1. Molecular characterization of sorted malignant B cells from patients clinically identified with mantle cell lymphoma
- Author
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Thomas Kielsgaard Kristensen, Niels Abildgaard, Oriane Cédile, Eigil Kjeldsen, Simone Valentin Hansen, Lene Hyldahl Ebbesen, Marcus Høy Hansen, Charlotte Guldborg Nyvold, Mads Thomassen, Torben A Kruse, Hans Herluf Nørgaard Bentzen, Jacob Haaber, Mia Koldby Blum, and Stephanie Kavan
- Subjects
0301 basic medicine ,Adult ,Cancer Research ,Nonsense mutation ,DNA Mutational Analysis ,Lymphoma, Mantle-Cell ,Biology ,medicine.disease_cause ,03 medical and health sciences ,0302 clinical medicine ,hemic and lymphatic diseases ,Genetics ,medicine ,Humans ,Splenic marginal zone lymphoma ,Molecular Biology ,B cell ,Mutation ,B-Lymphocytes ,Gene Expression Profiling ,Cell Biology ,Hematology ,medicine.disease ,Molecular diagnostics ,Flow Cytometry ,Lymphoma ,Neoplasm Proteins ,Gene expression profiling ,030104 developmental biology ,medicine.anatomical_structure ,030220 oncology & carcinogenesis ,Cancer research ,Mantle cell lymphoma - Abstract
Mantle cell lymphoma (MCL) is a tumor with a poor prognosis. A few studies have examined the molecular landscape by next-generation sequencing and provided valuable insights into recurrent lesions driving this heterogeneous cancer. However, none has attempted to cross-link the individual genomic and transcriptomic profiles in sorted MCL cells to perform individual molecular characterizations of the lymphomas. Such approaches are relevant as MCL is heterogenous by nature, and thorough molecular diagnostics may potentially benefit the patient with more focused treatment options. In the work described here, we used sorted lymphoma cells from four patients at diagnosis and relapse by intersecting the coding DNA and mRNA. Even though only a few patients were included, this method enabled us to pinpoint a specific set of expressed somatic mutations, to present an overall expression profile different from the normal B cell counterparts, and to track molecular aberrations from diagnosis to relapse. Changes in single-nucleotide coding variants, subtle clonal changes in large-copy-number alterations, subclonal involvement, and changes in expression levels in the clinical course provided detailed information on each of the individual malignancies. In addition to mutations in known genes (e.g., TP53, CCND1, NOTCH1, ATM), we identified others, not linked to MCL, such as a nonsense mutation in SPEN and an MYD88 missense mutation in one patient, which along with copy number alterations exhibited a molecular resemblance to splenic marginal zone lymphoma. The detailed exonic and transcriptomic portraits of the individual MCL patients obtained by the methodology presented here could help in diagnostics, surveillance, and potentially more precise usage of therapeutic drugs by efficient screening of biomarkers.
- Published
- 2019