Literature DB >> 18769157

Targeting Hsp90 prevents escape of breast cancer cells from tyrosine kinase inhibition.

Itai Pashtan1, Shinji Tsutsumi, Suiquan Wang, Wanping Xu, Len Neckers.   

Abstract

Recent studies have identified development of resistance to tyrosine kinase inhibition (TKI) as a significant roadblock to effective treatment. One mechanism of resistance recently appreciated involves 'oncogene switching', or the re-activation of signaling pathways by one or more redundant upstream activators. In breast cancer models, ErbB TKIs such as gefitinib have been shown to lose the ability to modulate ErbB-driven signaling pathways over time, even though ErbB inhibition is maintained. Although incomplete ErbB inhibition has been proposed to underlie this phenomenon, our findings suggest that oncogene switching can also re-activate downstream signaling pathways in breast cancer cells, even when ErbB inhibition is complete. We find that ErbB TKI-induced Src activation mediates downstream signaling rebound in SKBR3 cells, and we show that combination of Src and ErbB inhibitors is more effective and longlasting than is either TKI alone. Finally, the Hsp90 inhibitor 17-AAG, by simultaneously and durably inhibiting multiple signaling activators including ErbB and Src kinases, does not permit oncogene switching and results in a more prolonged and robust inhibition of downstream signaling pathways in breast cancer cells than do individual TKIs. These data support the continued clinical evaluation of Hsp90 inhibitors in breast cancer.

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Year:  2008        PMID: 18769157      PMCID: PMC2698221          DOI: 10.4161/cc.7.18.6701

Source DB:  PubMed          Journal:  Cell Cycle        ISSN: 1551-4005            Impact factor:   4.534


  19 in total

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Journal:  Clin Cancer Res       Date:  1997-12       Impact factor: 12.531

2.  c-Src protein expression is increased in human breast cancer. An immunohistochemical and biochemical analysis.

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Journal:  J Pathol       Date:  1996-12       Impact factor: 7.996

3.  EGFR mutation and resistance of non-small-cell lung cancer to gefitinib.

Authors:  Susumu Kobayashi; Titus J Boggon; Tajhal Dayaram; Pasi A Jänne; Olivier Kocher; Matthew Meyerson; Bruce E Johnson; Michael J Eck; Daniel G Tenen; Balázs Halmos
Journal:  N Engl J Med       Date:  2005-02-24       Impact factor: 91.245

4.  Geldanamycin induces ErbB-2 degradation by proteolytic fragmentation.

Authors:  O Tikhomirov; G Carpenter
Journal:  J Biol Chem       Date:  2000-08-25       Impact factor: 5.157

5.  Surface charge and hydrophobicity determine ErbB2 binding to the Hsp90 chaperone complex.

Authors:  Wanping Xu; Xitong Yuan; Zhexin Xiang; Edward Mimnaugh; Monica Marcu; Len Neckers
Journal:  Nat Struct Mol Biol       Date:  2005-01-09       Impact factor: 15.369

6.  Coactivation of receptor tyrosine kinases affects the response of tumor cells to targeted therapies.

Authors:  Jayne M Stommel; Alec C Kimmelman; Haoqiang Ying; Roustem Nabioullin; Aditya H Ponugoti; Ruprecht Wiedemeyer; Alexander H Stegh; James E Bradner; Keith L Ligon; Cameron Brennan; Lynda Chin; Ronald A DePinho
Journal:  Science       Date:  2007-09-13       Impact factor: 47.728

7.  ErbB2 promotes Src synthesis and stability: novel mechanisms of Src activation that confer breast cancer metastasis.

Authors:  Ming Tan; Ping Li; Kristine S Klos; Jing Lu; Keng-Hsueh Lan; Yoichi Nagata; Dexing Fang; Tong Jing; Dihua Yu
Journal:  Cancer Res       Date:  2005-03-01       Impact factor: 12.701

8.  FDA drug approval summary: gefitinib (ZD1839) (Iressa) tablets.

Authors:  Martin H Cohen; Grant A Williams; Rajeshwari Sridhara; Gang Chen; Richard Pazdur
Journal:  Oncologist       Date:  2003

9.  p185erbB2 binds to GRP94 in vivo. Dissociation of the p185erbB2/GRP94 heterocomplex by benzoquinone ansamycins precedes depletion of p185erbB2.

