RNASeq Analysis for Accurate Identification of Fusion Partners in Tumor Specific Translocations Detected by Standard FISH Probes in Hematologic Malignancies.

IF 1.9 Q3 PATHOLOGY
Clinical Pathology Pub Date : 2024-02-16 eCollection Date: 2024-01-01 DOI:10.1177/2632010X241230262
Prasad Koduru, Weina Chen, Franklin Fuda, Gurbakhash Kaur, Farrukh Awan, Samuel John, Rolando Garcia, Jeffrey Gagan
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Abstract

Background: Fluorescence labeled DNA probes and in situ hybridization methods had shorter turn round time for results revolutionized their clinical application. Signals obtained from these probes are highly specific, yet they can produce fusion signals not necessarily representing fusion of actual genes due to other genes included in the probe design. In this study we evaluated discordance between cytogenetic, FISH and RNAseq results in 3 different patients with hematologic malignancies and illustrated the need to perform next generation sequencing (NGS) or RNASeq to accurately interpret FISH results.

Methods: Bone marrow or peripheral blood karyotypes and FISH were performed to detect recurring translocations associated with hematologic malignancies in clinical samples routinely referred to our clinical cytogenetics laboratory. When required, NGS was performed on DNA and RNA libraries to detect somatic alterations and gene fusions in some of these specimens. Discordance in results between these methods is further evaluated.

Results: For a patient with plasma cell leukemia standard FGFR3 / IGH dual fusion FISH assay detected fusion that was interpreted as FGFR3-positive leukemia, whereas NGS/RNASeq detected NSD2::IGH. For a pediatric acute lymphoblastic leukemia patient, a genetic diagnosis of PDGFRB-positive ALL was rendered because the PDGFRB break-apart probe detected clonal rearrangement, whereas NGS detected MEF2D::CSF1R. A MYC-positive B-prolymphocytic leukemia was rendered for another patient with a cytogenetically identified t(8;14) and MYC::IGH by FISH, whereas NGS detected a novel PVT1::RCOR1 not previously reported.

Conclusions: These are 3 cases in a series of several other concordant results, nevertheless, elucidate limitations when interpreting FISH results in clinical applications, particularly when other genes are included in probe design. In addition, when the observed FISH signals are atypical, this study illustrates the necessity to perform complementary laboratory assays, such as NGS and/or RNASeq, to accurately identify fusion genes in tumorigenic translocations.

利用 RNASeq 分析准确识别血液恶性肿瘤中标准 FISH 探针检测到的肿瘤特异性易位中的融合伙伴。
背景:荧光标记的 DNA 探针和原位杂交方法可在更短的时间内得到结果,为其临床应用带来了革命性的变化。从这些探针获得的信号具有高度特异性,但由于探针设计中包含其他基因,它们可能产生不一定代表实际基因融合的融合信号。在本研究中,我们对 3 位不同血液恶性肿瘤患者的细胞遗传学、FISH 和 RNAseq 结果之间的不一致性进行了评估,并说明需要进行新一代测序(NGS)或 RNASeq 才能准确解释 FISH 结果:方法:对常规转诊至我们临床细胞遗传学实验室的临床样本进行骨髓或外周血核型和 FISH,以检测与血液恶性肿瘤相关的复发性易位。必要时,对 DNA 和 RNA 文库进行 NGS,以检测其中一些样本中的体细胞改变和基因融合。结果:对于一名浆细胞白血病患者,标准的 FGFR3 / IGH 双融合 FISH 检测发现了融合,可解释为 FGFR3 阳性白血病,而 NGS/RNASeq 检测出了 NSD2::IGH。一名小儿急性淋巴细胞白血病患者的基因诊断为 PDGFRB 阳性 ALL,因为 PDGFRB 分裂探针检测到克隆重排,而 NGS 检测到 MEF2D::CSF1R。另一名患者为 MYC 阳性 B 淋巴细胞白血病,FISH 检测出细胞遗传学 t(8;14)和 MYC::IGH,而 NGS 检测出一种新型 PVT1::RCOR1,此前未见报道:结论:这是一系列其他几个一致结果中的 3 个病例,然而,它们阐明了在临床应用中解释 FISH 结果的局限性,尤其是当探针设计中包含其他基因时。此外,当观察到的 FISH 信号不典型时,本研究说明有必要进行补充性实验室检测,如 NGS 和/或 RNASeq,以准确鉴定肿瘤易位中的融合基因。
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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来源期刊
Clinical Pathology
Clinical Pathology PATHOLOGY-
CiteScore
2.20
自引率
7.70%
发文量
66
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