Your search keyword '"BRAF-mutated melanoma"' showing total 382 results

1. In Vitro Experiments on the Effects of GP-2250 on BRAF-Mutated Melanoma Cell Lines and Benign Melanocytes.

Author

Gambichler, Thilo, Harnischfeger, Friederike, Skrygan, Marina, Majchrzak-Stiller, Britta, Buchholz, Marie, Müller, Thomas, and Braumann, Chris

Subjects

*CELL lines, *GENE expression profiling, *MELANOCYTES, *WARBURG Effect (Oncology), *BRAF genes, *GENE expression

Abstract

Enhanced glycolysis (Warburg effect) driven by the BRAF oncogene, dysregulated GAPDH expression, and activation of the PI3K/AKT/mTOR signaling pathway may significantly contribute to the resistance-targeted therapy of BRAF-mutated melanomas. Therefore, we aimed to study for the first time the anti-tumor activity of the GAPDH inhibitor GP-2250 in BRAF-mutated melanoma cell lines and benign melanocytes. We employed three melanoma cell lines and one primary melanocyte cell line (Ma-Mel-61a, Ma-Mel-86a, SH-4 and ATCC-PCS-200-013, respectively), which were exposed to different GP-2250 doses. GP-2250's effects on cell proliferation and viability were evaluated by means of the BrdU and MTT assays, respectively. The RealTime-Glo Annexin V Apoptosis and Necrosis Assay was performed for the evaluation of apoptosis and necrosis induction. RT-PCR and western blotting were implemented for the determination of AKT and STAT3 gene and protein expression analyses, respectively. The melanoma cell lines showed a dose-dependent response to GP-2250 during BrDU and MTT testing. The RealTime-Glo Annexin V assay revealed the heterogenous impact of GP-2250 on apoptosis as well as necrosis. With respect to the melanoma cell lines Ma-Mel-86a and SH-4, the responses and dosages were comparable to those used for the MTT viability assay. Using the same dose range of GP-2250 administered to melanoma cells, however, we observed neither the noteworthy apoptosis nor necrosis of GP-2250-treated benign melanocytes. The gene expression profiles in the melanoma cell lines for AKT and STAT3 were heterogenous, whereby AKT as well as STAT3 gene expression were most effectively downregulated using the highest GP-2250 doses. Immunoblotting revealed that there was a time-dependent decrease in protein expression at the highest GP-2250 dose used, whereas a time- as well as dose-dependent AKT decrease was predominantly observed in Ma-Mel-61a. The STAT3 protein expression of Ma-Mel-86a and SH-4 was reduced in a time-dependent pattern at lower and moderate doses. STAT3 expression in Ma-Me-61a was barely altered by GP-2250. In conclusion, GP-2250 has anti-neoplastic effects in BRAF-mutated melanoma cell lines regarding tumor cell viability, proliferation, and apoptosis/necrosis. GP-2250 is able to downregulate the gene and protein expression of aberrant tumorigenic pathways in melanoma cell lines. Since GP-2250 is a GAPDH inhibitor, the substance may be a promising combination therapy for tumors presenting the Warburg effect, such as melanoma. [ABSTRACT FROM AUTHOR]

Published

2023

2. Addressing the unmet needs of patients with BRAF-mutated melanoma in Latin America: Expert perspective.

Author

Salman, Pamela, Cristina de Melo, Andreia, Rico-Restrepo, Mariana, Rodriguez, Jeronimo, Russi, Andrea, Aron Schmerling, Rafael, Zambrano, Angela, and Cinat, Gabriela

Subjects

BRAF genes, INDIVIDUALIZED medicine, MELANOMA, HUMAN resources departments, DECISION making, GENETIC mutation

Abstract

Melanoma represents an increasing public health burden with extensive unmet needs in Latin America (LA). A mutation in the BRAF gene is present in approximately 50% of all melanomas in White populations and is a target of precision medicine, with the potential to dramatically improve patient outcomes. Thus, increased access to BRAF testing and therapy is LA must be explored. At a multi-day conference, a panel of Latin American experts in oncology and dermatology were provided with questions to address the barriers limiting access to testing for BRAF mutation in patients with melanoma in LA, who may be eligible for targeted therapy to improve their prognosis. During the conference, responses were discussed and edited until a consensus on addressing the barriers was achieved. Identified challenges included ignorance of BRAF-status implications, limited human and infrastructural resources, affordability and reimbursement, fragmented care delivery, pitfalls in the sample journey, and lack of local data. Despite the clear benefits of targeted therapies for BRAF-mutated melanoma in other regions, there is no clear path to prepare LA for a sustainable personalized medicine approach to this disease. Due to melanoma's time-sensitive nature, LA must aim to provide early access to BRAF testing and consider mutational status within treatment decision making. To this end, recommendations are provided and include establishing multidisciplinary teams and melanoma referral centers and improving access to diagnosis and treatment. [ABSTRACT FROM AUTHOR]

Published

2023

3. Switch to checkpoint inhibition after targeted therapy at time of progression or during ongoing response: A retrospective single‐centre experience in patients with BRAF‐mutated melanoma.

Author

Reijers, Irene L. M., Rozeman, Elisa A., Wilgenhof, Sofie, Thienen, Johannes V., Haanen, John B. A. G., and Blank, Christian U.

Subjects

*MELANOMA, *LACTATE dehydrogenase, *T cells, *ANTIGEN presentation, *BRAF genes

Abstract

BRAF + MEK inhibition is preferentially applied as first‐line therapy in BRAF V600‐mutated melanoma patients with unfavourable prognostic features, due to the ability of targeted therapy (TT) to induce rapid symptom control, decrease tumour burden and normalize lactate dehydrogenase (LDH) levels. In addition, short‐term TT transiently increases tumour antigen presentation and tumour influx of T cells. Therefore, it might be favourable to switch TT to checkpoint inhibition (CPI) before progression (PD). We retrospectively analysed melanoma patients treated first line with TT (TT1) and who subsequently switched to CPI during response to TT (sDR group) or at progression upon TT (sPD group). We identified 74 patients (n = 37 sDR group and n = 37 sPD group). ORR to CPI was 27.0% in the sDR group versus 24.3% in the sPD group (p =.790). Median was PFS 2.5 months versus 1.2 months (p =.145), and median OS was 30.6 versus 14.1 months (p =.007). After adjusting for baseline differences and known prognostic factors, hazard ratios (HRs) favouring sDR were 0.89 for PFS upon CPI (p =.956) and 0.48 for OS (p =.055). Thus, patients switching to CPI during ongoing clinical benefit from TT do not have an inferior outcome. Due to baseline imbalances and small patient population, a favourable trend for the sDR group can be hypothesized only. [ABSTRACT FROM AUTHOR]

Published

2020

4. New Melanoma Study Findings Have Been Reported by Investigators at University of Montpellier (Efficiency and Tolerance of Second-line Triple Braf Inhibitor/mek Inhibitor/anti-pd1 Combined Therapy In Braf Mutated Melanoma Patients With Central...).

Subjects

BRAF genes, CENTRAL nervous system cancer, MELANOMA

Abstract

A new report from the University of Montpellier in France discusses the efficiency and tolerance of second-line triple therapy in patients with BRAF-mutated melanoma and central nervous system (CNS) metastases. The study found that the addition of anti-PD1 to combined targeted therapy did not result in significant response of CNS targets in most patients. Only one patient displayed a significant clinical and morphological response. The mean progression-free survival (PFS) and overall survival (OS) after CNS progression were 2.59 and 4.12 months, respectively. This research provides insights into the challenges of treating melanoma patients with CNS metastases and highlights the need for further investigation in this area. [Extracted from the article]

Published

2024

5. Response to BRAF/MEK Inhibition in A598_T599insV BRAF Mutated Melanoma.

Author

Bjursten, Sara, Vannas, Christoffer, Filges, Stefan, Puls, Florian, Pandita, Ankur, Fagman, Henrik, Ståhlberg, Anders, and Levin, Max

Subjects

*CIRCULATING tumor DNA, *MELANOMA, *BRAF genes, *GENE frequency, *ONCOLOGY

Abstract

Approximately 50% of patients with metastatic melanoma harbor an activating BRAF mutation. Tumors with activating mutation BRAF gene proliferate excessively and can be treated with targeted BRAF-inhibitors in combination with MEK inhibitors. The most common BRAF mutation occurs at amino acid position 600. Other BRAF mutations are rare and their predictive value for treatment response to BRAF/MEK inhibition is low. Here, we report on a patient with a BRAF A598_T599insV mutated melanoma, a mutation that has only been described in one previous melanoma patient in which the treatment response to BRAF/MEK inhibition was transient. Our patient had a large ulcerated metastasis that showed a durable complete response implying that BRAF/MEK inhibition should be considered a treatment option for this mutation. We analyzed circulating cell-free tumor DNA (ctDNA) carrying the BRAF A598_T599insV mutation throughout treatment. The allele frequency of BRAF A598_T599insV decreased during regression of the tumors, indicating that this method has potential to monitor treatment response. Our case demonstrates durable response to BRAF/MEK inhibition in a melanoma patient carrying a BRAF A598_T599insV mutation. In addition, we show that allele frequency analysis of A598_T599insV mutation in blood using ultrasensitive sequencing can be used to monitor treatment response. [ABSTRACT FROM AUTHOR]

Published

2019

6. Design and synthesis of novel thiobarbituric acid derivatives targeting both wild-type and BRAF-mutated melanoma cells.

Author

Ramisetti, Srinivasa Rao, Pandey, Manoj K., Karelia, Deepkamal, Amin, Shantu, Sharma, Arun K., Lee, Sang Y., and Narayan, Satya

Subjects

*BARBITURATE analysis, *MELANOMA treatment, *ANTINEOPLASTIC agents, *BRAF genes, *CELL-mediated cytotoxicity, *APOPTOSIS, *CHEMICAL synthesis

Abstract

A series of novel thio- and seleno-barbituric acid derivatives were synthesized by varying the substituents at N1 and N3 (ethyl, methyl, allyl, and phenyl), and C5 tethered with dienyl and trienyl moieties attached to substituents such as phenyl, 2-furanyl, 2-thiophenyl, 1-naphthyl, and 3-pyridyl. The cytotoxic potential of these derivatives was evaluated by using MTT assay against melanoma cell lines expressing either wild-type (CHL-1) or mutant (UACC 903) BRAF gene. Among all, 2b and 8b were identified as the most potent compounds. Both 2b and 8b inhibited viability of various melanoma cells and induced cell death as evidenced by Live and Dead assay. Western blot analysis showed that they induce PARP cleavage and inhibit anti-apoptotic Bcl-2, Bcl-xL and Survivin in a dose-dependent manner within 24 h of the treatment. Novel thiobarbituric acid analogs also inhibited viability of various other solid tumor cell lines, such as pancreatic, breast, and colon. Overall, 2b , 2d , and 8b emerged as the most effective compounds and make good leads for the development of future therapeutic agents. [ABSTRACT FROM AUTHOR]

Published

2018

7. CDK12 is hyperactivated and a synthetic-lethal target in BRAF-mutated melanoma.

Author

Houles, Thibault, Lavoie, Geneviève, Nourreddine, Sami, Cheung, Winnie, Vaillancourt-Jean, Éric, Guérin, Célia M., Bouttier, Mathieu, Grondin, Benoit, Lin, Sichun, Saba-El-Leil, Marc K., Angers, Stephane, Meloche, Sylvain, and Roux, Philippe P.

