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Journal:  Clin Cancer Res       Date:  2001-02       Impact factor: 12.531

3.  Activated extracellular signal-regulated kinases: association with epidermal growth factor receptor/transforming growth factor alpha expression in head and neck squamous carcinoma and inhibition by anti-epidermal growth factor receptor treatments.

Authors:  J Albanell; J Codony-Servat; F Rojo; J M Del Campo; S Sauleda; J Anido; G Raspall; J Giralt; J Roselló; R I Nicholson; J Mendelsohn; J Baselga
Journal:  Cancer Res       Date:  2001-09-01       Impact factor: 12.701

4.  Next-generation characterization of the Cancer Cell Line Encyclopedia.

Authors:  Mahmoud Ghandi; Franklin W Huang; Judit Jané-Valbuena; Gregory V Kryukov; Christopher C Lo; E Robert McDonald; Jordi Barretina; Ellen T Gelfand; Craig M Bielski; Haoxin Li; Kevin Hu; Alexander Y Andreev-Drakhlin; Jaegil Kim; Julian M Hess; Brian J Haas; François Aguet; Barbara A Weir; Michael V Rothberg; Brenton R Paolella; Michael S Lawrence; Rehan Akbani; Yiling Lu; Hong L Tiv; Prafulla C Gokhale; Antoine de Weck; Ali Amin Mansour; Coyin Oh; Juliann Shih; Kevin Hadi; Yanay Rosen; Jonathan Bistline; Kavitha Venkatesan; Anupama Reddy; Dmitriy Sonkin; Manway Liu; Joseph Lehar; Joshua M Korn; Dale A Porter; Michael D Jones; Javad Golji; Giordano Caponigro; Jordan E Taylor; Caitlin M Dunning; Amanda L Creech; Allison C Warren; James M McFarland; Mahdi Zamanighomi; Audrey Kauffmann; Nicolas Stransky; Marcin Imielinski; Yosef E Maruvka; Andrew D Cherniack; Aviad Tsherniak; Francisca Vazquez; Jacob D Jaffe; Andrew A Lane; David M Weinstock; Cory M Johannessen; Michael P Morrissey; Frank Stegmeier; Robert Schlegel; William C Hahn; Gad Getz; Gordon B Mills; Jesse S Boehm; Todd R Golub; Levi A Garraway; William R Sellers
Journal:  Nature       Date:  2019-05-08       Impact factor: 49.962

5.  A study of phosphorylated ERK1/2 and COX-2 in early stage (T1-T2) oral squamous cell carcinomas.

Authors:  Tine M Søland; Camilla Husvik; Hanna Strømme Koppang; Morten Boysen; Leiv Sandvik; Ole Petter Fraas Clausen; Thoralf Christoffersen; Magne Bryne
Journal:  J Oral Pathol Med       Date:  2008-02-17       Impact factor: 4.253

6.  Survival following primary surgery for oral cancer.

Authors:  Simon N Rogers; James S Brown; Julia A Woolgar; Derek Lowe; Patrick Magennis; Richard J Shaw; David Sutton; Douglas Errington; David Vaughan
Journal:  Oral Oncol       Date:  2008-07-31       Impact factor: 5.337

Review 7.  MAP kinase signalling pathways in cancer.

Authors:  A S Dhillon; S Hagan; O Rath; W Kolch
Journal:  Oncogene       Date:  2007-05-14       Impact factor: 9.867

8.  The Molecular Signatures Database (MSigDB) hallmark gene set collection.

Authors:  Arthur Liberzon; Chet Birger; Helga Thorvaldsdóttir; Mahmoud Ghandi; Jill P Mesirov; Pablo Tamayo
Journal:  Cell Syst       Date:  2015-12-23       Impact factor: 10.304

9.  YAP1 Exerts Its Transcriptional Control via TEAD-Mediated Activation of Enhancers.

Authors:  Claudia Stein; Anaïs Flore Bardet; Guglielmo Roma; Sebastian Bergling; Ieuan Clay; Alexandra Ruchti; Claudia Agarinis; Tobias Schmelzle; Tewis Bouwmeester; Dirk Schübeler; Andreas Bauer
Journal:  PLoS Genet       Date:  2015-08-21       Impact factor: 5.917

10.  HTSeq--a Python framework to work with high-throughput sequencing data.

Authors:  Simon Anders; Paul Theodor Pyl; Wolfgang Huber
Journal:  Bioinformatics       Date:  2014-09-25       Impact factor: 6.937
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  3 in total

Review 1.  Current and Future Biomarkers for Immune Checkpoint Inhibitors in Head and Neck Squamous Cell Carcinoma.

Authors:  Jong Chul Park; Hari N Krishnakumar; Srinivas Vinod Saladi
Journal:  Curr Oncol       Date:  2022-06-08       Impact factor: 3.109

Review 2.  Genomic Hippo Pathway Alterations and Persistent YAP/TAZ Activation: New Hallmarks in Head and Neck Cancer.

Authors:  Farhoud Faraji; Sydney I Ramirez; Paola Y Anguiano Quiroz; Amaya N Mendez-Molina; J Silvio Gutkind
Journal:  Cells       Date:  2022-04-18       Impact factor: 7.666

3.  MEK1/2 inhibition transiently alters the tumor immune microenvironment to enhance immunotherapy efficacy against head and neck cancer.

Authors:  Manu Prasad; Jonathan Zorea; Sankar Jagadeeshan; Avital B Shnerb; Sooraj Mathukkada; Jebrane Bouaoud; Lucas Michon; Ofra Novoplansky; Mai Badarni; Limor Cohen; Ksenia M Yegodayev; Sapir Tzadok; Barak Rotblat; Libor Brezina; Andreas Mock; Andy Karabajakian; Jérôme Fayette; Idan Cohen; Tomer Cooks; Irit Allon; Orr Dimitstein; Benzion Joshua; Dexin Kong; Elena Voronov; Maurizio Scaltriti; Yaron Carmi; Cristina Conde-Lopez; Jochen Hess; Ina Kurth; Luc G T Morris; Pierre Saintigny; Moshe Elkabets
Journal:  J Immunother Cancer       Date:  2022-03       Impact factor: 12.469
  3 in total

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