Igor Odintsov1, Marissa S Mattar2, Allan J W Lui3, Michael Offin4, Christopher Kurzatkowski3, Lukas Delasos4, Inna Khodos2, Marina Asher3, Robert M Daly4, Natasha Rekhtman3, Elisa de Stanchina2, Gopinath Ganji5, Marc Ladanyi6, Romel Somwar1. 1. Department of Pathology, Memorial Sloan Kettering Cancer Center, New York, New York; Human Oncology and Pathogenesis Program, Memorial Sloan Kettering Cancer Center, New York, New York. 2. Anti-Tumor Assessment Core Facility, Department of Pharmacology, Memorial Sloan Kettering Cancer Center, New York, New York. 3. Department of Pathology, Memorial Sloan Kettering Cancer Center, New York, New York. 4. Department of Medicine, Memorial Sloan Kettering Cancer Center, New York, New York. 5. Research and Development, GlaxoSmithKline, Collegeville, Pennsylvania. 6. Department of Pathology, Memorial Sloan Kettering Cancer Center, New York, New York; Human Oncology and Pathogenesis Program, Memorial Sloan Kettering Cancer Center, New York, New York. Electronic address: ladanyim@mskcc.org.
Abstract
INTRODUCTION: NRG1 rearrangements produce chimeric ligands that subvert the ERBB pathway to drive tumorigenesis. A better understanding of the signaling networks that mediate transformation by NRG1 fusions is needed to inform effective therapeutic strategies. Unfortunately, this has been hampered by a paucity of patient-derived disease models that faithfully recapitulate this molecularly defined cancer subset. METHODS: Patient-derived xenograft (PDX) and cell line models were established from NRG1-rearranged lung adenocarcinoma samples. Transcriptomic, proteomic, and biochemical analyses were performed to identify activated pathways. Efficacy studies were conducted to evaluate HER3- and MTOR-directed therapies. RESULTS: We established a pair of PDX and cell line models of invasive mucinous lung adenocarcinoma (LUAD) (LUAD-0061AS3, SLC3A2-NRG1), representing the first reported paired in vitro and in vivo model of NRG1-driven tumors. Growth of LUAD-0061AS3 models was reduced by the anti-HER3 antibody GSK2849330. Transcriptomic profiling revealed activation of the MTOR pathway in lung tumor samples with NRG1 fusions. Phosphorylation of several MTOR effectors (S6 and 4EBP1) was higher in LUAD-0061AS3 cells compared with human bronchial epithelial cells and the breast cancer cell line MDA-MB-175-VII (DOC4-NRG1 fusion). Accordingly, LUAD-0061AS3 cells were more sensitive to MTOR inhibitors than MDA-MB-175-VII cells and targeting the MTOR pathway with rapamycin blocked growth of LUAD-0061AS3 PDX tumors in vivo. In contrast, MDA-MB-175-VII breast cancer cells had higher MAPK pathway activation and were more sensitive to MEK inhibition. CONCLUSIONS: We identify the MTOR pathway as a candidate vulnerability in NRG1 fusion-positive lung adenocarcinoma that may warrant further preclinical evaluation, with the eventual goal of finding additional therapeutic options for patients in whom ERBB-directed therapy fails. Moreover, our results uncover heterogeneity in downstream oncogenic signaling among NRG1-rearranged cancers, possibly tumor type-dependent, the therapeutic significance of which requires additional investigation.