Subjects

CYCLIN-dependent kinases, TRANSCRIPTION factors, AP-1 transcription factor, PROTEIN kinases, MELANOMA, DNA repair, SKIN cancer, BRAF genes

Abstract

Melanoma is the deadliest form of skin cancer and considered intrinsically resistant to chemotherapy. Nearly all melanomas harbor mutations that activate the RAS/mitogen-activated protein kinase (MAPK) pathway, which contributes to drug resistance via poorly described mechanisms. Herein we show that the RAS/MAPK pathway regulates the activity of cyclin-dependent kinase 12 (CDK12), which is a transcriptional CDK required for genomic stability. We find that melanoma cells harbor constitutively high CDK12 activity, and that its inhibition decreases the expression of long genes containing multiple exons, including many genes involved in DNA repair. Conversely, our results show that CDK12 inhibition promotes the expression of short genes with few exons, including many growth-promoting genes regulated by the AP-1 and NF-κB transcription factors. Inhibition of these pathways strongly synergize with CDK12 inhibitors to suppress melanoma growth, suggesting promising drug combinations for more effective melanoma treatment. In patients with melanoma, increased RAS/mitogen-activated protein kinase (MAPK) pathway activity is known to drive chemotherapy resistance. Here, the authors identify CDK12 as a downstream effector of the RAS/MAPK pathway and therapeutic target which mediates chemotherapy resistance through increased expression of DNA repair associated genes. [ABSTRACT FROM AUTHOR]

Published

2022

8. PO-1557 RT after Encorafenib and Binimetinib on BRAF mutated melanoma brain metastases. GEM1802-Phase II.

Author

Alvarez, A., Valduvieco, I., Arance, A., Delgado, R., Berciano, M.A., López Campos, F., Soria, A., Romero, J.L., Sánchez Mauriño, P., Lucas, A., Martín Liberal, J., Prada, P.J., García Castaño, A., Alamo, M.C., Puertas, E., González Cao, M., Conde, A., Díaz Beveridge, R., Corona, J.A., and Aguado, C.

Subjects

*BRAF genes, *MELANOMA

Published

2023

9. 826P Encorafenib and binimetinib followed by radiotherapy for patients with symptomatic BRAF mutated melanoma brain metastases: GEM1802/E-BRAIN clinical trial.

Author

Marquez-Rodas, I., Arance Fernandez, A.M., Berciano Guerrero, M.A., Garcia Castano, A., Alamo De La Gala, M.D.C., Gonzalez Cao, M., Sanchez Mauriño, P., Diaz Beveridge, R.P., Valduvieco, I., Delgado, R., Prada, P.J., Puertas, E., Romero, J.L., Conde, A., Alvarez, A., and Berrocal, A.

Subjects

*BRAF genes, *CLINICAL trials, *MELANOMA, *RADIOTHERAPY

Published

2022

10. Combined Vemurafenib and Cobimetinib in BRAF-Mutated Melanoma.

Author

Larkin, James, Ascierto, Paolo A., Dréno, Brigitte, Atkinson, Victoria, Liszkay, Gabriella, Maio, Michele, Mandalà, Mario, Demidov, Lev, Stroyakovskiy, Daniil, Thomas, Luc, de la Cruz-Merino, Luis, Dutriaux, Caroline, Garbe, Claus, Sovak, Mika A., Chang, Ilsung, Choong, Nicholas, Hack, Stephen P., McArthur, Grant A., and Ribas, Antoni

Subjects

*MELANOMA treatment, *COMBINATION drug therapy, *ANTINEOPLASTIC agents, *DRUG efficacy, *GENETIC mutation, *BRAF genes

Abstract

The article highlights the results of a research study on the effectiveness of drug combination therapy in melanoma. Topics noted include the efficacy of combined vemurafenib and cobimetinib in melanoma patients with BRAF mutations, comparison of combined BRAF and MEK inhibition of drug resistance, assessment of progression-free survival and interim analysis of overall survival of patients, and common adverse events, response rate, and safety of the therapy.

Published

2014

11. Targeting RAF kinases for cancer therapy: BRAF-mutated melanoma and beyond.

Author

Holderfield, Matthew, Deuker, Marian M., McCormick, Frank, and McMahon, Martin

Subjects

*RAF genes, *BRAF genes, *PHOSPHOTRANSFERASES, *NEUROENDOCRINE tumors, *MELANOMA

Abstract

The identification of mutationally activated BRAF in many cancers altered our conception of the part played by the RAF family of protein kinases in oncogenesis. In this Review, we describe the development of BRAF inhibitors and the results that have emerged from their analysis in both the laboratory and the clinic. We discuss the spectrum of RAF mutations in human cancer and the complex interplay between the tissue of origin and the response to RAF inhibition. Finally, we enumerate mechanisms of resistance to BRAF inhibition that have been characterized and postulate how strategies of RAF pathway inhibition may be extended in scope to benefit not only the thousands of patients who are diagnosed annually with BRAF-mutated metastatic melanoma but also the larger patient population with malignancies harbouring mutationally activated RAF genes that are ineffectively treated with the current generation of BRAF kinase inhibitors. [ABSTRACT FROM AUTHOR]

Published

2014

12. 1038MO Intracranial activity of encorafenib and binimetinib followed by radiotherapy in patients with BRAF mutated melanoma and brain metastasis: Preliminary results of the GEM1802/EBRAIN-MEL phase II clinical trial.

Author

Marquez-Rodas, I., Arance, A., Berciano Guerrero, M.A., Díaz Beveridge, R., Alamo, M.D.C., Garcia Castaño, A., Gonzalez Cao, M., Vidal, J., Puertolas Hernandez, T., Soria, A., Aguado de la Rosa, C., Sánchez Mauriño, P., Valduvieco, I., Delgado Rico, R., Conde, A., Foro, P., Prada, P.J., Puertas, E., Alvarez Gonzalez, A., and Berrocal, A.

Subjects

*BRAF genes, *BRAIN metastasis, *MELANOMA, *CLINICAL trials, *RADIOTHERAPY

Published

2021

13. Targeted therapy or immunotherapy in BRAF-mutated metastatic melanoma: a Spanish center's decade of experience.

Author

Sun, Chen, España, Sofia, Richarz, Nina, Solé-Blanch, Carme, Boada, Aram, Martinez-Cardús, Anna, Chu, Alan, Zongwen Liu, and Manzano, Jose Luis

Subjects

IMMUNOTHERAPY, PROGNOSIS, BRAF genes, METASTASIS, BIOMEDICAL materials, MELANOMA

Abstract

Background: Targeted therapies and immunotherapy are currently considered the mainstay first-line treatment for advanced BRAF-mutated melanoma. However, the impact of treatment (targeted therapy and immunotherapy) and the prognostic factors are still not clear. Material and methods: Medical records of 140 patients diagnosed with advanced melanoma between 2011 and 2021 were retrospectively reviewed to extract demographic, BRAF status, treatment, performance status, and survival data. ORR, PFS, and OS were compared between patients diagnosed with advanced melanoma and treated with first-line IT or BRAF/MEKi. The prognostic factors were assessed using Cox regression models. Results: In all patients and those treated with immunotherapy, we did not find any effect of BRAF status on ORR, PFS, or OS. In patients with BRAF-mutated melanoma, ORR was 43.8% vs. 70% (P=0.04), PFS was 19.2 vs. 11.5 months (p=0.22), and OS was 33.4 vs. 16.4 months for the immunotherapy and targeted therapy groups, respectively (P=0.04). ECOG, presence of brain metastases, and high LDH level from initiation of first-line treatment were all associated with differences in PFS and OS. Conclusion: Patients with advanced BRAF-mutated melanoma treated with first-line immunotherapy had a significantly longer PFS and OS than those treated with first-line BRAF/MEKi; however, first-line BRAF/MEKi treatment had a significantly higher ORR than first-line immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

14. Targeted Therapy After Brain Radiotherapy for BRAF-Mutated Melanoma With Extensive Ependymal Disease With Prolonged Survival: Case Report and Review of the Literature.

Author

Abu-Gheida, Ibrahim, Chao, Samuel, Murphy, Erin, Suh, John, Stevens, Glen H., Mohammadi, Alireza M., McNamara, Michael, and Yu, Jennifer S.

Subjects

BRAF genes, TREATMENT of brain cancer, CANCER radiotherapy, DISEASE progression, MENINGEAL cancer

Abstract

Melanoma brain metastasis with ependymal spread/metastases is uncommon. These cases are frequently classified together with leptomeningeal disease. However, the commonalities and differences in the underlying pathophysiology and clinical outcomes between these two types of spread are not clear. Very few reports on long term outcome and durable central nervous system (CNS) disease control have been reported in the literature. Here, we report a case of a 45 year-old Caucasian lady with BRAF-V600E mutant metastatic melanoma to the brain who had whole brain radiotherapy followed by two Gamma knife radiosurgery treatments for localized disease progression. She then developed extensive ependymal disease progression with no evidence of leptomeningeal spread. She was treated with a repeat course of whole brain radiotherapy and maintained on BRAF and MEK inhibitors with durable CNS disease control for more than a year. This study reviews the management of BRAF-V600E mutant melanoma with ependymal involvement. Management using radiation therapy with maintenance targeted therapy seems to be a reasonable approach to this challenging disease. [ABSTRACT FROM AUTHOR]

Published

2019

15. Oncology Department Researchers Yield New Study Findings on Personalized Medicine (Addressing the unmet needs of patients with BRAF-mutated melanoma in Latin America: Expert perspective).

