Literature DB >> 29505033

SHP2 inhibition restores sensitivity in ALK-rearranged non-small-cell lung cancer resistant to ALK inhibitors.

Leila Dardaei1,2, Hui Qin Wang3, Manrose Singh1, Paul Fordjour3, Katherine X Shaw1, Satoshi Yoda1,2, Grainne Kerr4, Kristine Yu3, Jinsheng Liang3, Yichen Cao3, Yan Chen3, Michael S Lawrence1,5, Adam Langenbucher1, Justin F Gainor1, Luc Friboulet1, Ibiayi Dagogo-Jack1, David T Myers1, Emma Labrot3, David Ruddy3, Melissa Parks1, Dana Lee1, Richard H DiCecca1, Susan Moody3, Huaixiang Hao3, Morvarid Mohseni3, Matthew LaMarche3, Juliet Williams3, Keith Hoffmaster3, Giordano Caponigro3, Alice T Shaw1,2, Aaron N Hata1,2, Cyril H Benes1,2, Fang Li3, Jeffrey A Engelman3.   

Abstract

Most anaplastic lymphoma kinase (ALK)-rearranged non-small-cell lung tumors initially respond to small-molecule ALK inhibitors, but drug resistance often develops. Of tumors that develop resistance to highly potent second-generation ALK inhibitors, approximately half harbor resistance mutations in ALK, while the other half have other mechanisms underlying resistance. Members of the latter group often have activation of at least one of several different tyrosine kinases driving resistance. Such tumors are not expected to respond to lorlatinib-a third-generation inhibitor targeting ALK that is able to overcome all clinically identified resistant mutations in ALK-and further therapeutic options are limited. Herein, we deployed a shRNA screen of 1,000 genes in multiple ALK-inhibitor-resistant patient-derived cells (PDCs) to discover those that confer sensitivity to ALK inhibition. This approach identified SHP2, a nonreceptor protein tyrosine phosphatase, as a common targetable resistance node in multiple PDCs. SHP2 provides a parallel survival input downstream of multiple tyrosine kinases that promote resistance to ALK inhibitors. Treatment with SHP099, the recently discovered small-molecule inhibitor of SHP2, in combination with the ALK tyrosine kinase inhibitor (TKI) ceritinib halted the growth of resistant PDCs through preventing compensatory RAS and ERK1 and ERK2 (ERK1/2) reactivation. These findings suggest that combined ALK and SHP2 inhibition may be a promising therapeutic strategy for resistant cancers driven by several different ALK-independent mechanisms underlying resistance.

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Year:  2018        PMID: 29505033      PMCID: PMC6343825          DOI: 10.1038/nm.4497

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   53.440


  29 in total

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Authors:  Benjamin G Neel; Haihua Gu; Lily Pao
Journal:  Trends Biochem Sci       Date:  2003-06       Impact factor: 13.807

2.  Molecular Mechanisms of Resistance to First- and Second-Generation ALK Inhibitors in ALK-Rearranged Lung Cancer.

Authors:  Justin F Gainor; Leila Dardaei; Satoshi Yoda; Luc Friboulet; Ignaty Leshchiner; Ryohei Katayama; Ibiayi Dagogo-Jack; Shirish Gadgeel; Katherine Schultz; Manrose Singh; Emily Chin; Melissa Parks; Dana Lee; Richard H DiCecca; Elizabeth Lockerman; Tiffany Huynh; Jennifer Logan; Lauren L Ritterhouse; Long P Le; Ashok Muniappan; Subba Digumarthy; Colleen Channick; Colleen Keyes; Gad Getz; Dora Dias-Santagata; Rebecca S Heist; Jochen Lennerz; Lecia V Sequist; Cyril H Benes; A John Iafrate; Mari Mino-Kenudson; Jeffrey A Engelman; Alice T Shaw
Journal:  Cancer Discov       Date:  2016-07-18       Impact factor: 39.397

3.  EML4-ALK mutations in lung cancer that confer resistance to ALK inhibitors.

Authors:  Young Lim Choi; Manabu Soda; Yoshihiro Yamashita; Toshihide Ueno; Junpei Takashima; Takahiro Nakajima; Yasushi Yatabe; Kengo Takeuchi; Toru Hamada; Hidenori Haruta; Yuichi Ishikawa; Hideki Kimura; Tetsuya Mitsudomi; Yoshiro Tanio; Hiroyuki Mano
Journal:  N Engl J Med       Date:  2010-10-28       Impact factor: 91.245

Review 4.  Genetic analysis of protein tyrosine phosphatases.

