SPOT:通过现场组织蛋白质标记进行空间蛋白质组学研究。

IF 2.8 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS Clinical proteomics Pub Date : 2024-10-24 DOI:10.1186/s12014-024-09505-5
Yuanwei Xu, T Mamie Lih, Angelo M De Marzo, Qing Kay Li, Hui Zhang
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引用次数: 0

摘要

背景:空间蛋白质组学旨在了解蛋白质在组织中或在其原生环境中不同亚细胞定位的空间组织。然而,捕捉蛋白质的空间组织具有挑战性。在此,我们提出了一种创新方法,即通过现场组织蛋白标记进行空间蛋白质组学研究(SPOT),该方法将组织蛋白在载玻片上的原位直接标记与定量质谱分析相结合,用于分析空间分辨蛋白质组学:使用七种类型的矢状面小鼠脑切片研究了TMT直接标记的功效,包括未染色的冷冻组织、未染色的福尔马林固定石蜡包埋(FFPE)组织、去石蜡的FFPE组织、去石蜡和去交联的FFPE组织以及苏木精和伊红(H&E)染色、苏木精(H)染色和伊红(E)染色的组织。在水平小鼠大脑载玻片上对八个不同的小鼠大脑区域进行直接 TMT 标记,进一步评估了 SPOT 在空间分辨率下绘制蛋白质组图谱的能力。最后,SPOT 被应用于人类前列腺癌组织和组织微阵列(TMA),根据病理注释将 TMT 标记精细地应用于限定区域。现场直接进行组织蛋白标记后,将组织从载玻片上刮下,进行标准的基于 TMT 的定量蛋白质组学分析:结果:不同类型的小鼠脑切片上的组织蛋白都可以直接用TMT标记。此外,我们的直接标记方法还能根据定量结果识别特定的小鼠脑区。SPOT还进一步应用于前列腺癌组织的玻片冷冻组织和TMA上的FFPE组织,在不同的Gleason评分区域观察到了不同的蛋白质组学特征:SPOT是一种稳健且用途广泛的技术,可对不同类型的组织切片进行全面的空间分辨蛋白质组学分析,从而促进我们对错综复杂的分子图谱的了解。
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SPOT: spatial proteomics through on-site tissue-protein-labeling.

Background: Spatial proteomics seeks to understand the spatial organization of proteins in tissues or at different subcellular localization in their native environment. However, capturing the spatial organization of proteins is challenging. Here, we present an innovative approach termed Spatial Proteomics through On-site Tissue-protein-labeling (SPOT), which combines the direct labeling of tissue proteins in situ on a slide and quantitative mass spectrometry for the profiling of spatially-resolved proteomics.

Materials and methods: Efficacy of direct TMT labeling was investigated using seven types of sagittal mouse brain slides, including frozen tissues without staining, formalin-fixed paraffin-embedded (FFPE) tissues without staining, deparaffinized FFPE tissues, deparaffinized and decrosslinked FFPE tissues, and tissues with hematoxylin & eosin (H&E) staining, hematoxylin (H) staining, eosin (E) staining. The ability of SPOT to profile proteomes at a spatial resolution was further evaluated on a horizontal mouse brain slide with direct TMT labeling at eight different mouse brain regions. Finally, SPOT was applied to human prostate cancer tissues as well as a tissue microarray (TMA), where TMT tags were meticulously applied to confined regions based on the pathological annotations. After on-site direct tissue-protein-labeling, tissues were scraped off the slides and subject to standard TMT-based quantitative proteomics analysis.

Results: Tissue proteins on different types of mouse brain slides could be directly labeled with TMT tags. Moreover, the versatility of our direct-labeling approach extended to discerning specific mouse brain regions based on quantitative outcomes. The SPOT was further applied on both frozen tissues on slides and FFPE tissues on TMAs from prostate cancer tissues, where a distinct proteomic profile was observed among the regions with different Gleason scores.

Conclusions: SPOT is a robust and versatile technique that allows comprehensive profiling of spatially-resolved proteomics across diverse types of tissue slides to advance our understanding of intricate molecular landscapes.

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来源期刊
Clinical proteomics
Clinical proteomics BIOCHEMICAL RESEARCH METHODS-
CiteScore
5.80
自引率
2.60%
发文量
37
审稿时长
17 weeks
期刊介绍: Clinical Proteomics encompasses all aspects of translational proteomics. Special emphasis will be placed on the application of proteomic technology to all aspects of clinical research and molecular medicine. The journal is committed to rapid scientific review and timely publication of submitted manuscripts.
期刊最新文献
Comparative proteomic analysis of human vitreous in rhegmatogenous retinal detachment and diabetic retinopathy reveals a common pathway and potential therapeutic target. Identification of serum N-glycans signatures in three major gastrointestinal cancers by high-throughput N-glycome profiling. Changes in amino acid concentrations and the gut microbiota composition are implicated in the mucosal healing of ulcerative colitis and can be used as noninvasive diagnostic biomarkers. Serum proteomics for the identification of biomarkers to flag predilection of COVID19 patients to various organ morbidities. SPOT: spatial proteomics through on-site tissue-protein-labeling.
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