Subjects

INDIVIDUALIZED medicine, ONCOLOGY, BRAF genes, RESEARCH personnel, MELANOMA

Abstract

Despite the clear benefits of targeted therapies for BRAF-mutated melanoma in other regions, there is no clear path to prepare LA for a sustainable personalized medicine approach to this disease." Keywords: Cancer; Drugs and Therapies; Genetics; Health and Medicine; Melanoma; Oncology; Personalized Medicine; Personalized Therapy EN Cancer Drugs and Therapies Genetics Health and Medicine Melanoma Oncology Personalized Medicine Personalized Therapy 1421 1421 1 03/27/23 20230331 NES 230331 2023 MAR 31 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Research findings on personalized medicine are discussed in a new report. [Extracted from the article]

Published

2023

16. The Interplay between HGF/c-met Axis and Nox4 in BRAF Mutated Melanoma.

Author

Beretti, Francesca, Farnetani, Francesca, Reggiani Bonetti, Luca, Fabbiani, Luca, Zavatti, Manuela, Maiorana, Antonino, Pellacani, Giovanni, and Maraldi, Tullia

Subjects

*BRAF genes, *HEPATOCYTE growth factor, *PROTEIN-tyrosine kinases, *MELANOMA, *REACTIVE oxygen species, *EPITHELIAL-mesenchymal transition, *MELANOMA diagnosis

Abstract

Background: Melanoma is the leading cause of death due to cutaneous malignancy and its incidence is on the rise. Several signaling pathways, including receptor tyrosine kinases, have a role in the development and progression of melanocytic lesions and malignant melanoma. Among those, the hepatocyte growth factor (HGF)/c-met axis is emerging as a critical player because it can play a role in drug resistance. Indeed, 50% of melanoma patients present BRAF mutations, however, all responders develop resistance to the inhibitors typically within one year of treatment. Interestingly, BRAF inhibitors induce reactive oxygen species (ROS) in melanoma cells, therefore, the aim of this study was to investigate a possible interplay between HGF/c-met and ROS sources, such as NADPH oxidases (Nox). Methods: The expression of c-met and Nox were quantified in 60 patients with primary cutaneous melanoma. In vitro experiments on melanoma primary cells and the cell line were performed to dissect the underpinned molecular mechanism. Results: The outcome of interest was the correlation between the high positivity for both Nox4 and c-met and metastasis occurring at least 1 year later than melanoma diagnosis in BRAF mutated patients, in contrast to nonmutated. In vitro experiments demonstrated that the axis HGF/c-met/Nox4/ROS triggers the epithelial-mesenchymal transition. Conclusions: The observed correlation suggests an interplay between c-met and Nox4 in promoting the onset of metastasis. This study suggests that Nox4 inhibitors could be associated to the current therapy used to treat melanoma patients with BRAF mutations. [ABSTRACT FROM AUTHOR]

Published

2021

17. Study Findings on Melanoma Discussed by Researchers at French National Institute of Health and Medical Research (INSERM) (TERT Expression Induces Resistance to BRAF and MEK Inhibitors in BRAF-Mutated Melanoma In Vitro).

Subjects

MEDICAL research, BRAF genes, MELANOMA, MICROPHTHALMIA-associated transcription factor, NEWSPAPER editors

Abstract

Keywords: Cancer; Drugs and Therapies; Genetics; Health and Medicine; Melanoma; Oncology; Pharmaceuticals EN Cancer Drugs and Therapies Genetics Health and Medicine Melanoma Oncology Pharmaceuticals 2167 2167 1 06/26/23 20230627 NES 230627 2023 JUN 30 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Data detailed on melanoma have been presented. Cancer, Drugs and Therapies, Genetics, Health and Medicine, Melanoma, Oncology, Pharmaceuticals. [Extracted from the article]

Published

2023

18. Researchers' Work from University of Verona Focuses on Melanoma (Hyperforin Enhances Heme Oxygenase-1 Expression Triggering Lipid Peroxidation in BRAF-Mutated Melanoma Cells and Hampers the Expression of Pro-Metastatic Markers).

Subjects

GENE expression, HEME, LIPIDS, PEROXIDATION, BRAF genes, MELANOMA, LIPID peroxidation (Biology), IPILIMUMAB, MICROPHTHALMIA-associated transcription factor

Abstract

Our recent study revealed a potent antimelanoma effect of HPF, which hinders melanoma cell proliferation, motility, colony formation, and induces apoptosis. Keywords: Biological Factors; Biomarkers; Cancer; Diagnostics and Screening; Drugs and Therapies; Enzymes and Coenzymes; Genetics; Health and Medicine; Heme; Heme Oxygenase (Decyclizing); Heme Oxygenase-1; Melanoma; Metalloporphyrins; Oncology; Oxidoreductases; Oxygenases EN Biological Factors Biomarkers Cancer Diagnostics and Screening Drugs and Therapies Enzymes and Coenzymes Genetics Health and Medicine Heme Heme Oxygenase (Decyclizing) Heme Oxygenase-1 Melanoma Metalloporphyrins Oncology Oxidoreductases Oxygenases 2412 2412 1 08/14/23 20230818 NES 230818 2023 AUG 18 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Investigators publish new report on melanoma. [Extracted from the article]

Published

2023

19. Systemic network analysis identifies XIAP and IκBα as potential drug targets in TRAIL resistant BRAF mutated melanoma.

Author

Del Mistro, Greta, Lucarelli, Philippe, Müller, Ines, De Landtsheer, Sébastien, Zinoveva, Anna, Hutt, Meike, Siegemund, Martin, Kontermann, Roland E., Beissert, Stefan, Sauter, Thomas, and Kulms, Dagmar

Subjects

*MELANOMA, *DRUG target, *BRAF genes, *KINASE inhibitors, *APOPTOSIS, *CANCER cells

Abstract

Metastatic melanoma remains a life-threatening disease because most tumors develop resistance to targeted kinase inhibitors thereby regaining tumorigenic capacity. We show the 2nd generation hexavalent TRAIL receptor-targeted agonist IZI1551 to induce pronounced apoptotic cell death in mutBRAF melanoma cells. Aiming to identify molecular changes that may confer IZI1551 resistance we combined Dynamic Bayesian Network modelling with a sophisticated regularization strategy resulting in sparse and context-sensitive networks and show the performance of this strategy in the detection of cell line-specific deregulations of a signalling network. Comparing IZI1551-sensitive to IZI1551-resistant melanoma cells the model accurately and correctly predicted activation of NFκB in concert with upregulation of the anti-apoptotic protein XIAP as the key mediator of IZI1551 resistance. Thus, the incorporation of multiple regularization functions in logical network optimization may provide a promising avenue to assess the effects of drug combinations and to identify responders to selected combination therapies. Systems Biology and Cancer: Network analysis for TRAIL resistance in Melanoma Even though targeted kinase inhibitors have been invented to mutation-specifically fight melanoma, most patients present with initial or acquired resistance and suffer from tumor relapse. A multidisciplinary team lead by Dagmar Kulms at the Technical University of Dresden, has developed a predictive Dynamic Bayesian Network model that is able to predict alternative targets for melanoma treatment. Comparing melanoma cells being sensitive or resistant to death receptor induced apoptosis by a second-generation TRAIL agonist the model predicted molecular signatures of pro-survival/anti-apoptotic responses in a dynamic manner. They show that TRAIL holds a great potential of success for targeted cancer therapy in the near future, and that the incorporation of multiple regularization functions in logical networks may provide a promising avenue to assess the effects of drug combinations for personalized medicine. [ABSTRACT FROM AUTHOR]

Published

2018

20. Oncogene Addiction and Overdose: Intermittent Treatment in Models of Drug-Resistant BRAF-Mutated Melanoma.

Author

Deuker, Marian M. and McMahon, Martin

Subjects

DRUG resistance in cancer cells, MELANOMA treatment, BRAF genes, METASTASIS, ENZYME inhibitors, PREVENTION

Abstract

The article discusses studies related to drug resistant melanoma. Topics include use of for protein coding gene BRAF mutated melanoma metastasis, efficiency and analysis of BRAF inhibitors vemurafenib and dabrafenib, and changes in selective pressures for drug-resistant and drug-sensitive cell populations. Diagram for Intermittent BRAF inhibitor therapy and chart for growth signals' self-sufficiency, surfeit and insufficiency are presented.

Published

2014

21. USP18 enhances the resistance of BRAF-mutated melanoma cells to vemurafenib by stabilizing cGAS expression to induce cell autophagy.

Author

Ma, Zhou-rui, Xiong, Qian-wei, Cai, Shi-zhong, Ding, Ling-tao, Yin, Chao-hong, Xia, Hong-liang, Liu, Wei, Dai, Shu, Zhang, Yue, Zhu, Zhen-hong, Huang, Zhi-jian, Wang, Qian, and Yan, Xiang-ming

Subjects

*VEMURAFENIB, *PEPTIDASE, *DEUBIQUITINATING enzymes, *AUTOPHAGY, *MELANOMA, *BRAF genes, *PROTEIN stability

Abstract

• cGAS was increased in vemurafenib-resistant patients with BRAF V600E mutant melanoma. • Knockdown of cGAS inhibited the resistance to vemurafenib in A2058R cells. • USP18 could deubiquitinate cGAS to promote its protein stability. • USP18 promoted vemurafenib-induced protective autophagy by stabilizing cGAS protein. • Our study highlighted the significance of USP18 in BRAF V600E mutant melanoma. This study aims to discern the possible molecular mechanism of the effect of ubiquitin-specific peptidase 18 (USP18) on the resistance to BRAF inhibitor vemurafenib in BRAF V600E mutant melanoma by regulating cyclic GMP-AMP synthase (cGAS). The cancer tissues of BRAF V600E mutant melanoma patients before and after vemurafenib treatment were collected, in which the protein expression of USP18 and cGAS was determined. A BRAF V600E mutant human melanoma cell line (A2058R) resistant to vemurafenib was constructed with its viability, apoptosis, and autophagy detected following overexpression and depletion assays of USP18 and cGAS. Xenografted tumors were transplanted into nude mice for in vivo validation. Bioinformatics analysis showed that the expression of cGAS was positively correlated with USP18 in melanoma, and USP18 was highly expressed in melanoma. The expression of cGAS and USP18 was up-regulated in cancer tissues of vemurafenib-resistant patients with BRAF V600E mutant melanoma. Knockdown of cGAS inhibited the resistance to vemurafenib in A2058R cells and the protective autophagy induced by vemurafenib in vitro. USP18 could deubiquitinate cGAS to promote its protein stability. In vivo experimentations confirmed that USP18 promoted vemurafenib-induced protective autophagy by stabilizing cGAS protein, which promoted resistance to vemurafenib in BRAF V600E mutant melanoma cells. Collectively, USP18 stabilizes cGAS protein expression through deubiquitination and induces autophagy of melanoma cells, thereby promoting the resistance to vemurafenib in BRAF V600E mutant melanoma. [ABSTRACT FROM AUTHOR]

Published

2023

22. Adjuvant Dabrafenib plus Trametinib in Stage III BRAF-Mutated Melanoma.

Author

Long, G. V., Haydon, A., Robert, C., Mortier, L., Schachter, J., Schadendorf, D., Lesimple, T., Plummer, R., Ji, R., Zhang, P., Mookerjee, B., Legos, J., Kefford, R., Dummer, R., Hauschild, A., Kirkwood, J. M., Santinami, M., Atkinson, V., Mandalà, M., and Chiarion-Sileni, V.