Authors:  D Van Vactor; A M O'Reilly; B G Neel
Journal:  Curr Opin Genet Dev       Date:  1998-02       Impact factor: 5.578

5.  Protein-tyrosine-phosphatase SHPTP2 couples platelet-derived growth factor receptor beta to Ras.

Authors:  A M Bennett; T L Tang; S Sugimoto; C T Walsh; B G Neel
Journal:  Proc Natl Acad Sci U S A       Date:  1994-07-19       Impact factor: 11.205

6.  A novel ALK secondary mutation and EGFR signaling cause resistance to ALK kinase inhibitors.

Authors:  Takaaki Sasaki; Jussi Koivunen; Atsuko Ogino; Masahiko Yanagita; Sarah Nikiforow; Wei Zheng; Christopher Lathan; J Paul Marcoux; Jinyan Du; Katsuhiro Okuda; Marzia Capelletti; Takeshi Shimamura; Dalia Ercan; Magda Stumpfova; Yun Xiao; Stanislawa Weremowicz; Mohit Butaney; Stephanie Heon; Keith Wilner; James G Christensen; Michel J Eck; Kwok-Kin Wong; Neal Lindeman; Nathanael S Gray; Scott J Rodig; Pasi A Jänne
Journal:  Cancer Res       Date:  2011-07-26       Impact factor: 12.701

7.  First-line crizotinib versus chemotherapy in ALK-positive lung cancer.

Authors:  Benjamin J Solomon; Tony Mok; Dong-Wan Kim; Yi-Long Wu; Kazuhiko Nakagawa; Tarek Mekhail; Enriqueta Felip; Federico Cappuzzo; Jolanda Paolini; Tiziana Usari; Shrividya Iyer; Arlene Reisman; Keith D Wilner; Jennifer Tursi; Fiona Blackhall
Journal:  N Engl J Med       Date:  2014-12-04       Impact factor: 91.245

8.  Shp2 regulates SRC family kinase activity and Ras/Erk activation by controlling Csk recruitment.

Authors:  Si Qing Zhang; Wentian Yang; Maria I Kontaridis; Trever G Bivona; Gengyun Wen; Toshiyuki Araki; Jincai Luo; Julie A Thompson; Burkhart L Schraven; Mark R Philips; Benjamin G Neel
Journal:  Mol Cell       Date:  2004-02-13       Impact factor: 17.970

9.  Dynamic reprogramming of the kinome in response to targeted MEK inhibition in triple-negative breast cancer.

Authors:  James S Duncan; Martin C Whittle; Kazuhiro Nakamura; Amy N Abell; Alicia A Midland; Jon S Zawistowski; Nancy L Johnson; Deborah A Granger; Nicole Vincent Jordan; David B Darr; Jerry Usary; Pei-Fen Kuan; David M Smalley; Ben Major; Xiaping He; Katherine A Hoadley; Bing Zhou; Norman E Sharpless; Charles M Perou; William Y Kim; Shawn M Gomez; Xin Chen; Jian Jin; Stephen V Frye; H Shelton Earp; Lee M Graves; Gary L Johnson
Journal:  Cell       Date:  2012-04-13       Impact factor: 41.582

10.  Rationale for co-targeting IGF-1R and ALK in ALK fusion-positive lung cancer.

Authors:  Christine M Lovly; Nerina T McDonald; Heidi Chen; Sandra Ortiz-Cuaran; Lukas C Heukamp; Yingjun Yan; Alexandra Florin; Luka Ozretić; Diana Lim; Lu Wang; Zhao Chen; Xi Chen; Pengcheng Lu; Paul K Paik; Ronglai Shen; Hailing Jin; Reinhard Buettner; Sascha Ansén; Sven Perner; Michael Brockmann; Marc Bos; Jürgen Wolf; Masyar Gardizi; Gavin M Wright; Benjamin Solomon; Prudence A Russell; Toni-Maree Rogers; Yoshiyuki Suehara; Monica Red-Brewer; Rudy Tieu; Elisa de Stanchina; Qingguo Wang; Zhongming Zhao; David H Johnson; Leora Horn; Kwok-Kin Wong; Roman K Thomas; Marc Ladanyi; William Pao
Journal:  Nat Med       Date:  2014-08-31       Impact factor: 53.440
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  46 in total

