在临床活检中使用基于量子点的原位杂交和光谱解卷积对多个mRNA靶点进行成像。

Imaging of multiple mRNA targets using quantum dot based in situ hybridization and spectral deconvolution in clinical biopsies.

作者信息

Tholouli Eleni, Hoyland Judith A, Di Vizio Dolores, O'Connell Fionnuala, Macdermott Sarah A, Twomey David, Levenson Richard, Yin John A Liu, Golub Todd R, Loda Massimo, Byers Richard

机构信息

University Department of Haematology, Manchester Royal Infirmary, Oxford Road, Manchester, M13 9WL, UK.

出版信息

Biochem Biophys Res Commun. 2006 Sep 22;348(2):628-36. doi: 10.1016/j.bbrc.2006.07.122. Epub 2006 Jul 31.

DOI:10.1016/j.bbrc.2006.07.122

PMID:16893519

Abstract

Gene expression mapping using microarray analysis has identified useful gene signatures for predicting outcome. However, little of this has been translated into clinically effective diagnostic tools as microarrays require high quality fresh-frozen tissue samples. We describe a methodology of multiplexed in situ hybridization (ISH) using a novel combination of quantum dot (QD)-labeled oligonucleotide probes and spectral imaging analysis in routinely processed, formalin-fixed paraffin embedded human biopsies. The conditions for QD-ISH were optimized using a poly d(T) oligonucleotide in decalcified bone marrow samples. Single and multiplex QD-ISH was performed in samples with acute leukemia and follicular lymphoma using oligonucleotide probes for myeloperoxidase, bcl-2, survivin, and XIAP. Spectral imaging was used for post hybridization tissue analysis, enabling separation of spatially colocalized signals. The method allows quantitative characterization of multiple gene expression using non-bleaching fluorochromes. This is expected to facilitate multiplex in situ transcript detection in routinely processed human clinical tissue.

摘要

使用微阵列分析进行基因表达图谱绘制已鉴定出用于预测结果的有用基因特征。然而，由于微阵列需要高质量的新鲜冷冻组织样本，因此很少能转化为临床有效的诊断工具。我们描述了一种多重原位杂交（ISH）方法，该方法使用量子点（QD）标记的寡核苷酸探针与光谱成像分析的新组合，用于常规处理的福尔马林固定石蜡包埋的人类活检样本。使用多聚d（T）寡核苷酸在脱钙骨髓样本中优化了QD-ISH的条件。使用针对髓过氧化物酶、bcl-2、生存素和XIAP的寡核苷酸探针，在急性白血病和滤泡性淋巴瘤样本中进行了单重和多重QD-ISH。光谱成像用于杂交后组织分析，能够分离空间共定位信号。该方法允许使用不褪色荧光染料对多个基因表达进行定量表征。这有望促进在常规处理的人类临床组织中进行多重原位转录本检测。