Subjects

*ADJUVANT treatment of cancer, *BRAF genes, *MELANOMA diagnosis, *MELANOMA, *MELANOMA immunotherapy, *GENE therapy, *AMINES, *ANTINEOPLASTIC agents, *IMMUNOMODULATORS, *CANCER relapse, *COMPARATIVE studies, *HETEROCYCLIC compounds, *RESEARCH methodology, *IMIDAZOLES, *MEDICAL cooperation, *GENETIC mutation, *PYRIDINE, *RESEARCH, *STATISTICAL sampling, *SKIN tumors, *SURVIVAL analysis (Biometry), *TRANSFERASES, *TUMOR classification, *EVALUATION research, *RANDOMIZED controlled trials, *BLIND experiment, *THERAPEUTICS

Abstract

Background: Combination therapy with the BRAF inhibitor dabrafenib plus the MEK inhibitor trametinib improved survival in patients with advanced melanoma with BRAF V600 mutations. We sought to determine whether adjuvant dabrafenib plus trametinib would improve outcomes in patients with resected, stage III melanoma with BRAF V600 mutations.Methods: In this double-blind, placebo-controlled, phase 3 trial, we randomly assigned 870 patients with completely resected, stage III melanoma with BRAF V600E or V600K mutations to receive oral dabrafenib at a dose of 150 mg twice daily plus trametinib at a dose of 2 mg once daily (combination therapy, 438 patients) or two matched placebo tablets (432 patients) for 12 months. The primary end point was relapse-free survival. Secondary end points included overall survival, distant metastasis-free survival, freedom from relapse, and safety.Results: At a median follow-up of 2.8 years, the estimated 3-year rate of relapse-free survival was 58% in the combination-therapy group and 39% in the placebo group (hazard ratio for relapse or death, 0.47; 95% confidence interval [CI], 0.39 to 0.58; P<0.001). The 3-year overall survival rate was 86% in the combination-therapy group and 77% in the placebo group (hazard ratio for death, 0.57; 95% CI, 0.42 to 0.79; P=0.0006), but this level of improvement did not cross the prespecified interim analysis boundary of P=0.000019. Rates of distant metastasis-free survival and freedom from relapse were also higher in the combination-therapy group than in the placebo group. The safety profile of dabrafenib plus trametinib was consistent with that observed with the combination in patients with metastatic melanoma.Conclusions: Adjuvant use of combination therapy with dabrafenib plus trametinib resulted in a significantly lower risk of recurrence in patients with stage III melanoma with BRAF V600E or V600K mutations than the adjuvant use of placebo and was not associated with new toxic effects. (Funded by GlaxoSmithKline and Novartis; COMBI-AD ClinicalTrials.gov, NCT01682083 ; EudraCT number, 2012-001266-15 .). [ABSTRACT FROM AUTHOR]

Published

2017

23. Clinical features of serous retinopathy observed with cobimetinib in patients with BRAF-mutated melanoma treated in the randomized coBRIM study.

Author

de la Cruz-Merino, Luis, Di Guardo, Lorenza, Grob, Jean-Jacques, Venosa, Alfredo, Larkin, James, McArthur, Grant A., Ribas, Antoni, Ascierto, Paolo A., Evans, Jeffrey T. R., Gomez-Escobar, Antonio, Barteselli, Giulio, Eng, Susan, Hsu, Jessie J., Uyei, Anne, and Dréno, Brigitte

Subjects

*MELANOMA treatment, *BRAF genes, *METHYL ethyl ketone, *ADVERSE health care events, *OCULAR manifestations of general diseases, *INDOLE compounds, *SULFONAMIDES, *COMPARATIVE studies, *HETEROCYCLIC compounds, *RESEARCH methodology, *MEDICAL cooperation, *MELANOMA, *GENETIC mutation, *PIPERIDINE, *RESEARCH, *RESEARCH funding, *RETINAL diseases, *SKIN tumors, *TIME, *TRANSFERASES, *DISEASE relapse, *EVALUATION research, *RANDOMIZED controlled trials, *THERAPEUTICS

Abstract

Background: Serous chorioretinopathy has been associated with MEK inhibitors, including cobimetinib. We describe the clinical features of serous retinopathy observed with cobimetinib in patients with BRAF V600-mutated melanoma treated in the Phase III coBRIM study.Methods: In the coBRIM study, 493 patients were treated in two randomly assigned treatment groups: cobimetinib and vemurafenib (n = 247) or vemurafenib (n = 246). All patients underwent prospective ophthalmic examinations at screening, at regular intervals during the study, and whenever ocular symptoms developed. Patients with serous retinopathy were identified in the study database using a group of relevant and synonymous adverse event terms.Results: Eighty-six serous retinopathy events were reported in 70 patients (79 events in 63 cobimetinib and vemurafenib-treated patients vs seven events in seven vemurafenib-treated patients). Most patients with serous retinopathy identified by ophthalmic examination had no symptoms or had mild symptoms, among them reduced visual acuity, blurred vision, dyschromatopsia, and photophobia. Serous retinopathy usually occurred early during cobimetinib and vemurafenib treatment; median time to onset was 1.0 month. Most events were managed by observation and continuation of cobimetinib without dose modification and resolved or were resolving by the data cutoff date (19 Sept 2014).Conclusions: Cobimetinib treatment was associated with serous retinopathy in patients with BRAF V600-mutated melanoma. Retinopathy was generally asymptomatic or mild. Periodic ophthalmologic evaluations at regular intervals and at the manifestation of any visual disturbance are recommended to facilitate early detection and resolution of serous retinopathy while patients are taking cobimetinib. Trial Registration Clinicaltrials.gov (NCT01689519). First received: September 18, 2012. [ABSTRACT FROM AUTHOR]

Published

2017

24. Combination with γ-secretase inhibitor prolongs treatment efficacy of BRAF inhibitor in BRAF-mutated melanoma cells.

Author

Zhu, Guannan, Yi, Xiuli, Haferkamp, Sebastian, Hesbacher, Sonja, Li, Chunying, Goebeler, Matthias, Gao, Tianwen, Houben, Roland, and Schrama, David

Subjects

*MELANOMA treatment, *SECRETASE inhibitors, *BRAF genes, *GENETIC mutation, *MITOGEN-activated protein kinases, *TREATMENT effectiveness, *PROTEIN metabolism, *ANTINEOPLASTIC agents, *CELL cycle, *CELL lines, *CELL physiology, *CELL receptors, *CELLULAR aging, *COMPARATIVE studies, *DRUG resistance in cancer cells, *EPITHELIAL cells, *GENETIC techniques, *RESEARCH methodology, *MEDICAL cooperation, *MELANOMA, *PHOSPHORYLATION, *PROTEOLYTIC enzymes, *RESEARCH, *SKIN tumors, *TIME, *TRANSFERASES, *PROTEASE inhibitors, *EVALUATION research, *PROTEIN kinase inhibitors, *CHEMICAL inhibitors, *PHARMACODYNAMICS

Abstract

Oncogenic triggering of the MAPK pathway in melanocytes results in senescence, and senescence escape is considered as one critical step for melanocytic transformation. In melanoma, induction of a senescent-like state by BRAF-inhibitors (BRAFi) in a fraction of treated cells - instead of killing - contributes to the repression of tumor growth, but may also provide a source for relapse. Here, we demonstrate that NOTCH activation in melanocytes is not only growth-promoting but it also protects these cells against oncogene-induced senescence. In turn, treatment of melanoma cells with an inhibitor of the NOTCH-activating enzyme γ-secretase led to induction of a senescent-like status in a fraction of the cells but overall achieved only a moderate inhibition of melanoma cell growth. However, combination of γ-secretase inhibitor (GSI) with BRAFi markedly increased the treatment efficacy particularly in long-term culture. Moreover, even melanoma cells starting to regrow after continuous BRAFi treatment - the major problem of BRAFi therapy in patients - can still be affected by the combination treatment. Thus, combining GSI with BRAFi increases the therapeutic efficacy by, at least partially, prolonging the senescent-like state of treated cells. [ABSTRACT FROM AUTHOR]

Published

2016

25. Reactive Oxygen Species Regulation of Chemoresistance and Metastatic Capacity of Melanoma: Role of the Cancer Stem Cell Marker CD271.

Author

Beretti, Francesca, Gatti, Martina, Zavatti, Manuela, Bassoli, Sara, Pellacani, Giovanni, and Maraldi, Tullia

Subjects

BRAF genes, CANCER stem cells, REACTIVE oxygen species, DRUG resistance in cancer cells, NADPH oxidase, MELANOMA, EPITHELIAL-mesenchymal transition

Abstract

BRAF mutations are present in 30–50% of cases of cutaneous melanoma, and treatment with selective BRAF and MEK inhibitors has been introduced. However, the development of resistance to these drugs often occurs. Chemo-resistant melanoma cells show increased expression of CD271, a stem cell marker that features increased migration. Concordantly, resistance to the selective inhibitor of oncogenic BRAFV600E/K, vemurafenib, is mediated by the increased expression of CD271. It has recently been shown that the BRAF pathway leads to an overexpression of the NADPH oxidase Nox4, which produces reactive oxygen species (ROS). Here, we examined in vitro how Nox-derived ROS in BRAF-mutated melanoma cells regulates their drug sensitivity and metastatic potential. We demonstrated that DPI, a Nox inhibitor, reduced the resistance of a melanoma cell line (SK-MEL-28) and a primary culture derived from a BRAFV600E-mutated biopsy to vemurafenib. DPI treatment affected the expression of CD271 and the ERK and Akt signaling pathways, leading to a drop in epithelial–mesenchymal transition (EMT), which undoubtedly promotes an invasive phenotype in melanoma. More importantly, the scratch test demonstrated the efficacy of the Nox inhibitor (DPI) in blocking migration, supporting its use to counteract drug resistance and thus cell invasion and metastasis in BRAF-mutated melanoma. [ABSTRACT FROM AUTHOR]

Published

2023

26. Enhanced Apoptosis and Loss of Cell Viability in Melanoma Cells by Combined Inhibition of ERK and Mcl-1 Is Related to Loss of Mitochondrial Membrane Potential, Caspase Activation and Upregulation of Proapoptotic Bcl-2 Proteins.

Author

Peng, Zhe, Gillissen, Bernhard, Richter, Antje, Sinnberg, Tobias, Schlaak, Max S., and Eberle, Jürgen

Subjects

BCL-2 proteins, MEMBRANE potential, MITOCHONDRIAL membranes, CELL survival, CYTOCHROME c, CASPASES, BRAF genes, ADP-ribosylation, MITOGEN-activated protein kinases

Abstract

Targeting of MAP kinase pathways by BRAF inhibitors has evolved as a key therapy for BRAF-mutated melanoma. However, it cannot be applied for BRAF-WT melanoma, and also, in BRAF-mutated melanoma, tumor relapse often follows after an initial phase of tumor regression. Inhibition of MAP kinase pathways downstream at ERK1/2, or inhibitors of antiapoptotic Bcl-2 proteins, such as Mcl-1, may serve as alternative strategies. As shown here, the BRAF inhibitor vemurafenib and the ERK inhibitor SCH772984 showed only limited efficacy in melanoma cell lines, when applied alone. However, in combination with the Mcl-1 inhibitor S63845, the effects of vemurafenib were strongly enhanced in BRAF-mutated cell lines, and the effects of SCH772984 were enhanced in both BRAF-mutated and BRAF-WT cells. This resulted in up to 90% loss of cell viability and cell proliferation, as well as in induction of apoptosis in up to 60% of cells. The combination of SCH772984/S63845 resulted in caspase activation, processing of poly (ADP-ribose) polymerase (PARP), phosphorylation of histone H2AX, loss of mitochondrial membrane potential, and cytochrome c release. Proving the critical role of caspases, a pan-caspase inhibitor suppressed apoptosis induction, as well as loss of cell viability. As concerning Bcl-2 family proteins, SCH772984 enhanced expression of the proapoptotic Bim and Puma, as well as decreased phosphorylation of Bad. The combination finally resulted in downregulation of antiapoptotic Bcl-2 and enhanced expression of the proapoptotic Noxa. In conclusion, combined inhibition of ERK and Mcl-1 revealed an impressive efficacy both in BRAF-mutated and WT melanoma cells, and may thus represent a new strategy for overcoming drug resistance. [ABSTRACT FROM AUTHOR]

Published

2023

27. Dataset: Impact of β-Galactosylceramidase Overexpression on the Protein Profile of Braf(V600E) Mutated Melanoma Cells.

