Mutational Analysis of Tumor Samples From Patients with Relapsed or Refractory Multiple Myeloma (MM) Highlights the Prevalence of RAS/RAF Pathway Activation and Demonstrates Previously Unreported Mutations in Known Cancer Genes

Abstract 1377 MM is a plasma cell malignancy that remains generally incurable; however, there is significant inter-patient variation in the clinical course of MM and in survival, which is thought to relate, at least in part, to the biological heterogeneity of patients' tumors. At the molecular...

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Published in:Blood 2011-11, Vol.118 (21), p.1377-1377
Main Authors: Mulligan, George, Lichter, David I, Di Bacco, Alessandra, Blakemore, Stephen J, Berger, Allison, Koenig, Erik, Bernard, Hugues, Trepicchio, William L., Li, Bin, Lonial, Sagar, Richardson, Paul G., Anderson, Kenneth C., Sonneveld, Pieter, San Miguel, Jesús F, Esseltine, Dixie-Lee, Schu, Matthew
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Language:English
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Summary:Abstract 1377 MM is a plasma cell malignancy that remains generally incurable; however, there is significant inter-patient variation in the clinical course of MM and in survival, which is thought to relate, at least in part, to the biological heterogeneity of patients' tumors. At the molecular level, MM is sub-classified by chromosomal translocations, genetic mutations, and risk classifiers that integrate gene expression. Some of these genetic abnormalities have established associations with disease outcome in MM; for example, hyperdiploid patients have a better disease prognosis compared with non-hyperdiploid patients, and patients with a deletion of the p53 locus on chromosome 17 exhibit very poor clinical outcomes compared with patients who do not have this deletion. A better understanding of the molecular diversity of MM will likely inform therapeutic decision making and also identify additional intracellular targets for future drug development. A recent whole genome sequencing study of 38 MM patients described several somatic mutations that had not previously been described in MM or other cancers (Chapman et al, Nature 2011), as well as mutations in known cancer genes that had either not previously been reported in MM (BRAF), or that were observed at a higher frequency in MM than previously reported (KRAS, NRAS). The present study was conducted to confirm the prevalence of mutations in a panel of established cancer genes in tumor samples from patients with relapsed or refractory MM. Bone marrow aspirates were collected from 133 patients who participated in phase 2 (SUMMIT, CREST) and 3 (APEX) clinical studies of bortezomib for relapsed or refractory MM. Tumor DNA was amplified and screened for mutations in a panel of cancer genes using the MassARRAY®/Sequenom mass spectrometry-based methodology. This custom panel evaluates 514 known mutations in 43 distinct oncogenes and tumor suppressor genes. Mutations were identified with standard software and subsequently verified via manual inspection. The most common mutations observed in MM tumor samples were in KRAS (n=32 [24.1%], 95% CI: 17.0–31.3) and NRAS (n=26 [19.5%], 95% CI: 12.8–26.3); for both genes, mutations in codon 61 were more common (47% and 85% for KRAS and NRAS, respectively) than mutations in codon 13, as previously described for MM (Chng et al, Leukemia 2008). Mutations in BRAF were detected in three patient samples (2.3%, 95% CI: 0–4.8). For all three genes, the mutation rate in this patient
ISSN:0006-4971
1528-0020
DOI:10.1182/blood.V118.21.1377.1377