Detection of an atypical BCR::ABL1 fusion in a patient with secondary B-cell acute lymphoblastic leukemia/lymphoma following multiple myeloma treatment.

Secondary hematologic malignancies, such as B-cell acute lymphoblastic leukemia/lymphoma (B-ALL), have been reported following multiple myeloma. Tyrosine kinase inhibitors have improved clinical outcomes of patients with Philadelphia-positive (Ph+) B-ALL. Therefore, recognition of the Ph chromosome in B-ALL patients is important for both prognosis and therapies. We present a case of a secondary Ph+ B-ALL following multiple myeloma that highlights a BCR::ABL1 fusion by a gene fusion assay to reveal a cryptic Ph chromosome, which may otherwise be missed by conventional cytogenetics and typical interphase fluorescence in situ hybridization.

Clinical Utility of Targeted Next-Generation Sequencing Assay to Detect Copy Number Variants Associated with Myelodysplastic Syndrome in Myeloid Malignancies.

Copy number variants (CNVs) and gene mutations are important for diagnosis and treatment of myeloid malignancies. In a routine clinical setting, somatic gene mutations are detected by targeted next-generation sequencing (NGS) assay, but CNVs are commonly detected by conventional chromosome analysis and fluorescence in situ hybridization (FISH). The aim of this proof-of-principle study was to investigate the feasibility of using targeted NGS to simultaneously detect both somatic mutations and CNVs. Herein, we sequenced 406 consecutive patients with myeloid malignancies by targeted NGS and performed a head-to-head comparison with the results from a myelodysplastic syndrome (MDS) FISH and conventional chromosome analysis to detect CNVs. Among 91 patients with abnormal MDS FISH results, the targeted NGS revealed all 120 CNVs detected by MDS FISH (including -5/5q-, -7/7q-, +8, and 20q-) and 193 extra CNVs detected by conventional chromosome analysis. The targeted NGS achieved 100% concordance with the MDS FISH. The lower limit of detection of MDS CNVs by the targeted NGS was generally 5% variant allele fraction for DNA, based on the lowest percentages of abnormal cells detected by MDS FISH in this study. This proof-of-principle study demonstrated that the targeted NGS assay can simultaneously detect both MDS CNVs and somatic mutations, which can provide a more comprehensive genetic profiling for patients with myeloid malignancies using a single assay in a clinical setting.

Development of a dual-color fluorescence in situ hybridization probe set on chromosome 6q to improve cytogenetic diagnosis of lymphoid malignancies.

Deletions in the long arm of chromosome 6 are one of the most commonly observed chromosome aberrations in lymphoid malignancies and have been identified as an adverse prognostic factor in subsets of leukemia and lymphoma. Although large deletions can readily be detected with conventional banding methods, subtle rearrangements represent a major diagnostic challenge. To identify and follow up 6q abnormalities that are difficult to detect with conventional banding analysis, we have developed a dual-color fluorescence in situ hybridization probe set on 6q21 and 6q27. We have also demonstrated its potential for clinical applications. While applying this new probe set to clinical cytogenetic studies, we identified a unique t(6;14) translocation in a patient with acute lymphoid leukemia. Because the translocation breakpoint on chromosome 6 is located within a common deletion region in patients with lymphoid malignancies, the determination of this translocation breakpoint will facilitate the identification of a candidate tumor suppressor gene in 6q.