Author

Capoferri, Davide, Chiodelli, Paola, Calza, Stefano, Manfredi, Marcello, and Presta, Marco

Subjects

PROTEIN overexpression, RNA metabolism, LIQUID chromatography-mass spectrometry, BRAF genes, MELANOMA

Abstract

β-Galactosylceramidase (GALC) is a lysosomal enzyme involved in sphingolipid metabolism by removing β-galactosyl moieties from β-galactosyl ceramide and β-galactosyl sphingosine. Previous observations have shown that GALC exerts a pro-oncogenic activity in human melanoma. Here, the impact of GALC overexpression on the proteomic landscape of BRAF-mutated A2058 and A375 human melanoma cell lines was investigated by liquid chromatography–tandem mass spectrometry analysis of the cell extracts. The results indicate that GALC overexpression causes the upregulation/downregulation of 172/99 proteins in GALC-transduced cells when compared to control cells. Gene ontology categorization of up/down-regulated proteins indicates that GALC may modulate the protein landscape in BRAF-mutated melanoma cells by affecting various biological processes, including RNA metabolism, cell organelle fate, and intracellular redox status. Overall, these data provide further insights into the pro-oncogenic functions of the sphingolipid metabolizing enzyme GALC in human melanoma. Dataset: The data set has been submitted as a supplement to this paper. Dataset License: license under which the dataset is made available (CC0, CC-BY, CC-BY-SA, CC-BY-NC, etc.) [ABSTRACT FROM AUTHOR]

Published

2023

28. Case Report: Rechallenge With BRAF and MEK Inhibitors in Metastatic Melanoma: A Further Therapeutic Option in Salvage Setting?

Author

Stagno, Anna, Vari, Sabrina, Annovazzi, Alessio, Anelli, Vincenzo, Russillo, Michelangelo, Cognetti, Francesco, and Ferraresi, Virginia

Subjects

MELANOMA, BRAF genes, IMMUNE checkpoint inhibitors, LACTATE dehydrogenase, METASTASIS, THERAPEUTICS

Abstract

Background: The combination of BRAF and MEK inhibitors represents the standard of care treatment for patients with metastatic BRAF -mutated melanoma, notwithstanding the high frequency of emergent resistance. Moreover, therapeutic options outside clinical trials are scarce when patients have progressed after both targeted therapy and therapy with immune checkpoint inhibitors. In this article, we report our experience with targeted therapy rechallenging with BRAF and MEK inhibitors in patients with metastatic BRAF -mutated melanoma after progression with kinase inhibitors and immunotherapy. Methods: Four patients with metastatic BRAF -mutated melanoma were rechallenged with BRAF and MEK inhibitors after progression with targeted therapy and subsequent immunotherapy (checkpoint inhibitors). Results: Two patients (one of them was heavily pretreated) had partial response over 36 months (with local treatment on oligoprogression disease) and 10 months, respectively. A third patient with multisite visceral disease and high serum levels of lactate dehydrogenase had a short-lived clinical benefit rapidly followed by massive progression of disease (early progressor). The fourth patient, currently on treatment with BRAF/MEK inhibitors, is showing a clinical benefit and radiological stable disease over 3 months of therapy. Adverse events were manageable, similar to those reported during the first targeted therapy; the treatment was better tolerated at rechallenge compared with the first treatment by two out of four patients. [ABSTRACT FROM AUTHOR]

Published

2021

29. PLA1A expression as a diagnostic marker of BRAF-mutant metastasis in melanoma cancer.

Author

Yang, Gang, Liu, Shuya, Maghsoudloo, Mazaher, Shasaltaneh, Marzieh Dehghan, Kaboli, Parham Jabbarzadeh, Zhang, Cuiwei, Deng, Youcai, Heidari, Hajar, Entezari, Maliheh, Fu, ShaoZhi, Wen, QingLian, and Imani, Saber

Subjects

MELANOMA treatment, GENETIC mutation, PHOSPHATIDYLSERINES, HISTOPATHOLOGY, PROTEIN expression, BRAF genes

Abstract

BRAF and NRAS are the most reported mutations associated to melanomagenesis. The lack of accurate diagnostic markers in response to therapeutic treatment in BRAF/NRAS-driven melanomagenesis is one of the main challenges in melanoma personalized therapy. In order to assess the diagnostic value of phosphatidylserine-specific phospholipase A1-alpha (PLA1A), a potent lysophospholipid mediating the production of lysophosphatidylserine, PLA1A mRNA and serum levels were compared in subjects with malignant melanoma (n = 18), primary melanoma (n = 13), and healthy subjects (n = 10). Additionally, the correlation between histopathological subtypes of BRAF/NRAS-mutated melanoma and PLA1A was analyzed. PLA1A expression was significantly increased during melanogenesis and positively correlated to disease severity and histopathological markers of metastatic melanoma. PLA1A mRNA and serum levels were significantly higher in patients with BRAF-mutated melanoma compared to the patients with NRAS-mutated melanoma. Notably, PLA1A can be used as a diagnostic marker for an efficient discrimination between naïve melanoma samples and advanced melanoma samples (sensitivity 91%, specificity 57%, and AUC 0.99), as well as BRAF-mutated melanoma samples (sensitivity 62%, specificity 61%, and AUC 0.75). Our findings suggest that PLA1A can be considered as a potential diagnostic marker for advanced and BRAF-mutated melanoma. [ABSTRACT FROM AUTHOR]

Published

2021

30. A preclinical model of cutaneous melanoma based on reconstructed human epidermis.

Author

Leikeim, Anna, Wußmann, Maximiliane, Schmidt, Freia F., Neto, Nuno G. B., Benz, Franziska, Tiltmann, Kendra, Junger, Corinna, Monaghan, Michael G., Schilling, Bastian, and Groeber-Becker, Florian K.

Subjects

BRAF genes, CELL aggregation, ANIMAL models in research

Abstract

Malignant melanoma is among the tumor entities with the highest increase of incidence worldwide. To elucidate melanoma progression and develop new effective therapies, rodent models are commonly used. While these do not adequately reflect human physiology, two-dimensional cell cultures lack crucial elements of the tumor microenvironment. To address this shortcoming, we have developed a melanoma skin equivalent based on an open-source epidermal model. Melanoma cell lines with different driver mutations were incorporated into these models forming distinguishable tumor aggregates within a stratified epidermis. Although barrier properties of the skin equivalents were not affected by incorporation of melanoma cells, their presence resulted in a higher metabolic activity indicated by an increased glucose consumption. Furthermore, we re-isolated single cells from the models to characterize the proliferation state within the respective model. The applicability of our model for tumor therapeutics was demonstrated by treatment with a commonly used v-raf murine sarcoma viral oncogene homolog B (BRAF) inhibitor vemurafenib. This selective BRAF inhibitor successfully reduced tumor growth in the models harboring BRAF-mutated melanoma cells. Hence, our model is a promising tool to investigate melanoma development and as a preclinical model for drug discovery. [ABSTRACT FROM AUTHOR]

Published

2022

31. Impact of Previous Local Treatment for Brain Metastases on Response to Molecular Targeted Therapy in BRAF-Mutant Melanoma Brain Metastasis: A Systematic Review and Meta-Analysis.

Author

Liao, Guixiang, Fu, Yuxiang, Arooj, Sumbal, Khan, Muhammad, Li, Xianming, Yan, Maosheng, Li, Zihuang, Yang, Hongli, Zheng, Tao, and Xu, Ruilian

Subjects

BRAIN metastasis, OVERALL survival, PROGRESSION-free survival, SURVIVAL rate, BRAF genes

Abstract

Background: Melanoma brain metastases (BMs) are associated with poor prognosis and are the main cause of mortality in melanoma patients. BRAF inhibitors have shown intracranial activity in both treatment-naïve and previously treated BM patients. We aimed to investigate if there was any difference in response of BRAF inhibitors in these two cohorts. Materials and Methods: Electronic database search included PubMed, Medline, and Cochrane library until March 2021 for studies with desired comparative outcomes. Outcomes of interest that were obtained for meta-analysis included intracranial response rate as the primary outcome and survival and safety outcomes as the secondary outcomes. Review Manager version 5.4 was used for data analysis. Results: Three studies comprising 410 BRAF-mutated melanoma patients with BMs were included according to eligibility criteria. The comparative cohort included patients with treatment-naïve BMs (TN cohort; n = 255) and those who had progressive disease after receiving local brain treatment for BMs (PT cohort; n = 155). Meta-analysis revealed that BRAF inhibitors (vemurafenib and dabrafenib) and BRAF/MEK inhibitor combination (dabrafenib and trametinib) induced significantly higher intracranial disease control (OR 0.58 [95% CI: 0.34, 0.97], p = 0.04) and a trend toward improved progression-free survival (PFS) (HR 1.22 [95% CI: 0.98, 1.52], p = 0.08) in the PT cohort as compared to the TN cohort. Overall survival was not significantly different between the cohorts (HR 1.16 [95% CI: 0.89, 1.51], p = 0.28). Subgroup analysis revealed that PFS was significantly improved (HR 1.67 [95% CI: 1.06, 2.62], p = 0.03), and a trend toward improved OS (HR 1.62 [95% CI: 0.95, 2.75], p = 0.08) was achieved in patients receiving BRAF/MEK inhibitor combination and patients with BRAFv600K mutation receiving dabrafenib alone. No increase in overall adverse events (AEs), grade 3/4 AEs, and severe adverse events (SAEs) was observed between the cohorts. Conclusions: BRAF inhibitors (plus MEK inhibitor) may achieve better intracranial disease stability in BRAF-mutant melanoma patients who have received previous local treatment for BMs. Systematic Review Registration: https://www.crd.york.ac.uk/prospero/), identifier CRD42020185984. [ABSTRACT FROM AUTHOR]

Published

2022

32. Adjuvant treatment of high-risk melanoma – cost-effectiveness analysis of treatment options for BRAF 600 mutated tumors.

