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使用 NIRL 进行组织取样和匀浆可实现对小鼠肠道的空间分辨细胞层特异性蛋白质组学分析。

Tissue Sampling and Homogenization with NIRL Enables Spatially Resolved Cell Layer Specific Proteomic Analysis of the Murine Intestine.

机构信息

Section/Core Facility Mass Spectrometry and Proteomics, University Medical Center Hamburg-Eppendorf (UKE), Martinistraße 52, 20246 Hamburg, Germany.

Section of Molecular Immunology und Gastroenterology, I. Department of Medicine, University Medical Center Hamburg-Eppendorf (UKE), Martinistraße 52, 20246 Hamburg, Germany.

出版信息

Int J Mol Sci. 2022 May 30;23(11):6132. doi: 10.3390/ijms23116132.

DOI:10.3390/ijms23116132
PMID:35682811
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9181169/
Abstract

For investigating the molecular physiology and pathophysiology in organs, the most exact data should be obtained; if not, organ-specific cell lines are analyzed, or the whole organ is homogenized, followed by the analysis of its biomolecules. However, if the morphological organization of the organ can be addressed, then, in the best case, the composition of molecules in single cells of the target organ can be analyzed. Laser capture microdissection (LCM) is a technique which enables the selection of specific cells of a tissue for further analysis of their molecules. However, LCM is a time-consuming two-dimensional technique, and optimal results are only obtained if the tissue is fixed, e.g., by formalin. Especially for proteome analysis, formalin fixation reduced the number of identifiable proteins, and this is an additional drawback. Recently, it was demonstrated that sampling of fresh-frozen (non-fixed) tissue with an infrared-laser is giving higher yields with respect to the absolute protein amount and number of identifiable proteins than conventional mechanical homogenization of tissues. In this study, the applicability of the infrared laser tissue sampling for the proteome analysis of different cell layers of murine intestine was investigated, using LC-MS/MS-based differential quantitative bottom-up proteomics. By laser ablation, eight consecutive layers of colon tissue were obtained and analyzed. However, a clear distinguishability of protein profiles between ascending, descending, and transversal colon was made, and we identified the different intestinal-cell-layer proteins, which are cell-specific, as confirmed by data from the Human Protein Atlas. Thus, for the first time, sampling directly from intact fresh-frozen tissue with three-dimensional resolution is giving access to the different proteomes of different cell layers of colon tissue.

摘要

为了研究器官中的分子生理学和病理生理学,应该获得最准确的数据;如果无法获得,则分析器官特异性细胞系,或者对整个器官进行匀浆,然后分析其生物分子。然而,如果可以解决器官的形态组织问题,那么在最佳情况下,可以分析目标器官中单细胞中的分子组成。激光捕获显微切割 (LCM) 是一种能够选择组织中特定细胞进行进一步分析其分子的技术。然而,LCM 是一种耗时的二维技术,如果组织被固定(例如用福尔马林),则可以获得最佳结果。特别是对于蛋白质组分析,福尔马林固定会减少可识别蛋白质的数量,这是一个额外的缺点。最近,已经证明使用红外激光对新鲜冷冻(未固定)组织进行采样,在绝对蛋白质含量和可识别蛋白质数量方面,比传统的组织机械匀浆具有更高的产量。在这项研究中,使用基于 LC-MS/MS 的差异定量自上而下蛋白质组学,研究了红外激光组织采样在分析小鼠肠道不同细胞层中的蛋白质组学中的适用性。通过激光烧蚀,获得并分析了结肠组织的连续八个层。然而,明确区分了升结肠、降结肠和横结肠之间的蛋白质谱,并且我们鉴定了不同的肠道细胞层蛋白质,这些蛋白质是细胞特异性的,这一点得到了人类蛋白质图谱数据的证实。因此,这是第一次能够直接从完整的新鲜冷冻组织中以三维分辨率获得不同细胞层的不同蛋白质组。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/07d8/9181169/4ce18ef47f8f/ijms-23-06132-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/07d8/9181169/8934fb8b9269/ijms-23-06132-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/07d8/9181169/8934fb8b9269/ijms-23-06132-g001.jpg
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