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Literature DB >> 27401242

Crizotinib-Resistant ROS1 Mutations Reveal a Predictive Kinase Inhibitor Sensitivity Model for ROS1- and ALK-Rearranged Lung Cancers.

Francesco Facchinetti¹, Yohann Loriot^1,2, Mei-Shiue Kuo¹, Linda Mahjoubi³, Ludovic Lacroix^1,4,5, David Planchard², Benjamin Besse^2,6, Françoise Farace^1,4, Nathalie Auger⁵, Jordi Remon², Jean-Yves Scoazec^4,5,6, Fabrice André^1,2,6, Jean-Charles Soria^1,3,6, Luc Friboulet⁷.

Abstract

BACKGROUND: The identification of molecular mechanisms conferring resistance to tyrosine kinase inhibitor (TKI) is a key step to improve therapeutic results for patients with oncogene addiction. Several alterations leading to EGFR and anaplastic lymphoma kinase (ALK) resistance to TKI therapy have been described in non-small cell lung cancer (NSCLC). Only two mutations in the ROS1 kinase domain responsible for crizotinib resistance have been described in patients thus far.
METHODS: A patient suffering from a metastatic NSCLC harboring an ezrin (EZR)-ROS1 fusion gene developed acquired resistance to the ALK/ROS1 inhibitor crizotinib. Molecular analysis (whole-exome sequencing, CGH) and functional studies were undertaken to elucidate the mechanism of resistance. Based on this case, we took advantage of the structural homology of ROS1 and ALK to build a predictive model for drug sensitivity regarding future ROS1 mutations.
RESULTS: Sequencing revealed a dual mutation, S1986Y and S1986F, in the ROS1 kinase domain. Functional in vitro studies demonstrated that ROS1 harboring either the S1986Y or the S1986F mutation, while conferring resistance to crizotinib and ceritinib, was inhibited by lorlatinib (PF-06463922). The patient's clinical response confirmed the potency of lorlatinib against S1986Y/F mutations. The ROS1 S1986Y/F and ALK C1156Y mutations are homologous and displayed similar sensitivity patterns to ALK/ROS1 TKIs. We extended this analogy to build a model predicting TKI efficacy against potential ROS1 mutations.
CONCLUSIONS: Clinical evidence, in vitro validation, and homology-based prediction provide guidance for treatment decision making for patients with ROS1-rearranged NSCLC who progressed on crizotinib. Clin Cancer Res; 22(24); 5983-91. ©2016 AACR. ©2016 American Association for Cancer Research.

Entities: Chemical Disease Gene Mutation Species

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Year: 2016 PMID： 27401242 DOI： 10.1158/1078-0432.CCR-16-0917

Source DB: PubMed Journal: Clin Cancer Res ISSN： 1078-0432 Impact factor: 12.531

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Cited

41 in total

1. Lorlatinib in ALK- and ROS1-positive NSCLC: the future has a start.

Authors: Francesco Facchinetti; Luc Friboulet
Journal: Transl Lung Cancer Res Date: 2018-04

2. Recent studies move closer to answering questions about sequential therapy for anaplastic lymphoma kinase-rearranged non-small cell lung cancer.

Authors: Tetsu Kobayashi; Hajime Fujimoto; Corina D'Alessandro-Gabazza; Esteban C Gabazza; Osamu Hataji
Journal: J Thorac Dis Date: 2017-09 Impact factor: 2.895

Review 3. Recent Advances in Targeting ROS1 in Lung Cancer.

Authors: Jessica J Lin; Alice T Shaw
Journal: J Thorac Oncol Date: 2017-08-14 Impact factor: 15.609

4. MAPK Pathway Alterations Correlate with Poor Survival and Drive Resistance to Therapy in Patients with Lung Cancers Driven by ROS1 Fusions.

Authors: Hiroki Sato; Adam J Schoenfeld; Evan Siau; Yue Christine Lu; Huichun Tai; Ken Suzawa; Daisuke Kubota; Allan J W Lui; Besnik Qeriqi; Marissa Mattar; Michael Offin; Masakiyo Sakaguchi; Shinichi Toyooka; Alexander Drilon; Neal X Rosen; Mark G Kris; David Solit; Elisa De Stanchina; Monika A Davare; Gregory J Riely; Marc Ladanyi; Romel Somwar
Journal: Clin Cancer Res Date: 2020-03-02 Impact factor: 12.531

5. Crizotinib inhibition of ROS1-positive tumours in advanced non-small-cell lung cancer: a Canadian perspective.

Authors: D G Bebb; J Agulnik; R Albadine; S Banerji; G Bigras; C Butts; C Couture; J C Cutz; P Desmeules; D N Ionescu; N B Leighl; B Melosky; W Morzycki; F Rashid-Kolvear; Clin Lab; H S Sekhon; A C Smith; T L Stockley; E Torlakovic; Z Xu; M S Tsao
Journal: Curr Oncol Date: 2019-08-01 Impact factor: 3.677

Review 6. Molecular mechanisms of therapy resistance in solid tumors: chasing "moving" targets.

Authors: Laura J Tafe
Journal: Virchows Arch Date: 2017-03-10 Impact factor: 4.064

7. Clinical Relevance of an Amplicon-Based Liquid Biopsy for Detecting ALK and ROS1 Fusion and Resistance Mutations in Patients With Non-Small-Cell Lung Cancer.

Authors: Laura Mezquita; Aurélie Swalduz; Cécile Jovelet; Sandra Ortiz-Cuaran; Karen Howarth; David Planchard; Virginie Avrillon; Gonzalo Recondo; Solène Marteau; Jose Carlos Benitez; Frank De Kievit; Vincent Plagnol; Ludovic Lacroix; Luc Odier; Etienne Rouleau; Pierre Fournel; Caroline Caramella; Claire Tissot; Julien Adam; Samuel Woodhouse; Claudio Nicotra; Edouard Auclin; Jordi Remon; Clive Morris; Emma Green; Christophe Massard; Maurice Pérol; Luc Friboulet; Benjamin Besse; Pierre Saintigny
Journal: JCO Precis Oncol Date: 2020-04-02

8. Patterns of Metastatic Spread and Mechanisms of Resistance to Crizotinib in ROS1-Positive Non-Small-Cell Lung Cancer.

Authors: Justin F Gainor; Diane Tseng; Satoshi Yoda; Ibiayi Dagogo-Jack; Luc Friboulet; Jessica J Lin; Harper G Hubbeling; Leila Dardaei; Anna F Farago; Katherine R Schultz; Lorin A Ferris; Zofia Piotrowska; James Hardwick; Donghui Huang; Mari Mino-Kenudson; A John Iafrate; Aaron N Hata; Beow Y Yeap; Alice T Shaw
Journal: JCO Precis Oncol Date: 2017-08-16

9. 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 10. Beyond EGFR and ALK: targeting rare mutations in advanced non-small cell lung cancer.

Authors: Stavros Gkolfinopoulos; Giannis Mountzios
Journal: Ann Transl Med Date: 2018-04