低温保存的人体肾组织多组学处理优化方案。

Sydney E Gies, Sonja Hänzelmann, Dominik Kylies, Moritz Lassé, Simon Lagies, Fabian Hausmann, Robin Khatri, Nikolay Zolotarev, Manuela Poets, Tianran Zhang, Fatih Demir, Anja M Billing, Josephine Quaas, Elisabeth Meister, Jonas Engesser, Anne K Mühlig, Shun Lu, Shuya Liu, Silvia Chilla, Ilka Edenhofer, Jan Czogalla, Fabian Braun, Bernd Kammerer, Victor G Puelles, Stefan Bonn, Markus M Rinschen, Maja Lindenmeyer, Tobias B Huber
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引用次数: 0

摘要

从临床获得的肾脏活检组织中提取生物库组织,以便日后用于多组学和成像技术,是克服疾病模型系统需求和实现转化医学的必然步骤。因此,使用不需要液氮但能即时保存肾脏组织以供临床和科学分析的保存介质,确保与日常临床工作相结合的采集方案至关重要。因此,我们对快速冷冻或保存介质 RNAlater 和 CellCover 中保存的肾脏组织的单核离解方案进行了改进。我们使用猪肾组织作为人类肾组织的替代物,利用 Chromium 10X 基因组学平台进行单核 RNA 测序。我们分析了每种储存条件下产生的数据集,以确定转录组图谱中的任何潜在变化。此外,我们还评估了保存介质对其他分析技术(蛋白质组学、代谢组学)的适用性,以及对组织病理学检查(包括免疫荧光染色)的组织结构保存情况。在这项研究中,我们发现在日常临床工作中,RNAlater 可以方便地收集高度保存的人体肾脏活检组织,并利用单核 RNA 测序、蛋白质组学和组织病理学评估等尖端技术进行进一步分析。目前只有代谢组分析仅限于速冻组织。这项工作将有助于建立组织生物库,其中包含可进行深入分子特征描述的明确界定的相关肾脏疾病队列,为识别独特的细胞、通路和生物标记物,从而预防、早期识别和靶向治疗肾脏疾病开辟新的视野。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimized protocol for the multiomics processing of cryopreserved human kidney tissue.

Biobanking of tissue from clinically obtained kidney biopsies for later analysis with multiomic approaches, such as single-cell technologies, proteomics, metabolomics, and the different types of imaging, is an inevitable step to overcome the need of disease model systems and toward translational medicine. Hence, collection protocols that ensure integration into daily clinical routines by the usage of preservation media that do not require liquid nitrogen but instantly preserve kidney tissue for both clinical and scientific analyses are necessary. Thus, we modified a robust single-nucleus dissociation protocol for kidney tissue stored snap-frozen or in the preservation media RNAlater and CellCover. Using at first porcine kidney tissue as a surrogate for human kidney tissue, we conducted single-nucleus RNA sequencing with the widely recognized Chromium 10X Genomics platform. The resulting datasets from each storage condition were analyzed to identify any potential variations in transcriptomic profiles. Furthermore, we assessed the suitability of the preservation media for additional analysis techniques such as proteomics, metabolomics, and the preservation of tissue architecture for histopathological examination including immunofluorescence staining. In this study, we show that in daily clinical routines, the preservation medium RNAlater facilitates the collection of highly preserved human kidney biopsies and enables further analysis with cutting-edge techniques like single-nucleus RNA sequencing, proteomics, and histopathological evaluation. Only metabolome analysis is currently restricted to snap-frozen tissue. This work will contribute to build tissue biobanks with well-defined cohorts of the respective kidney disease that can be deeply molecularly characterized, opening up new horizons for the identification of unique cells, pathways and biomarkers for the prevention, early identification, and targeted therapy of kidney diseases.NEW & NOTEWORTHY In this study, we addressed challenges in integrating clinically obtained kidney biopsies into everyday clinical routines. Using porcine kidneys, we evaluated preservation media (RNAlater and CellCover) versus snap freezing for multi-omics processing. Our analyses highlighted RNAlater's suitability for single-nucleus RNA sequencing, proteome analysis and histopathological evaluation. Only metabolomics are currently restricted to snap-frozen biopsies. Our research established a cryopreservation protocol that facilitates tissue biobanking for advancing precision medicine in nephrology.

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