Defining the mutational profile of lower-risk myelodysplastic neoplasm patients with respect to disease progression using next-generation sequencing and pyrosequencing

Monika Adamska, Ewelina Kowal-Wiśniewska, Joanna Czerwinska-Rybak, K. Kiwerska, M. Barańska, Weronika Gronowska, Jagoda Loba, Katarzyna Brzeźniakiewicz-Janus, Ewa Wasilewska, Aleksandra Łanocha, M. Jarmuż-Szymczak, Lidia Gil
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Abstract

Introduction Lower-risk myelodysplastic neoplasms (LR-MDS) comprise the majority of MDS. Despite favourable prognoses, some patients remain at risk of rapid progression. We aimed to define the mutational profile of LR-MDS using next-generation sequencing (NGS), Sanger Sequencing (SSeq), and pyrosequencing. Material and methods Samples from 5 primary LR-MDS (67 exons of SF3B1, U2AF1, SRSF2, ZRSR2, TET2, ASXL1, DNMT3A, TP53, and RUNX1 genes) were subjected to NGS. Next, a genomic study was performed to test for the presence of identified DNA sequence variants on a larger group of LR-MDS patients (25 bone marrow [BM], 3 saliva [SAL], and one peripheral blood [PB] sample/s). Both SSeq (all selected DNA sequence variants) and pyrosequencing (9 selected DNA sequence variants) were performed. Results Next-generation sequencing results identified 13 DNA sequence variants in 7 genes, comprising 8 mutations in 6 genes (ASXL1, DNMT3A, RUNX1, SF3B1, TET2, ZRSR2) in LR-MDS. The presence of 8 DNA variants was detected in the expanded LR-MDS group using SSeq and pyrosequencing. Mutation acquisition was observed during LR-MDS progression. Four LR-MDS and one acute myeloid leukaemia myelodysplasia-related patient exhibited the presence of at least one mutation. ASXL1 and SF3B1 alterations were most commonly observed (2 patients). Five DNA sequence variants detected in BM (patients: 9, 13) were also present in SAL. Conclusions We suggest using NGS to determine the LR-MDS mutational profile at diagnosis and suspicion of disease progression. Moreover, PB and SAL molecular testing represent useful tools for monitoring LR-MDS at higher risk of progression. However, the results need to be confirmed in a larger group.
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利用新一代测序技术和高温测序技术确定低风险骨髓增生异常肿瘤患者疾病进展的突变概况
导言 低危骨髓增生异常肿瘤(LR-MDS)占 MDS 的大多数。尽管预后良好,但仍有部分患者面临病情快速进展的风险。我们旨在利用新一代测序(NGS)、桑格测序(SSeq)和热测序确定 LR-MDS 的突变谱。材料与方法 对来自 5 个原发性 LR-MDS 的样本(SF3B1、U2AF1、SRSF2、ZRSR2、TET2、ASXL1、DNMT3A、TP53 和 RUNX1 基因的 67 个外显子)进行了 NGS 测序。接下来,对更大范围的 LR-MDS 患者(25 份骨髓样本、3 份唾液样本和 1 份外周血样本)进行了基因组研究,以检测是否存在已确定的 DNA 序列变异。同时进行了 SSeq(所有选定的 DNA 序列变异)和热测序(9 个选定的 DNA 序列变异)。结果 下一代测序结果在 LR-MDS 中发现了 7 个基因中的 13 个 DNA 序列变异,包括 6 个基因(ASXL1、DNMT3A、RUNX1、SF3B1、TET2、ZRSR2)中的 8 个突变。利用 SSeq 和热测序技术,在扩大的 LR-MDS 组中检测到了 8 个 DNA 变异。在LR-MDS进展过程中观察到了突变的获得。四名LR-MDS患者和一名急性髓性白血病骨髓增生异常相关患者至少出现了一种突变。最常见的是 ASXL1 和 SF3B1 变异(2 名患者)。在 BM(患者:9、13)中检测到的 5 个 DNA 序列变异也出现在 SAL 中。结论 我们建议在诊断和怀疑疾病进展时使用 NGS 来确定 LR-MDS 的突变情况。此外,PB 和 SAL 分子检测是监测进展风险较高的 LR-MDS 的有用工具。然而,这些结果还需要在更大的群体中得到证实。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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