Multicolour and lineage-specific interphase chromosome Flow-FISH: method development and clinical validation

IF 3.6 3区医学 Q1 PATHOLOGY Pathology Pub Date : 2024-05-20 DOI:10.1016/j.pathol.2024.04.001

Huey-En Tzeng , Yi-Wei Lee , Chien-Ting Lin , Shih-Sung Chuang , Chi-Cheng Li , Wen-Hui Chuang , Cheng-An Hsu , Yi-Hua Wang , Hwei-Fang Tien , Shang-Ju Wu

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Abstract

Flow cytometry can be applied in the detection of fluorescence in situ hybridisation (FISH) signals to efficiently analyse chromosomal aberrations. However, such interphase chromosome (IC) Flow-FISH protocols are currently limited to detecting a single colour. Furthermore, combining IC Flow-FISH with conventional multicolour flow cytometry is difficult because the DNA-denaturation step in FISH assay also disrupts cellular integrity and protein structures, precluding subsequent antigen-antibody binding and hindering concurrent labeling of surface antigens and FISH signals.

We developed a working protocol for concurrent multicolour flow cytometry detection of nuclear IC FISH signals and cell surface markers. The protocol was validated by assaying sex chromosome content of blood cells, which was indicative of chimerism status in patients who had received sex-mismatched allogeneic haematopoietic stem cell transplants (allo-HSCT). The method was also adapted to detect trisomy 12 in chronic lymphocytic leukaemia (CLL) subjects.

We first demonstrated the feasibility of this protocol in detecting multiple colours and concurrent nuclear and surface signals with high agreement. In clinical validation experiments, chimerism status was identified in clinical samples (n=56) using the optimised IC Flow-FISH method; the results tightly corresponded to those of conventional slide-based FISH (R²=0.9649 for XX cells and 0.9786 for XY cells). In samples from patients who received sex-mismatched allo-HSCT, individual chimeric statuses in different lineages could be clearly distinguished with high flexibility in gating strategies. Furthermore, in CLL samples with trisomy 12, this method could demonstrate that enriched trisomy 12 FISH signal was present in B cells rather than in T cells. Finally, by performing combined labelling of chromosome 12, X chromosome, and surface markers, we could detect rare residual recipient CLL cells with trisomy 12 after allo-HSCT.

This adaptable protocol for multicolour and lineage-specific IC Flow-FISH advances the technique to allow for its potential application in various clinical contexts where conventional FISH assays are currently being utilised.

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多色和系特异性间期染色体Flow-FISH：方法开发和临床验证

流式细胞术可用于检测荧光原位杂交（FISH）信号，以有效分析染色体畸变。然而，这种相间染色体（IC）流式荧光原位杂交方案目前仅限于检测一种颜色。此外，将IC流式荧光染色法与传统的多色流式细胞术结合起来也很困难，因为FISH检测中的DNA变性步骤也会破坏细胞的完整性和蛋白质结构，妨碍随后的抗原-抗体结合，阻碍同时标记表面抗原和FISH信号。我们制定了同时检测核 IC FISH 信号和细胞表面标记物的多色流式细胞术工作方案，并通过检测血细胞中的性染色体含量对该方案进行了验证，性染色体含量可指示接受性别不匹配异基因造血干细胞移植（allo-HSCT）患者的嵌合状态。我们首次证明了这一方案的可行性，它能检测出多种颜色以及同时出现的核信号和表面信号，而且一致性很高。在临床验证实验中，使用优化的 IC Flow-FISH 方法鉴定了临床样本（n=56）中的嵌合状态；结果与传统的滑动式 FISH 非常吻合（XX 细胞的 R2=0.9649 和 XY 细胞的 R2=0.9786）。在接受性别不匹配allo-HSCT的患者样本中，不同系的个体嵌合状态可以通过高度灵活的门控策略清楚地区分。此外，在具有 12 三体综合征的 CLL 样本中，该方法可证明 12 三体综合征 FISH 信号在 B 细胞而非 T 细胞中富集。最后，通过对 12 号染色体、X 染色体和表面标记物进行联合标记，我们可以检测出异体 HSCT 后带有 12 三体综合征的罕见残留受体 CLL 细胞。

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

Pathology 医学-病理学

CiteScore

6.50

自引率

2.20%

发文量

459

审稿时长

54 days

期刊介绍： Published by Elsevier from 2016 Pathology is the official journal of the Royal College of Pathologists of Australasia (RCPA). It is committed to publishing peer-reviewed, original articles related to the science of pathology in its broadest sense, including anatomical pathology, chemical pathology and biochemistry, cytopathology, experimental pathology, forensic pathology and morbid anatomy, genetics, haematology, immunology and immunopathology, microbiology and molecular pathology.