Author

Wahler, Steffen, Müller, Alfred, Fuchs, Sabine, and von der Schulenburg, Johann-Matthias

Subjects

BRAF genes, COST effectiveness, MELANOMA, DIRECT costing, SURVIVAL analysis (Biometry)

Abstract

Introduction: Until recently, adjuvant treatment options for higher stage resectable cutaneous melanoma were limited. Two studies with a similar set-up, published 2017, led to registration of targeted therapy for BRAF-mutated melanoma with dabrafenib and trametinib as well as of the immunotherapy with nivolumab irrespective of BRAF-mutation status. Both options have been positively assessed in Germany since 2019 for the adjuvant treatment of BRAF-V600 mutated melanoma. This study evaluates the cost-effectiveness of both treatment alternatives (dabrafenib/trametinib and nivolumab) against observation as a comparative therapy from the perspective of German statutory health funds. Methods: Partitioned survival analysis based on published survival curves for the investigated treatment options was used for a cohort model for the health states relapse free survival, progression, and death. The partitioned survival analysis approach was based on the survival curves published for the key studies Combi AD and Checkmate-238. The modelling was performed for the remaining lifetime for a cohort with starting age of 50 years. For extrapolation of the survival curves, convergence to general population mortality rates was assumed in the long term. Within the progression state, a Markov model uses three levels of progressions (locoregional, distant metastases with 1st and 2nd line treatment). Lifetime treatment costs were calculated using the German statutory health fund reimbursement scheme. Quality adjusted life years (QALYs) associated to the health states were adopted from previously published utilities based on the Combi AD study. Results: The treatment with dabrafenib/trametinib yielded an increase in quality adjusted life years of 2.28 QALY at an incremental lifetime cost of 86.1 T€. The incremental cost effectiveness ratio of dabrafenib/trametinib and nivolumab was comparable with 37.8 T€/QALY and 30.0 T€/QALY, respectively. Several sensitivity analyses proved the result to be insensitive. General model parameters like discount rate and length of the time horizon had stronger influence. For nivolumab, the model showed lower discounted lifetime costs (118.1 T€) compared to dabrafenib/trametinib [155.1 T€], associated with a lower gain in QALYs (1.64 years) compared to observation. Conclusion: Both dabrafenib/trametinib and nivolumab turned out to be cost effective within internationally accepted Incremental Cost Effectiveness Ratio (ICER) thresholds with comparable cost effectiveness ratios. [ABSTRACT FROM AUTHOR]

Published

2022

33. Cell-SELEX-based selection of ssDNA aptamers for specifically targeting BRAF V600E-mutated melanoma.

Author

Li, Wanming, Bing, Tao, Wang, Rui, Jin, Sihan, Shangguan, Dihua, and Chen, Hang

Subjects

APTAMERS, BRAF genes, MEMBRANE proteins, SINGLE-stranded DNA, MELANOMA, MOLECULAR probes, SKIN cancer

Abstract

Malignant melanoma is regarded as the most aggressive form of skin cancer, and is responsible for most death caused by skin cancer. BRAF mutations occur in approximately 40–50% of melanomas, with V600E being the most common mutation. Testing for BRAF mutations and targeted therapy have markedly improved long-term survival for patients with BRAF-mutated melanoma. Here, we report two aptamers, CH1 and CH5 generated by Cell-SELEX, against BRAF V600E-mutated human melanoma cells A375. The two aptamers exhibited high affinity to target cells with low dissociation constants (Kd) in the nanomolar range. Furthermore, the binding of two aptamers to target cells was independent of incubation temperature, and their molecular targets were demonstrated to be membrane proteins on the cell surface. We also demonstrated that aptamer CH1 was able to bind to metastatic colorectal cancer cells harboring BRAF V600E mutation, indicating a relationship between aptamer CH1 and BRAF V600E-related metastatic cancer. Owing to the structure stability and high selectivity to BRAF V600E-mutated targeting cells, aptamer CH1 holds great potential as a molecular probe for the detection of BRAF V600E-mutated metastatic melanoma. [ABSTRACT FROM AUTHOR]

Published

2022

34. PD-L1 blockade in combination with inhibition of MAPK oncogenic signaling in patients with advanced melanoma.

Author

Ribas, Antoni, Algazi, Alain, Ascierto, Paolo A., Butler, Marcus O., Chandra, Sunandana, Gordon, Michael, Hernandez-Aya, Leonel, Lawrence, Donald, Lutzky, Jose, Miller, Wilson H., Campbell, Katie M., Delafont, Bruno, Marshall, Shannon, Mueller, Nancy, and Robert, Caroline

Subjects

BRAF genes, PROGRAMMED cell death 1 receptors, MITOGEN-activated protein kinases, PROGRAMMED death-ligand 1, IMMUNE checkpoint inhibitors, ONCOGENIC proteins, MELANOMA, NOMOGRAPHY (Mathematics)

Abstract

Combining PD-L1 blockade with inhibition of oncogenic mitogen-activated protein kinase (MAPK) signaling may result in long-lasting responses in patients with advanced melanoma. This phase 1, open-label, dose-escalation and -expansion study (NCT02027961) investigated safety, tolerability and preliminary efficacy of durvalumab (anti–PD-L1) combined with dabrafenib (BRAF inhibitor) and trametinib (MEK inhibitor) for patients with BRAF-mutated melanoma (cohort A, n = 26), or durvalumab and trametinib given concomitantly (cohort B, n = 20) or sequentially (cohort C, n = 22) for patients with BRAF-wild type melanoma. Adverse events and treatment discontinuation rates were more common than previously reported for these agents given as monotherapy. Objective responses were observed in 69.2% (cohort A), 20.0% (cohort B) and 31.8% (cohort C) of patients, with evidence of improved tumor immune infiltration and durable responses in a subset of patients with available biopsy samples. In conclusion, combined MAPK inhibition and anti–PD-L1 therapy may provide treatment options for patients with advanced melanoma. Immune checkpoints inhibitors or MAPK inhibitors are currently used as standard of care therapies for patients with advanced melanoma. Here the authors report a phase 1 clinical trial testing the anti-PD-L1 antibody durvalumab in combination with the BRAF inhibitor dafrafenib and the MEK inhibitor trametinib in patients with BRAFV600-mutant melanoma. [ABSTRACT FROM AUTHOR]

Published

2020

35. Advancements and Challenges in Personalized Therapy for BRAF -Mutant Melanoma: A Comprehensive Review.

Author

Shebrain, Abdulaziz, Idris, Omer A., Jawad, Ali, Zhang, Tiantian, and Xing, Yan

Subjects

GENETIC profile, CHIMERIC antigen receptors, TUMOR-infiltrating immune cells, TUMOR microenvironment, BRAF genes

Abstract

Over the past several decades, advancements in the treatment of BRAF-mutant melanoma have led to the development of BRAF inhibitors, BRAF/MEK inhibitor combinations, anti-PD-1 therapy, and anti-CTLA4 therapy. Although these therapies have shown substantial efficacy in clinical trials, their sustained effectiveness is often challenged by the tumor microenvironment, which is a highly heterogeneous and complex milieu of immunosuppressive cells that affect tumor progression. The era of personalized medicine holds substantial promise for the tailoring of treatments to individual genetic profiles. However, tumor heterogeneity and immune evasion mechanisms contribute to the resistance to immunotherapy. Despite these challenges, tumor-infiltrating lymphocyte (TIL) therapy, as exemplified by lifileucel, has demonstrated notable efficacy against BRAF V600-mutant melanoma. Additionally, early response biomarkers, such as COX-2 and MMP2, along with FDG-PET imaging, offer the potential to improve personalized immunotherapy by predicting patient responses and determining the optimal treatment duration. Future efforts should focus on reducing the T-cell harvesting periods and costs associated with TIL therapy to enhance efficiency and accessibility. [ABSTRACT FROM AUTHOR]

Published

2024

36. Lymphocyte T Subsets and Outcome of Immune Checkpoint Inhibitors in Melanoma Patients: An Oncologist's Perspective on Current Knowledge.

Author

Martínez-Vila, Clara, González-Navarro, Europa Azucena, Teixido, Cristina, Martin, Roberto, Aya, Francisco, Juan, Manel, and Arance, Ana

Subjects

LYMPHOCYTE subsets, PATIENTS' attitudes, IMMUNE checkpoint inhibitors, T cells, SKIN cancer, BRAF genes

Abstract

Melanoma is the most aggressive and deadly form of skin cancer, and its incidence has been steadily increasing over the past few decades, particularly in the Caucasian population. Immune checkpoint inhibitors (ICI), anti-PD-1 monotherapy or in combination with anti-CTLA-4, and more recently, anti-PD-1 plus anti-LAG-3 have changed the clinical evolution of this disease. However, a significant percentage of patients do not benefit from these therapies. Therefore, to improve patient selection, it is imperative to look for novel biomarkers. Immune subsets, particularly the quantification of lymphocyte T populations, could contribute to the identification of ICI responders. The main purpose of this review is to thoroughly examine significant published data on the potential role of lymphocyte T subset distribution in peripheral blood (PB) or intratumorally as prognostic and predictive of response biomarkers in advanced melanoma patients treated with ICI regardless of BRAFV600 mutational status. [ABSTRACT FROM AUTHOR]

Published

2024

37. Research Findings from University of Brescia Update Understanding of Melanoma [Dataset: Impact of b-Galactosylceramidase Overexpression on the Protein Profile of Braf(V600E) Mutated Melanoma Cells].

Subjects

PROTEIN overexpression, BRAF genes, MELANOMA, LIQUID chromatography-mass spectrometry

Abstract

A new report discusses research findings on melanoma from the University of Brescia in Italy. The research focuses on the enzyme b-Galactosylceramidase (GALC) and its role in sphingolipid metabolism in melanoma cells. The study found that GALC overexpression in BRAF-mutated melanoma cells affects the protein landscape and various biological processes, including RNA metabolism and cell organelle fate. These findings provide further insights into the pro-oncogenic functions of GALC in human melanoma. The research was supported by Associazione Italiana Per La Ricerca Sul Cancro and the Department of Excellence-dimet, Universita Del Piemonte Orientale. [Extracted from the article]

Published

2024

38. Analysis of Survival at Metastatic Melanoma Patients Treated with Vemurafenib - a Three Year Single Institution Study.

