用于精确蛋白质定位和荚膜细胞超微结构的超分辨高度复用免疫荧光成像。

IF 5.3
Florian Siegerist, Svenja Kitzel, Nihal Telli, Juan Saydou Dikou, Vedran Drenić, Christos E. Chadjichristos, Christos Chatziantoniou, Nicole Endlich
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引用次数: 0

摘要

深入了解(病理)生理条件下发生的复杂细胞和分子变化,对于理解蛋白质的相互作用和调控至关重要。这种了解对于研究和诊断至关重要。然而,传统的免疫荧光和光学显微镜作为观察细胞或蛋白质空间分布的工具,在复杂组织中的分辨率和复用性都受到限制。这主要是由于荧光团波长的光谱重叠、抗体类型范围有限、样本固有的可变性和光学分辨率限制等挑战造成的。本文所展示的多重免疫荧光成像与超分辨率显微镜的结合为解决这些局限性提供了一种方法,它可以识别不同的细胞类型,并对组织切片中的蛋白质进行精确的亚细胞定位。在本研究中,我们展示了石蜡肾切片的循环染色和去染色,使其适合常规使用,并与超分辨显微镜兼容,用于荚膜细胞超微结构研究。我们还进一步开发了用于数据处理的计算机化工作流程,该流程可通过现有试剂和开放式代码获取。作为原理验证,我们发现 CDH2 是肾毒性血清肾炎小鼠模型中硬化肾小球细胞病变的标记物,并用人类 Nephroseq 数据集交叉验证了这一发现,表明它具有可转化性。总之,我们的工作代表了多重成像技术的进步,这对于了解单个 FFPE 肾切片中众多蛋白质的定位以及与超分辨率显微镜的兼容性以研究荚膜细胞的超微结构变化至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Super-resolved highly multiplexed immunofluorescence imaging for precise protein localization and podocyte ultrastructure

Super-resolved highly multiplexed immunofluorescence imaging for precise protein localization and podocyte ultrastructure

Deep insights into the complex cellular and molecular changes occurring during (patho-)physiological conditions are essential for understanding the interactions and regulation of proteins. This understanding is crucial for research and diagnostics. However, the effectiveness of conventional immunofluorescence and light microscope, tools for visualizing the spatial distribution of cells or proteins, are limited both in resolution and multiplexity in complex tissues. This is mainly due to challenges such as the spectral overlap of fluorophore wavelengths, a limited range of antibody types, the inherent variability of samples and the optical resolution limit. The herein demonstrated combination of multiplex immunofluorescence imaging and super resolution microscopy offers a solution to these limitations by enabling the identification of different cell types and precise subcellular localization of proteins in tissue sections. In this study, we demonstrate the cyclic staining and de-staining of paraffin kidney sections, making it suitable for routine use and compatible with super-resolution microscopy for podocyte ultrastructural studies. We have further developed a computerized workflow for data processing which is accessible through available reagents and open-access code. As a proof of principle, we identified CDH2 as a marker for cellular lesions of sclerotic glomeruli in the nephrotoxic serum nephritis mouse model and cross-validated this finding with a human Nephroseq dataset indicating its translatability. In summary, our work represents an advance in multiplex imaging, which is crucial for understanding the localization of numerous proteins in a single FFPE kidney section and the compatibility with super-resolution microscopy to study ultrastructural changes of podocytes.

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来源期刊
CiteScore
11.50
自引率
0.00%
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期刊介绍: The Journal of Cellular and Molecular Medicine serves as a bridge between physiology and cellular medicine, as well as molecular biology and molecular therapeutics. With a 20-year history, the journal adopts an interdisciplinary approach to showcase innovative discoveries. It publishes research aimed at advancing the collective understanding of the cellular and molecular mechanisms underlying diseases. The journal emphasizes translational studies that translate this knowledge into therapeutic strategies. Being fully open access, the journal is accessible to all readers.
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