PURPOSE: Radiotherapy (RT) is used frequently in patients with melanoma, but results are suboptimal because the disease is often radioresistant. This may be due to constitutive activation of MAPK pathway signalling through mutations involving RAS/RAF. Thus, we studied whether trametinib, a potent and selective allosteric inhibitor of MEK1/2 could improve the efficacy of RT. METHODS AND MATERIALS: Clonogenic survival assays were performed in human BRAF-mutant (A375), NRAS-mutant (D04, WM1631), KRAS-mutant (WM1791c) and wild-type (PMWK) melanoma cell lines. The effects of trametinib with and without radiation on protein levels of MEK effectors were measured by immunoblot analyses. Cell cycle effects, DNA damage repair, mitotic catastrophe and senescence were measured using flow cytometry, γH2Ax staining, nuclear fragmentation and β-galactosidase staining, respectively. Additionally, athymic mice with D04 flank tumours were treated with fractionated RT after gavage with trametinib and monitored for tumour growth. RESULTS: All cell lines, except PMWK, exhibited enhanced cytotoxicity when RT was combined with trametinib compared to either agent alone. Sensitiser enhancement ratios were 1.70, 1.32, 1.10, and 1.70 for A375, D04, WM1361 and WM1791c, respectively. Trametinib efficiently blocked RT-induced phosphorylation of ERK at nanomolar concentrations. Increased radiosensitivity correlated with prolonged G1 arrest and reduction in the radioresistant S phase up to 48 h following RT. A larger population of senescence-activated β-galactosidase-positive cells was seen in the trametinib pretreated group, and this correlated with activation of two of the major mediators of induced senescence, p53 and pRb. Mice receiving the combination treatment (trametinib 1mg/kg and RT over 3 days) showed a reduced mean tumour volume compared with mice receiving trametinib alone (p=0.016), or RT alone (p=0.047). No overt signs of drug toxicity were observed. CONCLUSION: Trametinib radiosensitised RAS-/RAF-mutated melanoma cells by inducing prolonged G1 arrest and premature senescence. In this pre-clinical study we demonstrate that combining trametinib and RT is well tolerated, and reduces tumour growth in vivo.
PURPOSE: Radiotherapy (RT) is used frequently in patients with melanoma, but results are suboptimal because the disease is often radioresistant. This may be due to constitutive activation of MAPK pathway signalling through mutations involving RAS/RAF. Thus, we studied whether trametinib, a potent and selective allosteric inhibitor of MEK1/2 could improve the efficacy of RT. METHODS AND MATERIALS: Clonogenic survival assays were performed in humanBRAF-mutant (A375), NRAS-mutant (D04, WM1631), KRAS-mutant (WM1791c) and wild-type (PMWK) melanoma cell lines. The effects of trametinib with and without radiation on protein levels of MEK effectors were measured by immunoblot analyses. Cell cycle effects, DNA damage repair, mitotic catastrophe and senescence were measured using flow cytometry, γH2Ax staining, nuclear fragmentation and β-galactosidase staining, respectively. Additionally, athymic mice with D04 flank tumours were treated with fractionated RT after gavage with trametinib and monitored for tumour growth. RESULTS: All cell lines, except PMWK, exhibited enhanced cytotoxicity when RT was combined with trametinib compared to either agent alone. Sensitiser enhancement ratios were 1.70, 1.32, 1.10, and 1.70 for A375, D04, WM1361 and WM1791c, respectively. Trametinib efficiently blocked RT-induced phosphorylation of ERK at nanomolar concentrations. Increased radiosensitivity correlated with prolonged G1 arrest and reduction in the radioresistant S phase up to 48 h following RT. A larger population of senescence-activated β-galactosidase-positive cells was seen in the trametinib pretreated group, and this correlated with activation of two of the major mediators of induced senescence, p53 and pRb. Mice receiving the combination treatment (trametinib 1mg/kg and RT over 3 days) showed a reduced mean tumour volume compared with mice receiving trametinib alone (p=0.016), or RT alone (p=0.047). No overt signs of drug toxicity were observed. CONCLUSION:Trametinib radiosensitised RAS-/RAF-mutated melanoma cells by inducing prolonged G1 arrest and premature senescence. In this pre-clinical study we demonstrate that combining trametinib and RT is well tolerated, and reduces tumour growth in vivo.
Authors: Franziska Eckert; Ivan Jelas; Moritz Oehme; Stephan M Huber; Katja Sonntag; Christian Welker; Stephen D Gillies; Wolfgang Strittmatter; Daniel Zips; Rupert Handgretinger; Karin Schilbach Journal: Oncoimmunology Date: 2017-04-28 Impact factor: 8.110
Authors: Christopher J Anker; Kenneth F Grossmann; Michael B Atkins; Gita Suneja; Ahmad A Tarhini; John M Kirkwood Journal: Int J Radiat Oncol Biol Phys Date: 2016-06-01 Impact factor: 7.038
Authors: Laura Esteban-Burgos; Haiyun Wang; Patricia Nieto; Jie Zheng; Carmen Blanco-Aparicio; Carmen Varela; Gonzalo Gómez-López; Fernando Fernández-García; Manuel Sanclemente; Carmen Guerra; Matthias Drosten; Javier Galán; Eduardo Caleiras; Jorge Martínez-Torrecuadrada; Lluis Fajas; Sheng-Bin Peng; David Santamaría; Monica Musteanu; Mariano Barbacid Journal: Proc Natl Acad Sci U S A Date: 2020-09-10 Impact factor: 11.205
Authors: Arthur E Frankel; Ugur Eskiocak; Jennifer G Gill; Stacy Yuan; Vijayashree Ramesh; Thomas W Froehlich; Chul Ahn; Sean J Morrison Journal: Neoplasia Date: 2017-03-06 Impact factor: 5.715
Authors: Marta Kovatcheva; Will Liao; Mary E Klein; Nicolas Robine; Heather Geiger; Aimee M Crago; Mark A Dickson; William D Tap; Samuel Singer; Andrew Koff Journal: Nat Commun Date: 2017-08-30 Impact factor: 14.919