A Unique Immunofluorescence Protocol to Detect Protein Expression in Vascular Tissues: Tacking a Long Standing Pathological Hitch.

Turk patoloji dergisi Pub Date : 2018-01-01 DOI:10.5146/tjpath.2017.01405

Puneet Gandhi, Richa Khare

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引用次数: 4

Abstract

Objective: Autofluorescence induced interference is one of the major drawbacks in immunofluorescence analysis of formalin-fixed paraffin-embedded tissues, as it decreases the signal-to-noise ratio of specific labeling. Apart from aldehyde-fixation induced artifacts; collagen and elastin, red blood cells and endogenous fluorescent pigment lipofuscin are prime sources of autofluorescence in vascular and aging tissues. We describe herein, an optimized indirect-immunofluorescence method for archival formalin-fixed paraffin-embedded tissues tissues and cryo sections, using a combination of 3-reagents in a specific order, to achieve optimal fluorescence signals and imaging.

Material and method: Human telomerase reverse transcriptase, a protein implicated as a proliferation marker, was chosen relevant to its expression in solid tumors along with 3 other intracellular proteins exhibiting nuclear and/or cytoplasmic expression. Staining was performed on 10 glioma tissue sections along with 5 of their cryo sections, 5 sections each of hepatocellular, lung, papillary-thyroid and renal cell carcinoma, with 10 non-malignant brain tissue samples serving as control. Specimens were imaged using epifluorescence microscopy, followed by software-based quantification of fluorescence signals for statistical analysis and validation.

Results: We observed that the combined application of sodium-borohydride followed by crystal violet before antigen retrieval and a Sudan black B treatment after secondary antibody application proved to be most efficacious for masking autofluorescence/non-specific background in vascular tissues.

Conclusion: This unique trio-methodology provides quantifiable observations with maximized fluorescence signal intensity of the target protein for longer retention time of the signal even after prolonged storage. The results can be extrapolated to other human tissues for different protein targets.

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一种独特的免疫荧光方案检测血管组织中的蛋白质表达:解决长期存在的病理障碍。

目的:自体荧光诱导干扰降低了特异性标记的信噪比，是福尔马林固定石蜡包埋组织免疫荧光分析的主要缺陷之一。除了醛固定引起的伪影;胶原蛋白和弹性蛋白、红细胞和内源性荧光色素脂褐素是血管和衰老组织中自身荧光的主要来源。我们在此描述了一种优化的间接免疫荧光方法，用于档案福尔马林固定石蜡包埋组织和冷冻切片，使用3种试剂按特定顺序组合，以获得最佳的荧光信号和成像。材料和方法:人类端粒酶逆转录酶是一种与增殖标志物有关的蛋白质，与其他3种细胞内蛋白在实体肿瘤中的表达有关，这些蛋白表现为核和/或细胞质表达。10个胶质瘤组织切片及其5个冷冻切片染色，肝细胞癌、肺癌、乳头状甲状腺癌和肾细胞癌各5个切片染色，10个非恶性脑组织标本作为对照。使用荧光显微镜对标本进行成像，然后利用软件对荧光信号进行定量分析，进行统计分析和验证。结果:我们观察到，在抗原提取前联合应用硼氢化钠和结晶紫，在二抗应用后联合应用苏丹黑B处理，对掩盖血管组织中的自身荧光/非特异性背景最有效。结论:这种独特的三联法提供了可量化的观察结果，最大限度地提高了目标蛋白的荧光信号强度，即使在长时间储存后，信号的保留时间也更长。该结果可以外推到其他人体组织的不同蛋白质目标。

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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