Conventional therapeutic agents are largely unsatisfactory into the treatment of malignant melanoma. Recently, an innovative approach based on inhibitors of the mutated BRAF gene (which represents the most prevalent alteration in melanoma patients) appears very promising from the clinical point of view. On this regard, a new compound, dabrafenib (GSK2118436), has been demonstrated to be effective in patients carrying the BRAFV600E/K mutations. We here tested dabrafenib for its capability to inhibit cell growth on primary melanoma cell lines, established from patients' tumour tissues and carrying the BRAFV600D/R mutations.
Methods
Three melanoma cell lines were tested: M257 wild-type BRAF, LCP BRAFV600R and WM266 BRAFV600D. The MTT assays were performed using standardized approaches. To evaluate the inhibition of MAPK pathway and the consequent inhibition of cellular proliferation, the phosphorylation of ERK was examined by Western Blot analysis performed on total protein extracts from cell lines after treatment with dabrafenib.
Results
Our experiments demonstrated an effective action of Dabrafenib (GSK2118436) and the inhibition of MAPK pathway in melanoma cell lines carrying BRAFV600D/R mutations.
Conclusion
These results could be helpful to enlarge the number of melanoma patients who may benefit of a more effective targeted treatment.
The online version of this article (doi:10.1186/1471-2407-13-17) contains supplementary material, which is available to authorized users.
Competing interests
Dr Paolo A. Ascierto participated to Advisory Board from Bristol Myers Squibb, MSD, Roche Genentech, GSK, and received honoraria from Brystol Myers Squibb, MSD and Roche-Genentech. All remaining authors declare the absence of any Competing Interest.
Authors’ contributions
GG performed data acquisition, data analysis, preparation of the illustration, and drafted the manuscript; GM contributed in data analysis and draft of the manuscript; NM contributed in interpretation of the data; AR critically revised the manuscript; AC contributed in data analysis; GP collaborated in the draft of the manuscript; PAA conceived and supervised the study, and revised the manuscript. All authors read and approved the final version of the manuscript.
Abkürzungen
MAPK
Mitogen-activated protein kinase.
Background
The mitogen-activated protein kinase (MAPK) pathway is a key regulator of cell cycle progression, commonly activated in human tumours through somatic oncogenic mutations in RAS, RAF, and MEK genes [1].
In melanoma, the most commonly mutated component of the MAPK pathway is the BRAF gene; among others, the most prevalent BRAF mutation (nearly, 90% of cases) is represented by a substitution of valine with glutamic acid at position 600 (V600E) [2]. This amino acid change leads to oncogenic activation of BRAF, with an increase of its kinase activity, and subsequent induction of phosphorylation of the downstream ERK protein. Constitutively activated ERK then stimulates cell proliferation and survival, sustaining tumour maintenance and growth [2]. The remaining BRAF mutations are mostly represented by other V600 subtypes (V600K, V600D, and V600R), which account for about 8% of the pathogenetic gene sequence variants [3]. In our experience, mutations in BRAF gene occur in 43% of primary melanomas and 48% of metastatic melanomas [4].
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A significant benefit in melanoma treatment has been recently achieved with two selective inhibitors: vemurafenib (PLX4032), which seems to particularly act on BRAFV600E mutants (although it has been demonstrated to also inhibit proliferation of melanoma cell lines expressing other codon 600 BRAF mutations: V600D, V600K, and V600R) [5‐7], and dabrafenib (GSK2118436), which has been demonstrated to mostly inhibit the kinase activity in BRAFV600E/K mutants [8, 9].
To investigate whether this latter compound may exert inhibiting effects on a wider range of BRAF mutants (similarly to those previously reported with vemurafenib/PLX4720 [5, 7]), melanoma cell lines carrying the two remaining most prevalent BRAF mutations (V600D and V600R) were here treated with dabrafenib and cellular proliferation was then assessed.
Methods
To determine effects on proliferation, melanoma cell lines were treated in triplicate with increasing concentrations (3 to 100 nM) of dabrafenib for 72 hrs. To evaluate the occurrence of inhibitory effects on the ERK activation, a Western Blot analysis was performed on total proteins extracted from cell lines after the 72-hrs treatment with the BRAF inhibitor. In particular, the rate of phosphorylated ERK was estimated on equal amounts of total protein for cell lysates; GAPDH was used as an internal control for total protein expression levels. Cell doubling time was determined from cell numbers measured in duplicates every 24 hours for a period of 7 days, using Burker cell counts.
Results and discussion
Using a panel of melanoma cell lines derived from the establishment of excised primary and metastatic tumours, we have investigated the ability of dabrafenib to both exert an antiproliferative activity on cultured melanoma cells and block the ERK signalling induced by the mutated BRAF. In our assay, the LCP melanoma cell line carried the BRAFV600R mutation, whereas the WM266 melanoma cell line presented the BRAFV600D variant (Figure 1A); the M257 melanoma cell line, with a wild-type BRAF, was used as control.
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In our series, dabrafenib showed a remarkable inhibition of cell proliferation in both melanoma cell lines carrying a mutated BRAF (regardless of the type of mutation, BRAFV600D or BRAFV600R), with lack of significant antiproliferative effects in control cells presenting a wild-type BRAF (Figure 1B). Regarding the interference with the ERK signaling, cell lines with BRAFV600D/R mutations presented a faster and stronger inhibition of phosphorylated ERK as compared to control cells with a wild-type BRAF (Figure 1C).
Dabrafenib has been reported to be specifically active on BRAFV600E/K mutants; data here presented strongly suggest that BRAFV600D/R mutations might be also included as an effective target of the drug. Nevertheless, although the BRAFV600D/R mutations constitute a small fraction of the entire set of oncogenic variants in BRAF gene, the availability of a drug showing effectiveness on a more inclusive variety of BRAF-mutated targets could be helpful from the practical point of view, allowing clinicians to enlarge the subset of melanoma patients who may benefit of a more effective targeted treatment.
Conclusions
Although carried out on a limited series of melanoma cell lines, our study provided evidence that dabrafenib may exert a wider inhibitory activity on oncogenic variants of BRAF.
Acknowledgments
Authors thank Glaxo Smith and Kline for providing the dabrafenib for this study. A special thanks to the Fondazione Melanoma Onlus for partially grant the present work.
Open Access
This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution License (
https://creativecommons.org/licenses/by/2.0
), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Competing interests
Dr Paolo A. Ascierto participated to Advisory Board from Bristol Myers Squibb, MSD, Roche Genentech, GSK, and received honoraria from Brystol Myers Squibb, MSD and Roche-Genentech. All remaining authors declare the absence of any Competing Interest.
Authors’ contributions
GG performed data acquisition, data analysis, preparation of the illustration, and drafted the manuscript; GM contributed in data analysis and draft of the manuscript; NM contributed in interpretation of the data; AR critically revised the manuscript; AC contributed in data analysis; GP collaborated in the draft of the manuscript; PAA conceived and supervised the study, and revised the manuscript. All authors read and approved the final version of the manuscript.
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