FGF2 Induces Resistance to Nilotinib through MAPK Pathway Activation in KIT Mutated Melanoma

被引:6
作者
Tetu, Pauline [1 ,2 ]
Delyon, Julie [1 ,2 ]
Andre, Jocelyne [1 ,3 ]
de Moura, Coralie Reger [1 ,3 ,4 ]
Sabbah, Malak [5 ]
Ghanem, Ghanem E. [5 ]
Battistella, Maxime [1 ,3 ,6 ]
Mourah, Samia [1 ,3 ,4 ]
Lebbe, Celeste [1 ,2 ,3 ]
Dumaz, Nicolas [1 ,3 ]
机构
[1] INSERM, U976, Team 1, Human Immunol Pathophysiol & Immunotherapy HIPI, F-75010 Paris, France
[2] Hop St Louis, AP HP, Dept Dermatol, F-75010 Paris, France
[3] Univ Paris, Inst Rech St Louis IRSL, F-75010 Paris, France
[4] Hop St Louis, Dept Pharmacogen, F-75010 Paris, France
[5] Univ Libre Bruxelles, Inst Jules Bordet, Lab Oncol & Expt Surg, Rue Heger Bordet 1, B-1000 Brussels, Belgium
[6] Hop St Louis, AP HP, Dept Pathol, F-75010 Paris, France
来源
CANCERS | 2020年 / 12卷 / 05期
关键词
melanoma; targeted therapy resistance; KIT; MAPK; FGF2; BIM; GASTROINTESTINAL STROMAL TUMORS; PHASE-II; IMATINIB MESYLATE; MUCOSAL; TRIAL; MUTATIONS; EFFICACY; DRIVER;
D O I
10.3390/cancers12051062
中图分类号
R73 [肿瘤学];
学科分类号
100214 ;
摘要
KIT is a bona fide oncogene in a subset of melanoma and, ex vivo, KIT inhibitors are very efficient at killing KIT-mutant melanoma cell lines. However, KIT-mutant melanoma tumors tend to show a de novo resistance in most cases and a limited duration of response when response is achieved. We performed pharmacodynamic studies on patients with KIT-mutated melanoma treated with nilotinib, which suggested that the FGF2 axis may be a mechanism of resistance in this subset of melanoma. Using several melanoma cell lines, which are dependent on oncogenic KIT, we showed that although KIT inhibition markedly decreased cell viability in melanoma cell lines with distinct KIT mutations, this effect was lessened in the presence of FGF2 due to inhibition of BIM expression by MAPK pathway activation. Addition of a MEK inhibitor reversed the FGF2-driven resistance for all KIT mutants. We confirmed the expression of FGF2 and activation of MEK-ERK in melanoma patients using in situ data from a clinical trial. Therefore, the combined inhibition of KIT with FGFR or MEK may be a next-step effective clinical strategy in KIT-mutant melanoma.
引用
收藏
页数:14
相关论文
共 33 条
[11]   STAT3 Mediates Nilotinib Response in KIT-Altered Melanoma: A Phase II Multicenter Trial of the French Skin Cancer Network [J].
Delyon, Julie ;
Chevret, Sylvie ;
Jouary, Thomas ;
Dalac, Sophie ;
Dalle, Stephane ;
Guillot, Bernard ;
Arnault, Jean-Philippe ;
Avril, Marie-Francoise ;
Bedane, Christophe ;
Bens, Guido ;
Pham-Ledard, Anne ;
Mansard, Sandrine ;
Grange, Florent ;
Machet, Laurent ;
Meyer, Nicolas ;
Legoupil, Delphine ;
Saiag, Philippe ;
Idir, Zakia ;
Renault, Victor ;
Deleuze, Jean-Francois ;
Hindie, Elif ;
Battistella, Maxime ;
Dumaz, Nicolas ;
Mourah, Samia ;
Lebbe, Celeste .
JOURNAL OF INVESTIGATIVE DERMATOLOGY, 2018, 138 (01) :58-67
[12]   Driver KIT mutations in melanoma cluster in four hotspots [J].
Dumaz, Nicolas ;
Andre, Jocelyne ;
Sadoux, Aurelie ;
Laugier, Florence ;
Podgorniak, Marie Pierre ;
Mourah, Samia ;
Lebbe, Celeste .
MELANOMA RESEARCH, 2015, 25 (01) :88-90
[13]   The clinical significance of KIT mutations in melanoma: a meta-analysis [J].
Gong, Hui Z. ;
Zheng, He Y. ;
Li, Jun .