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Journal:  J Biol Chem       Date:  1996-03-01       Impact factor: 5.157

10.  Phase I pharmacokinetic-pharmacodynamic study of 17-(allylamino)-17-demethoxygeldanamycin (17AAG, NSC 330507), a novel inhibitor of heat shock protein 90, in patients with refractory advanced cancers.

Authors:  Ramesh K Ramanathan; Donald L Trump; Julie L Eiseman; Chandra P Belani; Sanjiv S Agarwala; Eleanor G Zuhowski; Jing Lan; Douglas M Potter; S Percy Ivy; Sakkaraiappan Ramalingam; Adam M Brufsky; Michael K K Wong; Susan Tutchko; Merrill J Egorin
Journal:  Clin Cancer Res       Date:  2005-05-01       Impact factor: 12.531
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  17 in total

1.  The HSP90 inhibitor ganetespib synergizes with the MET kinase inhibitor crizotinib in both crizotinib-sensitive and -resistant MET-driven tumor models.

Authors:  Naoto Miyajima; Shinji Tsutsumi; Carole Sourbier; Kristin Beebe; Mehdi Mollapour; Candy Rivas; Soichiro Yoshida; Jane B Trepel; Ying Huang; Manabu Tatokoro; Nobuo Shinohara; Katsuya Nonomura; Len Neckers
Journal:  Cancer Res       Date:  2013-10-11       Impact factor: 12.701

2.  A comparison of cell survival and heat shock protein expression after radiation in normal dermal fibroblasts, microvascular endothelial cells, and different head and neck squamous carcinoma cell lines.

Authors:  Dominique Muschter; Fabian Geyer; Richard Bauer; Tobias Ettl; Stephan Schreml; Frank Haubner
Journal:  Clin Oral Investig       Date:  2018-01-06       Impact factor: 3.573

Review 3.  The HSP90 chaperone machinery.

Authors:  Florian H Schopf; Maximilian M Biebl; Johannes Buchner
Journal:  Nat Rev Mol Cell Biol       Date:  2017-04-21       Impact factor: 94.444

4.  Initial testing (Stage 1) of AT13387, an HSP90 inhibitor, by the pediatric preclinical testing program.

Authors:  Min H Kang; C Patrick Reynolds; Peter J Houghton; Denise Alexander; Christopher L Morton; E Anders Kolb; Richard Gorlick; Stephen T Keir; Hernan Carol; Richard Lock; John M Maris; Amy Wozniak; Malcolm A Smith
Journal:  Pediatr Blood Cancer       Date:  2011-04-29       Impact factor: 3.167

5.  Cdc37-Hsp90 complexes are responsive to nucleotide-induced conformational changes and binding of further cofactors.

Authors:  Andreas M Gaiser; Anja Kretzschmar; Klaus Richter
Journal:  J Biol Chem       Date:  2010-09-29       Impact factor: 5.157

6.  Monitoring the induction of heat shock factor 1/heat shock protein 70 expression following 17-allylamino-demethoxygeldanamycin treatment by positron emission tomography and optical reporter gene imaging.

Authors:  Mikhail Doubrovin; Jian T Che; Inna Serganova; Ekaterina Moroz; David B Solit; Lyudmila Ageyeva; Tatiana Kochetkova; Nagavarakishore Pillarsetti; Ronald Finn; Neal Rosen; Ronald G Blasberg
Journal:  Mol Imaging       Date:  2012-02       Impact factor: 4.488

7.  Differential heat shock protein localization in chronic lymphocytic leukemia.

Authors:  Nina C Dempsey; Francesca Leoni; H Elyse Ireland; Christine Hoyle; John H H Williams
Journal:  J Leukoc Biol       Date:  2009-12-10       Impact factor: 4.962

8.  Geldanamycin selectively targets the nascent form of ERBB3 for degradation.

Authors:  Candice S Gerbin; Ralf Landgraf
Journal:  Cell Stress Chaperones       Date:  2010-01-19       Impact factor: 3.667

Review 9.  Update on Hsp90 inhibitors in clinical trial.

Authors:  Y S Kim; S V Alarcon; S Lee; M-J Lee; G Giaccone; L Neckers; J B Trepel
Journal:  Curr Top Med Chem       Date:  2009       Impact factor: 3.295

10.  Cancer cells harboring MET gene amplification activate alternative signaling pathways to escape MET inhibition but remain sensitive to Hsp90 inhibitors.

Authors:  Suiquan Wang; Itai Pashtan; Shinji Tsutsumi; Wanping Xu; Len Neckers
Journal:  Cell Cycle       Date:  2009-07-27       Impact factor: 4.534
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