Blood-based biomarker may redefine the future treatment for advanced melanoma
Philadelphia | 4 October 2023
Measuring circulating tumor DNA may lead to alternative treatment options and better outcomes for patients with advanced BRAF-negative melanoma, report investigates in The Journal of Molecular Diagnostics.
Circulating tumor DNA (ctDNA) is emerging as a blood-based biomarker for many solid tumor types, including melanoma. A new study opens in new tab/window that assessed ctDNA in the blood of patients with BRAF wild-type (BRAF WT) stage III and IV melanoma concludes that measuring ctDNA may lead to alternative treatment options and better outcomes for these patients, report investigators in The Journal of Molecular Diagnostics opens in new tab/window, published by Elsevier.
For patients with BRAF WT stage III and IV melanoma, there is an urgent clinical need to identify prognostic biomarkers and biomarkers to predict treatment response. Approximately 40% to 50% of all patients with late-stage cutaneous melanoma have a BRAF p.V600 mutation; in these patients treatment with selective BRAF and MEK inhibitors (BRAFi/MEKi) significantly prolongs both progression-free survival and overall survival. Immune checkpoint inhibitor (ICI) therapy shows promising results when combined with targeted therapies in patients with BRAF p.V600-positive tumors. Longer overall survival is observed when ICI therapies are combined (anti-PD-1 and anti-CTLA-4). However, BRAF WT patients or patients harboring an alternative BRAF variant do not benefit from these combinatorial ICI therapies.
Lead investigators Vanessa F. Bonazzi, PhD, and Lauren G. Aoude, PhD, The Frazer Institute, The University of Queensland, explain: “Current clinical practice means both BRAF WT and BRAF p.V600 positive patients receive ICI therapy. However, they do not all benefit. We urgently need to identify biomarkers predictive of disease recurrence and response to alternative therapies after ICI failure. Patients could be better matched to specific therapies that target genomic alterations in their tumors using biomarkers that identify specific tumor targets and guide patient management. The aim of this study was to identify targetable variants present in the blood that may lead to alternative treatment options and better outcomes for BRAF WT patients.”
Abnormalities in ctDNA shed into the bloodstream by dead or dying tumor cells can be detected and measured in noninvasive tests. Investigators assessed ctDNA from the plasma samples of 106 patients. They also included serial blood collections for a subset of 16 patients to perform a longitudinal study. Variants were detected in 85% of patients, all in targetable pathways.
Interestingly, in melanoma, the concentration of ctDNA had prognostic value. Patients with stage IV melanoma with low ctDNA concentrations, less than 10 ng/mL, had significantly better disease-specific survival and progression-free survival. Patients with both a high concentration of ctDNA and any detectable ctDNA variants had the worst prognosis. In addition, these results indicated that longitudinal changes in ctDNA correlated with treatment response and disease progression determined by radiology.
Dr. Bonazzi notes: “Our results showed that changes in ctDNA over time correlated with response to treatment and progression of the disease as assessed by radiology. Measuring patients’ ctDNA throughout their treatment would help follow their potential response and adapt the treatment regimen accordingly. While patients can have a PET/CT scan every six months, a blood test could be performed monthly and provide an accurate answer followed by immediate actions. If for example, the patient ctDNA profile shows a PIK3CA mutation from baseline, you could follow it in different blood samples from this patient over time, and down the track, you could use a PIK3CA inhibitor and hopefully be able to prevent potential recurrence of disease.”
Image caption: Circulating tumor DNA (ctDNA) correlates with radiology disease assessment and patient outcome. For patient A, biomarkers in their blood decreased over time and the radiology showed the disappearing tumor over time. This patient had a good clinical outcome and was alive at 60 months after diagnosis. Patient B unfortunately showed increasing levels of biomarkers in their ctDNA over time und succumbed to their disease at 13 months (Credit: The Journal of Molecular Diagnostics).
Dr. Aoude adds: “The sequencing of the ctDNA provides information for potential drug targets. Furthermore, the quantification could provide additional information regarding disease-specific survival and progression-free survival.”
This study confirms that ctDNA could be used as a noninvasive liquid biopsy to identify recurrent disease and detect targetable variants in patients with late-stage melanoma.
The investigators conclude that the ability to use ctDNA as a clinical tool is highly attractive because it is a noninvasive, repeatable test that can offer additional clinical information regarding treatment response and tumor recurrence. This study demonstrates the value of ctDNA in patients with stage IV melanoma as a tool to detect somatic variants with clinically targetable mutations, as a prognostic indicator in patients with stage IV melanoma, and as a tool for tracking treatment response to ICI therapy.
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Notes for editors
The article is “Circulating Tumor DNA: A Promising Biomarker for Predicting Recurrence in Patients with BRAF-Negative Melanoma,” by Lauren G. Aoude, Sandra Brosda, Jessica Ng, James M. Lonie, Clemence J. Belle, Kalpana Patel, Lambros T. Koufariotis, Scott Wood, Victoria Atkinson, B. Mark Smithers, John V. Pearson, Nicola Waddell, Andrew P. Barbour, and Vanessa F. Bonazzi (https://doi.org/10.1016/j.jmoldx.2023.06.014 opens in new tab/window). It appears online in The Journal of Molecular Diagnostics, volume 25, issue 10 (October 2023), published by Elsevier.
The article is openly available at https://www.jmdjournal.org/article/S1525-1578(23)00174-5/fulltext opens in new tab/window.
Full text of this study is also available to credentialed journalists upon request; contact Eileen Leahy at +1 732 238 3628 or [email protected] opens in new tab/window. Journalists wishing to interview the authors should contact Lauren Aoude, PhD, at [email protected] opens in new tab/window or Sandra Brosda, PhD, at [email protected] opens in new tab/window.
The majority of this work was funded thanks to a Queensland Advancing Clinical Research Fellowship awarded to Prof Andrew Barbour in 2020.
About The Journal of Molecular Diagnostics
The Journal of Molecular Diagnostics opens in new tab/window, the official publication of the Association for Molecular Pathology, co-owned by the American Society for Investigative Pathology, and published by Elsevier, seeks to publish high quality original papers on scientific advances in the translation and validation of molecular discoveries in medicine into the clinical diagnostic setting, and the description and application of technological advances in the field of molecular diagnostic medicine. The editors welcome review articles that contain: novel discoveries or clinicopathologic correlations, including studies in oncology, infectious diseases, inherited diseases, predisposition to disease, or the description of polymorphisms linked to disease states or normal variations; the application of diagnostic methodologies in clinical trials; or the development of new or improved molecular methods for diagnosis or monitoring of disease or disease predisposition. www.jmdjournal.org opens in new tab/window
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