Clinical mutational profiling and categorization of BRAF mutations in melanomas using next generation sequencing | BMC Cancer | Full Text

Clinical mutational profiling and categorization of BRAF mutations in melanomas using next generation sequencing | BMC Cancer | Full Text



BMC Cancer

Clinical mutational profiling and categorization of BRAF mutations in melanomas using next generation sequencing

• Parvez M. Lokhandwala†Email authorView ORCID ID profile,
• Li-Hui Tseng†,
• Erika Rodriguez,
• Gang Zheng,
• Aparna Pallavajjalla,
• Christopher D. Gocke,
• James R. Eshleman and
• Ming-Tseh LinEmail author

†Contributed equally

BMC Cancer201919:665

https://doi.org/10.1186/s12885-019-5864-1

©  The Author(s). 2019

• Received: 30 March 2019
• Accepted: 20 June 2019
• Published: 5 July 2019

Open Peer Review reports

Abstract

Background

Analysis of melanomas for actionable mutations has become the standard of care. Recently, a classification scheme has been proposed that categorizes BRAF mutations based on their mechanisms for activation of the MAPK pathway.

Methods

In this analysis BRAF, KIT, NRAS, and PIK3CA mutations were examined by next generation sequencing (NGS) in 446 melanomas in a clinical diagnostic setting. KRAS and HRAS were also analyzed to elucidate coexisting BRAF and RAS mutations. BRAF mutations were categorized into class-1 (kinase-activated, codon 600), class-2 (kinase-activated, non-codon 600) and class-3 (kinase-impaired), based on the newly proposed classification scheme.

Results

NGS demonstrated high analytic sensitivity. Among 355 mutations detected, variant allele frequencies were 2–5% in 21 (5.9%) mutations and 2–10% in 47 (13%) mutations. Mutations were detected in BRAF (42%), NRAS (25%), KIT(4.9%) and PIK3CA (2.7%). The incidence of class-1, class-2 and class-3 mutations were 33% (26% p.V600E and 6.1% p.V600K), 3.1 and 4.9% respectively. With a broader reportable range of NGS, class-1, class-2 and class-3 mutations accounted for 77, 7.4 and 12% of all BRAF mutations. Class-3 mutations, commonly affecting codons 594, 466 and 467, showed a higher incidence of coexisting RAS mutations, consistent with their RAS-dependent signaling. Significant association with old age and primary tumors of head/neck/upper back suggest chronic solar damage as a contributing factor for melanomas harboring BRAF p.V600K or class-3 mutations.

Conclusion

This study categorizes the range, frequency, coexisting driver mutations and clinical characteristics of the three classes of BRAF mutations in a large cohort of melanomas in a clinical diagnostic setting. Further prospective studies are warranted to elucidate the clinical outcomes and benefits of newly developed targeted therapy in melanoma patients carrying each class of BRAF mutation.

Keywords

• BRAF
• NRAS
• Melanoma
• Kinase-impaired
• Categorization