MELANOMA RESEARCH, 2018, 28 (04) :259-270
[14]   Efficacy and safety of nilotinib in patients with KIT-mutated metastatic or inoperable melanoma: final results from the global, single-arm, phase II TEAM trial [J].
Guo, J. ;
Carvajal, R. D. ;
Dummer, R. ;
Hauschild, A. ;
Daud, A. ;
Bastian, B. C. ;
Markovic, S. N. ;
Queirolo, P. ;
Arance, A. ;
Berking, C. ;
Camargo, V. ;
Herchenhorn, D. ;
Petrella, T. M. ;
Schadendorf, D. ;
Sharfman, W. ;
Testori, A. ;
Novick, S. ;
Hertle, S. ;
Nourry, C. ;
Chen, Q. ;
Hodi, F. S. .
ANNALS OF ONCOLOGY, 2017, 28 (06) :1380-1387
[15]   Phase II, Open-Label, Single-Arm Trial of Imatinib Mesylate in Patients With Metastatic Melanoma Harboring c-Kit Mutation or Amplification [J].
Guo, Jun ;
Si, Lu ;
Kong, Yan ;
Flaherty, Keith T. ;
Xu, Xiaowei ;
Zhu, Yanyan ;
Corless, Christopher L. ;
Li, Li ;
Li, Haifu ;
Sheng, Xinan ;
Cui, Chuanliang ;
Chi, Zhihong ;
Li, Siming ;
Han, Mei ;
Mao, Lili ;
Lin, Xuede ;
Du, Nan ;
Zhang, Xiaoshi ;
Li, Junling ;
Wang, Baocheng ;
Qin, Shukui .
JOURNAL OF CLINICAL ONCOLOGY, 2011, 29 (21) :2904-2909
[16]   Repurposing Ponatinib as a Potent Agent against KIT Mutant Melanomas [J].
Han, Yong ;
Gu, Ziyue ;
Wu, Jing ;
Huang, Xiaojuan ;
Zhou, Rong ;
Shi, Chaoji ;
Tao, Wenjie ;
Wang, Lizhen ;
Wang, Yanan ;
Zhou, Guoyu ;
Li, Jiang ;
Zhang, Zhiyuan ;
Sun, Shuyang .
THERANOSTICS, 2019, 9 (07) :1952-1964
[17]   The BCL2 Family: Key Mediators of the Apoptotic Response to Targeted Anticancer Therapeutics [J].
Hata, Aaron N. ;
Engelman, Jeffrey A. ;
Faber, Anthony C. .
CANCER DISCOVERY, 2015, 5 (05) :475-487
[18]   MAP kinase links the transcription factor Microphthalmia to c-Kit signalling in melanocytes [J].
Hemesath, TJ ;
Price, ER ;
Takemoto, C ;
Badalian, T ;
Fisher, DE .
NATURE, 1998, 391 (6664) :298-301
[19]   Imatinib for Melanomas Harboring Mutationally Activated or Amplified KIT Arising on Mucosal, Acral, and Chronically Sun-Damaged Skin [J].
Hodi, F. Stephen ;
Corless, Christopher L. ;
Giobbie-Hurder, Anita ;
Fletcher, Jonathan A. ;
Zhu, Meijun ;
Marino-Enriquez, Adrian ;
Friedlander, Philip ;
Gonzalez, Rene ;
Weber, Jeffrey S. ;
Gajewski, Thomas F. ;
O'Day, Steven J. ;
Kim, Kevin B. ;
Lawrence, Donald ;
Flaherty, Keith T. ;
Luke, Jason J. ;
Collichio, Frances A. ;
Ernstoff, Marc S. ;
Heinrich, Michael C. ;
Beadling, Carol ;
Zukotynski, Katherine A. ;
Yap, Jeffrey T. ;
Van den Abbeele, Annick D. ;
Demetri, George D. ;
Fisher, David E. .
JOURNAL OF CLINICAL ONCOLOGY, 2013, 31 (26) :3182-+
[20]   Crosstalk between KIT and FGFR3 Promotes Gastrointestinal Stromal Tumor Cell Growth and Drug Resistance [J].
Javidi-Sharifi, Nathalie ;
Traer, Elie ;
Martinez, Jacqueline ;
Gupta, Anu ;
Taguchi, Takehiro ;
Dunlap, Jennifer ;
Heinrich, Michael C. ;
Corless, Christopher L. ;
Rubin, Brian P. ;
Druker, Brian J. ;
Tyner, Jeffrey W. .
CANCER RESEARCH, 2015, 75 (05) :880-891
1234