Sunnybrook Research Institute, Toronto, ON, Canada.
Histopathology. 2014 Jan;64(2):242-55. doi: 10.1111/his.12240. Epub 2013 Nov 5.
Multiplexed immunofluorescence is a powerful tool for validating multigene assays and understanding the complex interplay of proteins implicated in breast cancer within a morphological context. We describe a novel technology for imaging an extended panel of biomarkers on a single, formalin-fixed paraffin-embedded breast sample and evaluating biomarker interaction at a single-cell level, and demonstrate proof-of-concept on a small set of breast tumours, including those which co-express hormone receptors with Her2/neu and Ki-67.
Using a microfluidic flow cell, reagent exchange was automated and consisted of serial rounds of staining with dye-conjugated antibodies, imaging and chemical deactivation. A two-step antigen retrieval process was developed to satisfy all epitopes simultaneously, and key parameters were optimized. The imaging sequence was applied to seven breast tumours, and compared with conventional immunohistochemistry. Single-cell correlation analysis was performed with automated image processing.
We have described a novel platform for evaluating biomarker co-localization. Expression in multiplexed images is consistent with conventional immunohistochemistry. Automation reduces inconsistencies in staining and positional shifts, while the fluorescent dye cycling approach dramatically expands the number of biomarkers which can be visualized and quantified on a single tissue section.
多重免疫荧光是验证多基因检测和理解乳腺癌中涉及的蛋白质之间复杂相互作用的有力工具,在形态学背景下。我们描述了一种在单个福尔马林固定石蜡包埋的乳腺样本上成像扩展的生物标志物面板并在单细胞水平评估生物标志物相互作用的新技术,并在一组小的乳腺肿瘤上证明了概念验证,包括那些同时表达激素受体与 Her2/neu 和 Ki-67 的肿瘤。
使用微流控流动池,试剂交换自动化,包括用染料标记的抗体进行连续轮次的染色、成像和化学失活。开发了两步抗原修复过程以同时满足所有表位,并优化了关键参数。该成像序列应用于七种乳腺癌,并与传统免疫组织化学进行了比较。使用自动图像处理进行单细胞相关分析。
我们描述了一种用于评估生物标志物共定位的新型平台。多重免疫荧光图像中的表达与传统免疫组织化学一致。自动化减少了染色和位置偏移的不一致性,而荧光染料循环方法则大大扩展了可以在单个组织切片上可视化和定量的生物标志物数量。
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