Next-generation Sequencing Technology Reveals a Characteristic Pattern of Molecular Mutations in 72.8% of Chronic Myelomonocytic Leukemia by Detecting Frequent Alterations in TET2, CBL, RAS, and RUNX1

Overview

Journal J Clin Oncol

Specialty Oncology

Date 2010 Jul 21

PMID 20644105

Citations 120

Authors

Alexander Kohlmann

Vera Grossmann

Hans-Ulrich Klein

Sonja Schindela

Tamara Weiss

Beray Kazak

Frank Dicker

Susanne Schnittger

Martin Dugas

Wolfgang Kern

Claudia Haferlach

Torsten Haferlach

Affiliations

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Abstract

Purpose: Chronic myelomonocytic leukemia (CMML) is a clonal hematopoietic malignancy that is characterized by features of both a myeloproliferative neoplasm and a myelodysplastic syndrome. Thus far, data on a comprehensive cytogenetic or molecular genetic characterization are limited.

Patients And Methods: Here, we analyzed 81 thoroughly characterized patients with CMML (CMML type 1, n = 45; CMML type 2, n = 36) by applying next-generation sequencing (NGS) technology to investigate CBL, JAK2, MPL, NRAS, and KRAS at known mutational hotspot regions. In addition, complete coding regions were analyzed for RUNX1 (beta isoform) and TET2 aberrations.

Results: Cytogenetic aberrations were found in 18.2% of patients (14 of 77 patients). In contrast, at least one molecular mutation was observed in 72.8% of patients (59 of 81 patients). A mean of 1.6 mutations per patient was observed by this unprecedented screening. In total, 105 variances were detected by this comprehensive molecular screening. After excluding known polymorphisms or silent mutations, 82 distinct mutations remained (CBL, n = 15; JAK2V617F, n = 8; MPL, n = 0; NRAS, n = 10; KRAS, n = 12; RUNX1, n = 7; and TET2, n = 41). With respect to clinical data, a better outcome was seen for patients carrying TET2 mutations (P = .013).

Conclusion: The number of molecular markers used to categorize myeloid neoplasms is constantly increasing. Here, NGS screening has been demonstrated to support a comprehensive characterization of the molecular background in CMML. A pattern of molecular mutations translates into different biologic and prognostic categories of CMML.

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