AI Article Synopsis
- Current guidelines for chronic lymphocytic leukemia (CLL) recommend checking the IGHV gene mutation status before starting treatment, but traditional NGS methods face limitations in cost and technical requirements.
- The new Next-CLL method allows for IGHV mutation analysis using standard NGS devices, streamlining the process in routine labs and demonstrating higher reliability compared to traditional Sanger sequencing.
- Validation of Next-CLL showed perfect concordance with reference techniques and no significant bias in IGHV usage, making it a practical and effective tool for evaluating prognosis and treatment options for CLL patients.
Article Abstract
Current guidelines for patients with chronic lymphocytic leukemia (CLL) recommend mutation status determination of the clonotypic IGHV gene before treatment initiation to guide the choice of first-line therapy. Currently, commercially available next-generation sequencing (NGS) solutions have technical constraints, as they necessitate at least a 2 × 300 bp sequencing, which restricts their use for routine practice. The cost of the commercial kits also represents an important drawback. We present a new method called Next-CLL, a ready-to-use strategy to evaluate IGHV gene mutation status using any NGS device (including 2 × 150 bp sequencers) in routine diagnostic laboratories. The performance of Next-CLL was validated on genomic DNA and cDNA obtained from 80 patients with CLL at diagnosis. Next-CLL identified a productive clone in 100% of cases, whereas PCR with Sanger sequencing led to a 12.5% failure rate. Next-CLL had 100% concordance with the reference technique for IGHV gene identification and allowed assessment of the IGHV mutation status from the leader sequence, following international guidelines. Comparing a large retrospective series of samples, analyzed by using Sanger sequencing (n = 773) or Next-CLL (n = 352), showed no bias in IGHV usage or mutational status, further validating our strategy in the real-life setting. Next-CLL represents a straightforward workflow for IGHV analysis in routine practice to assess clonal architecture and prognosis of patients with CLL.
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| http://dx.doi.org/10.1016/j.jmoldx.2023.01.009 | DOI Listing |
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