INTRODUCTION: NRG1 rearrangements produce chimeric ligands that subvert the ERBB pathway to drive tumorigenesis. A better understanding of the signaling networks that mediate transformation by NRG1 fusions is needed to inform effective therapeutic strategies. Unfortunately, this has been hampered by a paucity of patient-derived disease models that faithfully recapitulate this molecularly defined cancer subset. METHODS: Patient-derived xenograft (PDX) and cell line models were established from NRG1-rearranged lung adenocarcinoma samples. Transcriptomic, proteomic, and biochemical analyses were performed to identify activated pathways. Efficacy studies were conducted to evaluate HER3- and MTOR-directed therapies. RESULTS: We established a pair of PDX and cell line models of invasive mucinous lung adenocarcinoma (LUAD) (LUAD-0061AS3, SLC3A2-NRG1), representing the first reported paired in vitro and in vivo model of NRG1-driven tumors. Growth of LUAD-0061AS3 models was reduced by the anti-HER3 antibody GSK2849330. Transcriptomic profiling revealed activation of the MTOR pathway in lung tumor samples with NRG1 fusions. Phosphorylation of several MTOR effectors (S6 and 4EBP1) was higher in LUAD-0061AS3 cells compared with human bronchial epithelial cells and the breast cancer cell line MDA-MB-175-VII (DOC4-NRG1 fusion). Accordingly, LUAD-0061AS3 cells were more sensitive to MTOR inhibitors than MDA-MB-175-VII cells and targeting the MTOR pathway with rapamycin blocked growth of LUAD-0061AS3 PDX tumors in vivo. In contrast, MDA-MB-175-VII breast cancer cells had higher MAPK pathway activation and were more sensitive to MEK inhibition. CONCLUSIONS: We identify the MTOR pathway as a candidate vulnerability in NRG1 fusion-positive lung adenocarcinoma that may warrant further preclinical evaluation, with the eventual goal of finding additional therapeutic options for patients in whom ERBB-directed therapy fails. Moreover, our results uncover heterogeneity in downstream oncogenic signaling among NRG1-rearranged cancers, possibly tumor type-dependent, the therapeutic significance of which requires additional investigation.
Authors: Donavan T Cheng; Talia N Mitchell; Ahmet Zehir; Ronak H Shah; Ryma Benayed; Aijazuddin Syed; Raghu Chandramohan; Zhen Yu Liu; Helen H Won; Sasinya N Scott; A Rose Brannon; Catherine O'Reilly; Justyna Sadowska; Jacklyn Casanova; Angela Yannes; Jaclyn F Hechtman; Jinjuan Yao; Wei Song; Dara S Ross; Alifya Oultache; Snjezana Dogan; Laetitia Borsu; Meera Hameed; Khedoudja Nafa; Maria E Arcila; Marc Ladanyi; Michael F Berger Journal: J Mol Diagn Date: 2015-03-20 Impact factor: 5.568
Authors: Mumtahena Rahman; Laurie K Jackson; W Evan Johnson; Dean Y Li; Andrea H Bild; Stephen R Piccolo Journal: Bioinformatics Date: 2015-07-24 Impact factor: 6.937
Authors: Lynnette Fernandez-Cuesta; Dennis Plenker; Hirotaka Osada; Ruping Sun; Roopika Menon; Frauke Leenders; Sandra Ortiz-Cuaran; Martin Peifer; Marc Bos; Juliane Daßler; Florian Malchers; Jakob Schöttle; Wenzel Vogel; Ilona Dahmen; Mirjam Koker; Roland T Ullrich; Gavin M Wright; Prudence A Russell; Zoe Wainer; Benjamin Solomon; Elisabeth Brambilla; Hélène Nagy-Mignotte; Denis Moro-Sibilot; Christian G Brambilla; Sylvie Lantuejoul; Janine Altmüller; Christian Becker; Peter Nürnberg; Johannes M Heuckmann; Erich Stoelben; Iver Petersen; Joachim H Clement; Jörg Sänger; Lucia A Muscarella; Annamaria la Torre; Vito M Fazio; Idoya Lahortiga; Timothy Perera; Souichi Ogata; Marc Parade; Dirk Brehmer; Martin Vingron; Lukas C Heukamp; Reinhard Buettner; Thomas Zander; Jürgen Wolf; Sven Perner; Sascha Ansén; Stefan A Haas; Yasushi Yatabe; Roman K Thomas Journal: Cancer Discov Date: 2014-01-27 Impact factor: 39.397
