Comprehensive detection of recurring genomic abnormalities: a targeted sequencing approach for multiple myeloma

Author:

Yellapantula Venkata,Hultcrantz MalinORCID,Rustad Even H.ORCID,Wasserman Ester,Londono Dory,Cimera Robert,Ciardiello Amanda,Landau Heather,Akhlaghi Theresia,Mailankody Sham,Patel Minal,Medina-Martinez Juan SantiagoORCID,Arango Ossa Juan Esteban,Levine Max Fine,Bolli Niccolo,Maura Francesco,Dogan AhmetORCID,Papaemmanuil Elli,Zhang Yanming,Landgren OlaORCID

Abstract

AbstractRecent genomic research efforts in multiple myeloma have revealed clinically relevant molecular subgroups beyond conventional cytogenetic classifications. Implementing these advances in clinical trial design and in routine patient care requires a new generation of molecular diagnostic tools. Here, we present a custom capture next-generation sequencing (NGS) panel designed to identify rearrangements involving the IGH locus, arm level, and focal copy number aberrations, as well as frequently mutated genes in multiple myeloma in a single assay. We sequenced 154 patients with plasma cell disorders and performed a head-to-head comparison with the results from conventional clinical assays, i.e., fluorescent in situ hybridization (FISH) and single-nucleotide polymorphism (SNP) microarray. Our custom capture NGS panel had high sensitivity (>99%) and specificity (>99%) for detection of IGH translocations and relevant chromosomal gains and losses in multiple myeloma. In addition, the assay was able to capture novel genomic markers associated with poor outcome such as bi-allelic events involving TP53. In summary, we show that a multiple myeloma designed custom capture NGS panel can detect IGH translocations and CNAs with very high concordance in relation to FISH and SNP microarrays and importantly captures the most relevant and recurrent somatic mutations in multiple myeloma rendering this approach highly suitable for clinical application in the modern era.

Publisher

Springer Science and Business Media LLC

Subject

Oncology,Hematology

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