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基于开发嵌合质量控制细胞的非整倍体产前检测质量保证方案。

A Quality Assurance Scheme for Prenatal Detection of Aneuploidy Based on Developing Chimeric Quality-Control Cells.

作者信息

Weng Bing-Huan, Zhu Dan-Hua, Shen Xiao-Yun, Yu Xiao-Peng, Ying Jun, Li Lan-Juan

出版信息

Clin Lab. 2020 Sep 1;66(9). doi: 10.7754/Clin.Lab.2020.200112.

DOI:10.7754/Clin.Lab.2020.200112
PMID:32902232
Abstract

BACKGROUND

The shortage of quality-control materials caused by non-renewable utilization of rare disease samples is the key factor to limit the quality control of prenatal molecular diagnosis. This study aimed to prepare aneuploid amniocyte lines for the development of quality control cells for fluorescence in situ hybridization (FISH)-mediated detection of aneuploidy.

METHODS

Recombinant SV40LTag-pcDNA3.1(-) vectors were transfected into 47,XY,+18 amniotic fluid cells with the use of liposomes. After culturing, these cells were mixed with primary amniocytes with the karyotype 46,XY to prepare four groups of chimeric quality control cells comprising recombinant cells with the karyotypes 47,XY,+18 and primary cells with 46,XY, with theoretical ratios of 47,XY,+18 cells at 5%, 10%, 20%, and 40%. Subsequently, the chimeric quality control cells were tested as clinical samples by three technicians to examine their feasibility for use as internal quality controls (IQC) for FISH detection.

RESULTS

After being immortalized by the SV40 large T antigen gene (SV40LT), these aneuploid amniocytes can be cultured indefinitely to prepare chimeric quality control cells. The actual ratio of the 47,XY,+18 cells was identified by FISH to be 1.5 ± 1.1%, 10.3 ± 1.0%, 19.9 ± 0.4%, and 40.8 ± 0.3%, respectively, and the fluorescence signals of chromosomes 13, 18, 21, X, and Y in these cells were consistent with that of the primary cells.

CONCLUSIONS

The present study may resolve the shortage of quality control cells in the prenatal detection of chromosomal aneuploidy and may provide a foundation for IQC-based detection in FISH.

摘要

背景

稀有疾病样本不可再生利用导致的质量控制材料短缺是限制产前分子诊断质量控制的关键因素。本研究旨在制备非整倍体羊水细胞系,用于开发荧光原位杂交(FISH)介导的非整倍体检测的质量控制细胞。

方法

使用脂质体将重组SV40LTag-pcDNA3.1(-)载体转染到47,XY,+18羊水细胞中。培养后,将这些细胞与核型为46,XY的原代羊水细胞混合,制备四组嵌合质量控制细胞,包括核型为47,XY,+18的重组细胞和核型为46,XY的原代细胞,理论上47,XY,+18细胞的比例分别为5%、10%、20%和40%。随后,由三名技术人员将嵌合质量控制细胞作为临床样本进行检测,以检验其作为FISH检测内部质量控制(IQC)的可行性。

结果

经SV40大T抗原基因(SV40LT)永生化后,这些非整倍体羊水细胞可无限培养以制备嵌合质量控制细胞。通过FISH鉴定,47,XY,+18细胞的实际比例分别为1.5±1.1%、10.3±1.0%、19.9±0.4%和40.8±0.3%,这些细胞中染色体13、18、21、X和Y的荧光信号与原代细胞一致。

结论

本研究可能解决染色体非整倍体产前检测中质量控制细胞短缺的问题,并可能为基于IQC的FISH检测提供基础。

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