Authors: Alexander Drilon; Romel Somwar; Biju P Mangatt; Henrik Edgren; Patrice Desmeules; Anja Ruusulehto; Roger S Smith; Lukas Delasos; Morana Vojnic; Andrew J Plodkowski; Joshua Sabari; Kenneth Ng; Joseph Montecalvo; Jason Chang; Huichun Tai; William W Lockwood; Victor Martinez; Gregory J Riely; Charles M Rudin; Mark G Kris; Maria E Arcila; Christopher Matheny; Ryma Benayed; Natasha Rekhtman; Marc Ladanyi; Gopinath Ganji Journal: Cancer Discov Date: 2018-04-02 Impact factor: 39.397
Authors: Kalkidan Bishu; Ozgur Ogut; Sudhir Kushwaha; Selma F Mohammed; Tomohito Ohtani; Xiaolei Xu; Frank V Brozovich; Margaret M Redfield Journal: PLoS One Date: 2013-12-03 Impact factor: 3.240
Authors: Ahmet Zehir; Ryma Benayed; Ronak H Shah; Aijazuddin Syed; Sumit Middha; Hyunjae R Kim; Preethi Srinivasan; Jianjiong Gao; Debyani Chakravarty; Sean M Devlin; Matthew D Hellmann; David A Barron; Alison M Schram; Meera Hameed; Snjezana Dogan; Dara S Ross; Jaclyn F Hechtman; Deborah F DeLair; JinJuan Yao; Diana L Mandelker; Donavan T Cheng; Raghu Chandramohan; Abhinita S Mohanty; Ryan N Ptashkin; Gowtham Jayakumaran; Meera Prasad; Mustafa H Syed; Anoop Balakrishnan Rema; Zhen Y Liu; Khedoudja Nafa; Laetitia Borsu; Justyna Sadowska; Jacklyn Casanova; Ruben Bacares; Iwona J Kiecka; Anna Razumova; Julie B Son; Lisa Stewart; Tessara Baldi; Kerry A Mullaney; Hikmat Al-Ahmadie; Efsevia Vakiani; Adam A Abeshouse; Alexander V Penson; Philip Jonsson; Niedzica Camacho; Matthew T Chang; Helen H Won; Benjamin E Gross; Ritika Kundra; Zachary J Heins; Hsiao-Wei Chen; Sarah Phillips; Hongxin Zhang; Jiaojiao Wang; Angelica Ochoa; Jonathan Wills; Michael Eubank; Stacy B Thomas; Stuart M Gardos; Dalicia N Reales; Jesse Galle; Robert Durany; Roy Cambria; Wassim Abida; Andrea Cercek; Darren R Feldman; Mrinal M Gounder; A Ari Hakimi; James J Harding; Gopa Iyer; Yelena Y Janjigian; Emmet J Jordan; Ciara M Kelly; Maeve A Lowery; Luc G T Morris; Antonio M Omuro; Nitya Raj; Pedram Razavi; Alexander N Shoushtari; Neerav Shukla; Tara E Soumerai; Anna M Varghese; Rona Yaeger; Jonathan Coleman; Bernard Bochner; Gregory J Riely; Leonard B Saltz; Howard I Scher; Paul J Sabbatini; Mark E Robson; David S Klimstra; Barry S Taylor; Jose Baselga; Nikolaus Schultz; David M Hyman; Maria E Arcila; David B Solit; Marc Ladanyi; Michael F Berger Journal: Nat Med Date: 2017-05-08 Impact factor: 53.440
Authors: Alison M Schram; Igor Odintsov; Madelyn Espinosa-Cotton; Inna Khodos; Whitney J Sisso; Marissa S Mattar; Allan J W Lui; Morana Vojnic; Sara H Shameem; Thrusha Chauhan; Jean Torrisi; Jim Ford; Marie N O'Connor; Cecile A W Geuijen; Ron C J Schackmann; Jeroen J Lammerts van Bueren; Ernesto Wasserman; Elisa de Stanchina; Eileen M O'Reilly; Marc Ladanyi; Alexander Drilon; Romel Somwar Journal: Cancer Discov Date: 2022-05-02 Impact factor: 38.272
Authors: Hui K Gan; Michael Millward; Mathilde Jalving; Ignacio Garrido-Laguna; Jason D Lickliter; Jan H M Schellens; Martijn P Lolkema; Carla L M Van Herpen; Bruce Hug; Lihua Tang; Robin O'Connor-Semmes; Robert Gagnon; Catherine Ellis; Gopinath Ganji; Christopher Matheny; Alexander Drilon Journal: Oncologist Date: 2021-07-21