Author

Gojković, Zdenka, Đokanović, Dejan, Jakovljević, Branislava, Maksimović, Siniša, Jungić, Saša, Rakita, Ivanka, Vještica, Milka, Rašeta, Radmila, Vranješ, Živko, and Štrbac, Marina

Subjects

MELANOMA, METASTASIS, LACTATE dehydrogenase, BRAF genes, GENETIC mutation, STANDARD deviations, VEMURAFENIB

Abstract

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Published

2018

39. Characterization of two melanoma cell lines resistant to BRAF/MEK inhibitors (vemurafenib and cobimetinib).

Author

Kot, Magdalena, Simiczyjew, Aleksandra, Wądzyńska, Justyna, Ziętek, Marcin, Matkowski, Rafał, and Nowak, Dorota

Subjects

MITOGEN-activated protein kinases, CANCER stem cells, CELL cycle, EPITHELIAL-mesenchymal transition, DRUG metabolism, BRAF genes

Abstract

Background: BRAF (v-raf murine sarcoma viral oncogene homolog B1)/MEK (mitogen-activated protein kinase kinase) inhibitors are used for melanoma treatment. Unfortunately, patients treated with this combined therapy develop resistance to treatment quite quickly, but the mechanisms underlying this phenomenon are not yet fully understood. Here, we report and characterize two melanoma cell lines (WM9 and Hs294T) resistant to BRAF (vemurafenib) and MEK (cobimetinib) inhibitors. Methods: Cell viability was assessed via the XTT test. The level of selected proteins as well as activation of signaling pathways were evaluated using Western blotting. The expression of the chosen genes was assessed by RT-PCR. The distribution of cell cycle phases was analyzed by flow cytometry, and confocal microscopy was used to take photos of spheroids. The composition of cytokines secreted by cells was determined using a human cytokine array. Results: The resistant cells had increased survival and activation of ERK kinase in the presence of BRAF/MEK inhibitors. The IC50 values for these cells were over 1000 times higher than for controls. Resistant cells also exhibited elevated activation of AKT, p38, and JNK signaling pathways with increased expression of EGFR, ErbB2, MET, and PDGFRβ receptors as well as reduced expression of ErbB3 receptor. Furthermore, these cells demonstrated increased expression of genes encoding proteins involved in drug transport and metabolism. Resistant cells also exhibited features of epithelial-mesenchymal transition and cancer stem cells as well as reduced proliferation rate and elevated cytokine secretion. Conclusions: In summary, this work describes BRAF/MEK-inhibitor-resistant melanoma cells, allowing for better understanding the underlying mechanisms of resistance. The results may thus contribute to the development of new, more effective therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

40. Molecular Susceptibility and Treatment Challenges in Melanoma.

Author

Kolathur, Kiran Kumar, Nag, Radhakanta, Shenoy, Prathvi V, Malik, Yagya, Varanasi, Sai Manasa, Angom, Ramcharan Singh, and Mukhopadhyay, Debabrata

Subjects

IMMUNE checkpoint inhibitors, GENE expression profiling, ONLINE databases, MELANOMA, DRUG resistance, BRAF genes

Abstract

Melanoma is the most aggressive subtype of cancer, with a higher propensity to spread compared to most solid tumors. The application of OMICS approaches has revolutionized the field of melanoma research by providing comprehensive insights into the molecular alterations and biological processes underlying melanoma development and progression. This review aims to offer an overview of melanoma biology, covering its transition from primary to malignant melanoma, as well as the key genes and pathways involved in the initiation and progression of this disease. Utilizing online databases, we extensively explored the general expression profile of genes, identified the most frequently altered genes and gene mutations, and examined genetic alterations responsible for drug resistance. Additionally, we studied the mechanisms responsible for immune checkpoint inhibitor resistance in melanoma. [ABSTRACT FROM AUTHOR]

Published

2024

41. An Automated Real-Time PCR Assay versus Next-Generation Sequencing in the Detection of BRAF V600 Mutations in Melanoma Tissue Samples.

Author

Lenders, Daniela, Bonzheim, Irina, Hahn, Matthias, Gassenmaier, Maximilian, Aebischer, Valentin, Forschner, Andrea, Lenders, Max Matthias, Flatz, Lukas, and Forchhammer, Stephan

Subjects

NUCLEOTIDE sequencing, TURNAROUND time, BRAF genes, COHORT analysis, LONGITUDINAL method

Abstract

Background: Next-generation sequencing (NGS) is the most commonly used method for determining BRAF mutational status in patients with advanced melanoma. Automated PCR-based methods, such as the IdyllaTM system, are increasingly used for mutation diagnostics, but it is unclear what impact the choice of diagnostic method has on the management of melanoma. Objectives: To compare the concordance rate of BRAF V600 mutational analysis using IdyllaTM and NGS and to analyze the technical and clinical turnaround time. The clinical relevance is compared by analyzing the impact on the treatment decision. Methods: In this monocentric prospective cohort study, the BRAF mutation status of 51 patients was determined using both methods in parallel. Results: BRAF V600 mutation was detected in 23/51 cases (45%). IdyllaTM showed a 100% concordant result with a faster turnaround time (0.2 days) compared to NGS (12.2 days). In general, less tumor material was required for IdyllaTM than for NGS. Most patients received immunotherapy as a first-line therapy regardless of the BRAF V600 status. Conclusions: IdyllaTM testing proved to be a reliable and rapid alternative to NGS in the determination of BRAF V600 mutation. Although BRAF. status was available earlier, this had no influence on the treatment decision in most cases. [ABSTRACT FROM AUTHOR]

Published

2024

42. Proteogenomic insights into the biology and treatment of pan-melanoma.

Author

Xiang, Hang, Luo, Rongkui, Wang, Yunzhi, Yang, Bing, Xu, Sha, Huang, Wen, Tang, Shaoshuai, Fang, Rundong, Chen, Lingli, Zhu, Na, Yu, Zixiang, Akesu, Sujie, Wei, Chuanyuan, Xu, Chen, Zhou, Yuhong, Gu, Jianying, Zhao, Jianyuan, Hou, Yingyong, and Ding, Chen

Subjects

DNA repair, BIOLOGY, BRAF genes, SKIN cancer, MELANOMA, MULTIOMICS, MULTIVARIATE analysis, T cells

Abstract

Melanoma is one of the most prevalent skin cancers, with high metastatic rates and poor prognosis. Understanding its molecular pathogenesis is crucial for improving its diagnosis and treatment. Integrated analysis of multi-omics data from 207 treatment-naïve melanomas (primary-cutaneous-melanomas (CM, n = 28), primary-acral-melanomas (AM, n = 81), primary-mucosal-melanomas (MM, n = 28), metastatic-melanomas (n = 27), and nevi (n = 43)) provides insights into melanoma biology. Multivariate analysis reveals that PRKDC amplification is a prognostic molecule for melanomas. Further proteogenomic analysis combined with functional experiments reveals that the cis-effect of PRKDC amplification may lead to tumor proliferation through the activation of DNA repair and folate metabolism pathways. Proteome-based stratification of primary melanomas defines three prognosis-related subtypes, namely, the ECM subtype, angiogenesis subtype (with a high metastasis rate), and cell proliferation subtype, which provides an essential framework for the utilization of specific targeted therapies for particular melanoma subtypes. The immune classification identifies three immune subtypes. Further analysis combined with an independent anti-PD-1 treatment cohort reveals that upregulation of the MAPK7-NFKB signaling pathway may facilitate T-cell recruitment and increase the sensitivity of patients to immunotherapy. In contrast, PRKDC may reduce the sensitivity of melanoma patients to immunotherapy by promoting DNA repair in melanoma cells. These results emphasize the clinical value of multi-omics data and have the potential to improve the understanding of melanoma treatment. [ABSTRACT FROM AUTHOR]

Published

2024

43. Polyamine and EIF5A hypusination downstream of c-Myc confers targeted therapy resistance in BRAF mutant melanoma.

Author

Park, Byung-Sun, Jeon, Heeju, Kim, Yeonseo, Kwon, Haejin, Choi, Ga-Eun, Chi, Sung-Gil, Park, Hyun-Mee, Lee, Hyunbeom, and Kim, Tackhoon

Subjects

BRAF genes, PROGRESSION-free survival, LIQUID chromatography-mass spectrometry, BINDING site assay, MELANOMA, MITOCHONDRIAL proteins

Abstract

Background: BRAF inhibitors are widely employed in the treatment of melanoma with the BRAF V600E mutation. However, the development of resistance compromises their therapeutic efficacy. Diverse genomic and transcriptomic alterations are found in BRAF inhibitor resistant melanoma, posing a pressing need for convergent, druggable target that reverse therapy resistant tumor with different resistance mechanisms. Methods: CRISPR-Cas9 screens were performed to identify novel target gene whose inhibition selectively targets A375VR, a BRAF V600E mutant cell line with acquired resistance to vemurafenib. Various in vitro and in vivo assays, including cell competition assay, water soluble tetrazolium (WST) assay, live-dead assay and xenograft assay were performed to confirm synergistic cell death. Liquid Chromatography-Mass Spectrometry analyses quantified polyamine biosynthesis and changes in proteome in vemurafenib resistant melanoma. EIF5A hypusination dependent protein translation and subsequent changes in mitochondrial biogenesis and activity were assayed by O-propargyl-puromycin labeling assay, mitotracker, mitoSOX labeling and seahorse assay. Bioinformatics analyses were used to identify the association of polyamine biosynthesis with BRAF inhibitor resistance and poor prognosis in melanoma patient cohorts. Results: We elucidate the role of polyamine biosynthesis and its regulatory mechanisms in promoting BRAF inhibitor resistance. Leveraging CRISPR-Cas9 screens, we identify AMD1 (S-adenosylmethionine decarboxylase 1), a critical enzyme for polyamine biosynthesis, as a druggable target whose inhibition reduces vemurafenib resistance. Metabolomic and proteomic analyses reveal that polyamine biosynthesis is upregulated in vemurafenib-resistant cancer, resulting in enhanced EIF5A hypusination, translation of mitochondrial proteins and oxidative phosphorylation. We also identify that sustained c-Myc levels in vemurafenib-resistant cancer are responsible for elevated polyamine biosynthesis. Inhibition of polyamine biosynthesis or c-Myc reversed vemurafenib resistance both in vitro cell line models and in vivo in a xenograft model. Polyamine biosynthesis signature is associated with poor prognosis and shorter progression free survival after BRAF/MAPK inhibitor treatment in melanoma cohorts, highlighting the clinical relevance of our findings. Conclusions: Our findings delineate the molecular mechanisms involving polyamine-EIF5A hypusination-mitochondrial respiration pathway conferring BRAF inhibitor resistance in melanoma. These targets will serve as effective therapeutic targets that can maximize the therapeutic efficacy of existing BRAF inhibitors. [ABSTRACT FROM AUTHOR]

Published

2024

44. Comparative Analysis of the Effect of the BRAF Inhibitor Dabrafenib in 2D and 3D Cell Culture Models of Human Metastatic Melanoma Cells.

Author

TOVAR-PARRA, DAVID and ZAMMIT-MANGION, MARION

Subjects

BRAF genes, THERAPEUTIC use of antineoplastic agents, MELANOMA treatment, CELL culture, APOPTOSIS

Abstract

Background/Aim: Melanoma, a variant of skin cancer, presents the highest mortality rates among all skin cancers. Despite advancements in targeted therapies, immunotherapies, and tissue culture techniques, the absence of an effective early treatment model remains a challenge. This study investigated the impact of dabrafenib on both 2D and 3D cell culture models with distinct molecular profiles. Materials and Methods: We developed a high-throughput workflow enabling drug screening on spheroids. Our approach involved cultivating 2D and 3D cultures derived from normal melanocytes and metastatic melanoma cells, treating them with dabrafenib and conducting viability, aggregation, migration, cell cycle, and apoptosis assays. Results: Dabrafenib exerted multifaceted influences, particularly on migration at concentrations of 10 and 25 μM. It induced a decrease in cell viability, impeded cellular adhesion to the matrix, inhibited cellular aggregation and spheroid formation, arrested the cell cycle in the G1 phase, and induced apoptosis. Conclusion: These results confirm the therapeutic potential of dabrafenib in treating melanoma with the BRAF V600E mutation and that 3D models are validated models to study the potential of new molecules for therapeutic purposes. Furthermore, our study underscores the relevance of 3D models in simulating physiological in vivo microenvironments, providing insights into varied treatment responses between normal and tumor cells. [ABSTRACT FROM AUTHOR]

Published

2024

45. Combination Atezolizumab, Cobimetinib, and Vemurafenib as a Treatment Option in BRAF V600 Mutation–Positive Melanoma: Patient Selection and Perspectives.