1.  Sequential ALK Inhibitors Can Select for Lorlatinib-Resistant Compound ALK Mutations in ALK-Positive Lung Cancer.

Authors:  Aaron N Hata; Alice T Shaw; Satoshi Yoda; Jessica J Lin; Michael S Lawrence; Benjamin J Burke; Luc Friboulet; Adam Langenbucher; Leila Dardaei; Kylie Prutisto-Chang; Ibiayi Dagogo-Jack; Sergei Timofeevski; Harper Hubbeling; Justin F Gainor; Lorin A Ferris; Amanda K Riley; Krystina E Kattermann; Daria Timonina; Rebecca S Heist; A John Iafrate; Cyril H Benes; Jochen K Lennerz; Mari Mino-Kenudson; Jeffrey A Engelman; Ted W Johnson
Journal:  Cancer Discov       Date:  2018-04-12       Impact factor: 39.397

2.  Identifying therapeutic vulnerabilities in lung cancer: application of a chemistry-first approach.

Authors:  Sharon R Pine; Bríd M Ryan
Journal:  Transl Lung Cancer Res       Date:  2018-09

Review 3.  Lung Cancers: Molecular Characterization, Clonal Heterogeneity and Evolution, and Cancer Stem Cells.

Authors:  Ugo Testa; Germana Castelli; Elvira Pelosi
Journal:  Cancers (Basel)       Date:  2018-07-27       Impact factor: 6.639

4.  A specific amino acid context in EGFR and HER2 phosphorylation sites enables selective binding to the active site of Src homology phosphatase 2 (SHP2).

Authors:  Zachary Hartman; Werner J Geldenhuys; Yehenew M Agazie
Journal:  J Biol Chem       Date:  2020-02-04       Impact factor: 5.157

Review 5.  Recent advances in the discovery of protein tyrosine phosphatase SHP2 inhibitors.

Authors:  Jiao Kong; Ya-Qiu Long
Journal:  RSC Med Chem       Date:  2022-01-15

6.  Resistance Mechanisms to Targeted Therapies in ROS1+ and ALK+ Non-small Cell Lung Cancer.

Authors:  Caroline E McCoach; Anh T Le; Katherine Gowan; Kenneth Jones; Laura Schubert; Andrea Doak; Adriana Estrada-Bernal; Kurtis D Davies; Daniel T Merrick; Paul A Bunn; W Tom Purcell; Rafal Dziadziuszko; Marileila Varella-Garcia; Dara L Aisner; D Ross Camidge; Robert C Doebele
Journal:  Clin Cancer Res       Date:  2018-04-10       Impact factor: 12.531

Review 7.  Cell signaling and cancer: a mechanistic insight into drug resistance.

Authors:  Munmun Panda; Bijesh K Biswal
Journal:  Mol Biol Rep       Date:  2019-07-06       Impact factor: 2.316

Review 8.  Acquired resistance to targeted therapies in NSCLC: Updates and evolving insights.

Authors:  Catherine B Meador; Aaron N Hata
Journal:  Pharmacol Ther       Date:  2020-03-06       Impact factor: 12.310

9.  Exploiting Allosteric Properties of RAF and MEK Inhibitors to Target Therapy-Resistant Tumors Driven by Oncogenic BRAF Signaling.

Authors:  Christos Adamopoulos; Tamer A Ahmed; Maxwell R Tucker; Peter M U Ung; Min Xiao; Zoi Karoulia; Angelo Amabile; Xuewei Wu; Stuart A Aaronson; Celina Ang; Vito W Rebecca; Brian D Brown; Avner Schlessinger; Meenhard Herlyn; Qi Wang; David E Shaw; Poulikos I Poulikakos
Journal:  Cancer Discov       Date:  2021-02-10       Impact factor: 39.397

Review 10.  Treatment Sequencing for Anaplastic Lymphoma Kinase-Rearranged Non-Small-Cell Lung Cancer.

Authors:  Diego Kauffmann-Guerrero; Kathrin Kahnert; Rudolf M Huber
Journal:  Drugs       Date:  2021-01       Impact factor: 9.546
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