Literature DB >> 30538120

Differential Subcellular Localization Regulates Oncogenic Signaling by ROS1 Kinase Fusion Proteins.

Dana S Neel1,2, David V Allegakoen1,2, Victor Olivas1,2, Manasi K Mayekar1,2, Golzar Hemmati1,2, Nilanjana Chatterjee1,2, Collin M Blakely1,2, Caroline E McCoach1,2, Julia K Rotow1,2, Anh Le3, Niki Karachaliou4, Rafael Rosell4, Jonathan W Riess5,6, Robert Nichols7, Robert C Doebele3, Trever G Bivona8,2.   

Abstract

Chromosomal rearrangements involving receptor tyrosine kinases (RTK) are a clinically relevant oncogenic mechanism in human cancers. These chimeric oncoproteins often contain the C-terminal kinase domain of the RTK joined in cis to various N-terminal, nonkinase fusion partners. The functional role of the N-terminal fusion partner in RTK fusion oncoproteins is poorly understood. Here, we show that distinct N-terminal fusion partners drive differential subcellular localization, which imparts distinct cell signaling and oncogenic properties of different, clinically relevant ROS1 RTK fusion oncoproteins. SDC4-ROS1 and SLC34A2-ROS1 fusion oncoproteins resided on endosomes and activated the MAPK pathway. CD74-ROS1 variants that localized instead to the endoplasmic reticulum (ER) showed compromised activation of MAPK. Forced relocalization of CD74-ROS1 from the ER to endosomes restored MAPK signaling. ROS1 fusion oncoproteins that better activate MAPK formed more aggressive tumors. Thus, differential subcellular localization controlled by the N-terminal fusion partner regulates the oncogenic mechanisms and output of certain RTK fusion oncoproteins. SIGNIFICANCE: ROS1 fusion oncoproteins exhibit differential activation of MAPK signaling according to subcellular localization, with ROS1 fusions localized to endosomes, the strongest activators of MAPK signaling. ©2018 American Association for Cancer Research.

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Year:  2018        PMID: 30538120      PMCID: PMC6359944          DOI: 10.1158/0008-5472.CAN-18-1492

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  50 in total

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Journal:  Transl Lung Cancer Res       Date:  2015-04

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Authors:  J V Frangioni; P H Beahm; V Shifrin; C A Jost; B G Neel
Journal:  Cell       Date:  1992-02-07       Impact factor: 41.582

3.  Crizotinib in ROS1-rearranged non-small-cell lung cancer.

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4.  Mechanisms of resistance to crizotinib in patients with ALK gene rearranged non-small cell lung cancer.

Authors:  Robert C Doebele; Amanda B Pilling; Dara L Aisner; Tatiana G Kutateladze; Anh T Le; Andrew J Weickhardt; Kimi L Kondo; Derek J Linderman; Lynn E Heasley; Wilbur A Franklin; Marileila Varella-Garcia; D Ross Camidge
Journal:  Clin Cancer Res       Date:  2012-01-10       Impact factor: 12.531

5.  Alectinib in Crizotinib-Refractory ALK-Rearranged Non-Small-Cell Lung Cancer: A Phase II Global Study.

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Review 8.  Tyrosine kinase gene fusions in cancer: translating mechanisms into targeted therapies.

Authors:  Sandrine Medves; Jean-Baptiste Demoulin
Journal:  J Cell Mol Med       Date:  2012-02       Impact factor: 5.310

9.  COSMIC: somatic cancer genetics at high-resolution.

Authors:  Simon A Forbes; David Beare; Harry Boutselakis; Sally Bamford; Nidhi Bindal; John Tate; Charlotte G Cole; Sari Ward; Elisabeth Dawson; Laura Ponting; Raymund Stefancsik; Bhavana Harsha; Chai Yin Kok; Mingming Jia; Harry Jubb; Zbyslaw Sondka; Sam Thompson; Tisham De; Peter J Campbell
Journal:  Nucleic Acids Res       Date:  2016-11-28       Impact factor: 16.971

10.  Oncogenic and drug-sensitive NTRK1 rearrangements in lung cancer.

Authors:  A Vaishnavi; M Capelletti; P A Jänne; R C Doebele; A T Le; S Kako; M Butaney; D Ercan; S Mahale; K D Davies; D L Aisner; A B Pilling; E M Berge; J Kim; H Sasaki; S Park; G Kryukov; L A Garraway; Peter S Hammerman; J Haas; S W Andrews; D Lipson; P J Stephens; V A Miller; M Varella-Garcia
Journal:  Nat Med       Date:  2013-10-27       Impact factor: 53.440
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  12 in total

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Journal:  Oncogene       Date:  2020-01-31       Impact factor: 9.867

2.  TAS-120 Overcomes Resistance to ATP-Competitive FGFR Inhibitors in Patients with FGFR2 Fusion-Positive Intrahepatic Cholangiocarcinoma.

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Journal:  Cancer Discov       Date:  2019-05-20       Impact factor: 39.397

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

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Journal:  Clin Cancer Res       Date:  2020-03-02       Impact factor: 12.531

4.  The potential and limitation of targeted chromosomal breakpoint sequencing for the ROS1 fusion gene identification in lung cancer.

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Journal:  Am J Cancer Res       Date:  2022-05-15       Impact factor: 5.942

Review 5.  The Rise of the Expert Patient in Cancer: From Backseat Passenger to Co-navigator.

Authors:  Andrea Anampa-Guzmán; Janet Freeman-Daily; Michael Fisch; Emil Lou; Nathan A Pennell; Corrie A Painter; Dorinda Sparacio; Mark A Lewis; Maimah Karmo; Patricia F Anderson; Stephanie L Graff
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6.  Resistance Profile and Structural Modeling of Next-Generation ROS1 Tyrosine Kinase Inhibitors.

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