Author

Dugan, Michelle M, Perez, Matthew C, Karapetyan, Lilit, and Zager, Jonathan S

Subjects

IMMUNE checkpoint inhibitors, PATIENTS' attitudes, BRAF genes, PATIENT selection, VEMURAFENIB

Abstract

The treatment landscape for advanced and metastatic melanoma has drastically changed in recent years, with the advent of novel therapeutic options such as immune checkpoint inhibitors and targeted therapies offering remarkable efficacy and significantly improved patient outcomes compared to traditional approaches. Approximately 50% of melanomas harbor activating BRAF mutations, with over 90% resulting in BRAF V600E. Tumors treated with BRAF inhibitor monotherapy have a high rate of developing resistance within six months. Combination therapy with MEK inhibitors helped to mitigate this treatment resistance and led to improved outcomes. Due to the up-regulation of PD-1/PD-L1 receptors in tumors treated with BRAF/MEK inhibitor therapy, further studies included a third combination agent, anti-PD-1/PD-L1 inhibitors. This triple combination therapy may have superior efficacy and a manageable safety profile when compared with single or double agent therapy regimens. Plain Language Summary: Effective treatment of advanced and metastatic melanoma can be challenging. Newer treatment methods for patients with BRAF-mutated tumors include a combination of drugs with different complementary mechanisms. These drugs include BRAF-inhibitors, MEK-inhibitors, and PD-1/PD-L1 inhibitors. When these three medications are used in combination, patients may have better response rates and survival outcomes, when compared to using just one or two of these medications together. Toxicity rates are higher with a triple-medication regimen, so careful patient selection is important to consider. [ABSTRACT FROM AUTHOR]

Published

2024

46. Neratinib, a pan ERBB/HER inhibitor, restores sensitivity of PTEN-null, BRAFV600E melanoma to BRAF/MEK inhibition.

Author

DuBose, Evan, Bevill, Samantha M., Mitchell, Dana K., Sciaky, Noah, Golitz, Brian T., Dixon, Shelley A. H., Rhodes, Steven D., Bear, James E., Johnson, Gary L., and Angus, Steven P.

Subjects

BRAF genes, GENE expression, MELANOMA, DRUG synergism, RNA sequencing, DACARBAZINE

Abstract

Introduction: Approximately 50% of melanomas harbor an activating BRAFV600E mutation. Standard of care involves a combination of inhibitors targeting mutant BRAF and MEK1/2, the substrate for BRAF in the MAPK pathway. PTEN loss-of-function mutations occur in ~40% of BRAFV600E melanomas, resulting in increased PI3K/AKT activity that enhances resistance to BRAF/MEK combination inhibitor therapy. Methods: To compare the response of PTEN null to PTEN wild-type cells in an isogenic background, CRISPR/Cas9 was used to knock out PTEN in a melanoma cell line that harbors a BRAFV600E mutation. RNA sequencing, functional kinome analysis, and drug synergy screening were employed in the context of BRAF/MEK inhibition. Results: RNA sequencing and functional kinome analysis revealed that the loss of PTEN led to an induction of FOXD3 and an increase in expression of the FOXD3 target gene, ERBB3/HER3. Inhibition of BRAF and MEK1/2 in PTEN null, BRAFV600E cells dramatically induced the expression of ERBB3/HER3 relative to wild-type cells. A synergy screen of epigenetic modifiers and kinase inhibitors in combination with BRAFi/MEKi revealed that the pan ERBB/HER inhibitor, neratinib, could reverse the resistance observed in PTEN null, BRAFV600E cells. Conclusions: The findings indicate that PTEN null BRAFV600E melanoma exhibits increased reliance on ERBB/HER signaling when treated with clinically approved BRAFi/MEKi combinations. Future studies are warranted to test neratinib reversal of BRAFi/MEKi resistance in patient melanomas expressing ERBB3/HER3 in combination with its dimerization partner ERBB2/HER2. [ABSTRACT FROM AUTHOR]

Published

2024

47. Research on Melanoma Described by Researchers at Sapienza University of Rome (The Impact of Drug-Drug Interactions on the Toxicity Profile of Combined Treatment with BRAF and MEK Inhibitors in Patients with BRAF-Mutated Metastatic Melanoma).

Subjects

DRUG interactions, RESEARCH personnel, BRAF genes, MELANOMA, METASTASIS

Abstract

In total, 177 patients with advanced BRAF-mutated melanoma undergoing BRAF/MEK targeted therapy were included. Keywords: Cancer; Cardiology; Cardiovascular; Cardiovascular Research; Diseases and Conditions; Drugs and Therapies; Genetics; Health and Medicine; Healthcare; Melanoma; Metastatic Melanoma; Oncology EN Cancer Cardiology Cardiovascular Cardiovascular Research Diseases and Conditions Drugs and Therapies Genetics Health and Medicine Healthcare Melanoma Metastatic Melanoma Oncology 702 702 1 10/09/23 20231009 NES 231009 2023 OCT 9 (NewsRx) -- By a News Reporter-Staff News Editor at Cardiovascular Week -- A new study on melanoma is now available. [Extracted from the article]

Published

2023

48. PIK3CA-mutated melanoma cells rely on cooperative signaling through mTORC1/2 for sustained proliferation.

Author

Silva, Jillian M., Deuker, Marian M., Baguley, Bruce C., and McMahon, Martin

Subjects

MELANOMA, BRAF genes, CANCER cell proliferation, RIBOSOMAL proteins, PROTO-oncogenes

Abstract

Malignant conversion of BRAF- or NRAS-mutated melanocytes into melanoma cells can be promoted by PI3′-lipid signaling. However, the mechanism by which PI3′-lipid signaling cooperates with mutationally activated BRAF or NRAS has not been adequately explored. Using human NRAS- or BRAF-mutated melanoma cells that co-express mutationally activated PIK3CA, we explored the contribution of PI3′-lipid signaling to cell proliferation. Despite mutational activation of PIK3CA, melanoma cells were more sensitive to the biochemical and antiproliferative effects of broader spectrum PI3K inhibitors than to an α-selective PI3K inhibitor. Combined pharmacological inhibition of MEK1/2 and PI3K signaling elicited more potent antiproliferative effects and greater inhibition of the cell division cycle compared to single-agent inhibition of either pathway alone. Analysis of signaling downstream of MEK1/2 or PI3K revealed that these pathways cooperate to regulate cell proliferation through mTORC1-mediated effects on ribosomal protein S6 and 4E-BP1 phosphorylation in an AKT-dependent manner. Although PI3K inhibition resulted in cytostatic effects on xenografted NRASQ61H/PIK3CAH1047R melanoma, combined inhibition of MEK1/2 plus PI3K elicited significant melanoma regression. This study provides insights as to how mutationally activated PIK3CA acts in concert with MEK1/2 signaling to cooperatively regulate mTORC1/2 to sustain PIK3CA-mutated melanoma proliferation. [ABSTRACT FROM AUTHOR]

Published

2017

49. BRAF-mutated cells activate GCN2-mediated integrated stress response as a cytoprotective mechanism in response to vemurafenib.

Author

Nagasawa, Ikuko, Kunimasa, Kazuhiro, Tsukahara, Satomi, and Tomida, Akihiro

Subjects

*MELANOMA, *BRAF genes, *ENZYME inhibitors, *PHYSIOLOGICAL stress, *CYTOPROTECTION, *STIMULUS & response (Biology), *PHOSPHORYLATION, *INITIATION factors (Biochemistry), *GENETICS

Abstract

In BRAF -mutated melanoma cells, the BRAF inhibitor, vemurafenib, induces phosphorylation of eukaryotic initiation factor 2α (eIF2α) and subsequent induction of activating transcription factor 4 (ATF4), the central regulation node of the integrated stress response (ISR). While the ISR supports cellular adaptation to various stresses, the role of vemurafenib-triggered ISR has not been fully characterized. Here, we showed that in response to vemurafenib, BRAF -mutated melanoma and colorectal cancer cells rapidly induced the ISR as a cytoprotective mechanism through activation of general control nonderepressible 2 (GCN2), an eIF2α kinase sensing amino acid levels. The vemurafenib-triggered ISR, an event independent of downstream MEK inhibition, was specifically prevented by silencing GCN2, but not other eIF2α kinases, including protein kinase-like endoplasmic reticulum kinase, which transmits endoplasmic reticulum (ER) stress. Consistently, the ER stress gatekeeper, GRP78, was not induced by vemurafenib. Interestingly, ATF4 silencing by siRNA rendered BRAF -mutated melanoma cells sensitive to vemurafenib. Thus, the GCN2-mediated ISR can promote cellular adaptation to vemurafenib-induced stress, providing an insight into the development of drug resistance. [ABSTRACT FROM AUTHOR]

Published

2017

50. A mutual information-based in vivo monitoring of adaptive response to targeted therapies in melanoma.

Author

Bugi-Marteyn, Aurore, Noulet, Fanny, Liaudet, Nicolas, and Merat, Rastine

Subjects

*MELANOMA, *BRAF genes, *EPIDERMAL growth factor receptors, *SEQUENTIAL analysis, *STATISTICAL correlation

Abstract

• In vivo dependencies should be quantified in adaptive resistance mechanistic studies • Mutual information (MI) quantifies any type rather than just linear dependencies • MI outperforms classic expression correlation coefficients • Adaptive response to small-molecules inhibitors can be monitored in vivo using MI • Strategies that prevent adaptive resistance can be monitored in vivo using MI The mechanisms of adaptive resistance to genetic-based targeted therapies of solid malignancies have been the subject of intense research. These studies hold great promise for finding co-targetable hub/pathways which in turn would control the downstream non-genetic mechanisms of adaptive resistance. Many such mechanisms have been described in the paradigmatic BRAF-mutated melanoma model of adaptive response to BRAF inhibition. Currently, a major challenge for these mechanistic studies is to confirm in vivo , at the single-cell proteomic level, the existence of dependencies between the co-targeted hub/pathways and their downstream effectors. Moreover, the drug-induced in vivo modulation of these dependencies needs to be demonstrated. Here, we implement such single-cell-based in vivo expression dependency quantification using immunohistochemistry (IHC)-based analyses of sequential biopsies in two xenograft models. These mimic phase 2 and 3 trials in our own therapeutic strategy to prevent the adaptive response to BRAF inhibition. In this mechanistic model, the dependencies between the targeted Li 2 CO 3 -inducible hub HuR and the resistance effectors are more likely time-shifted and transient since the minority of HuRLow cells, which act as a reservoir of adaptive plasticity, switch to a HuRHigh state as they paradoxically proliferate under BRAF inhibition. Nevertheless, we show that a copula/kernel density estimator (KDE)-based quantification of mutual information (MI) efficiently captures, at the individual level, the dependencies between HuR and two relevant resistance markers pERK and EGFR, and outperforms classic expression correlation coefficients. Ultimately, the validation of MI as a predictive IHC-based metric of response to our therapeutic strategy will be carried in clinical trials. [ABSTRACT FROM AUTHOR]

Published

2021