基于膜组学的方法鉴定椎间盘细胞亚型的新型生物标志物。

A Membranome-Centered Approach Defines Novel Biomarkers for Cellular Subtypes in the Intervertebral Disc.

机构信息

Department of Orthopedic Surgery, Maastricht University Medical Centre, Maastricht, Netherlands.

Department of Molecular Genetics, Maastricht University Medical Centre, Maastricht, Netherlands.

出版信息

Cartilage. 2020 Apr;11(2):203-220. doi: 10.1177/1947603518764260. Epub 2018 Apr 9.

DOI:10.1177/1947603518764260

PMID:29629573

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7097986/

Abstract

OBJECTIVE

Lack of specific marker-sets prohibits definition and functional distinction of cellular subtypes in the intervertebral disc (IVD), such as those from the annulus fibrosus (AF) and the nucleus pulposus (NP).

DESIGN

We recently generated immortalized cell lines from human NP and AF tissues; these comprise a set of functionally distinct clonal subtypes. Whole transcriptome analyses were performed of 12 phenotypically distinct clonal cell lines (4× NP-Responder, 4× NP-nonResponder, 2× AF-Sheet forming, and 2× AF-nonSheet forming). Data sets were filtered for membrane-associated marker genes and compared to literature.

RESULTS

Comparison of our immortal cell lines to published primary NP, AF, and articular chondrocytes (AC) transcriptome datasets revealed preservation of AF and NP phenotypes. NP-specific membrane-associated genes were defined by comparison to AF cells in both the primary dataset (46 genes) and immortal cell-lines (161 genes). Definition of AF-specific membrane-associated genes yielded 125 primary AF cell and 92 immortal cell-line markers. Overlap between primary and immortal NP cells yielded high-confidence NP-specific marker genes for NP-R () and NP-nR (EFNA1, NETO2, SLC2A1). Overlap between AF and immortal AF subtypes yielded specific markers for AF-S () and AF-nS ().

CONCLUSIONS

The current study provides a reference platform for preclinical evaluation of novel membrane-associated cell type-specific markers in the IVD. Future research will focus on their biological relevance for IVD function in development, homeostasis, and degenerate conditions.

摘要

目的

缺乏特定的标志物集限制了椎间盘（IVD）中细胞亚型的定义和功能区分，例如纤维环（AF）和髓核（NP）的细胞。

设计

我们最近从人 NP 和 AF 组织中生成了永生化细胞系；这些细胞系包含一组功能不同的克隆亚型。对 12 种表型不同的克隆细胞系（4×NP-Responder、4×NP-nonResponder、2×AF-Sheet forming 和 2×AF-nonSheet forming）进行了全转录组分析。数据集经过膜相关标记基因过滤，并与文献进行比较。

结果

将我们的永生化细胞系与已发表的原发性 NP、AF 和关节软骨细胞（AC）转录组数据集进行比较，发现 AF 和 NP 表型得以保留。通过与原发性数据集（46 个基因）和永生化细胞系（161 个基因）中的 AF 细胞比较，定义了 NP 特异性的膜相关基因。定义 AF 特异性的膜相关基因产生了 125 个原发性 AF 细胞和 92 个永生化细胞系标记物。原发性和永生化 NP 细胞之间的重叠产生了高可信度的 NP-Responder （EFNA1、NETO2、SLC2A1）和 NP-nonResponder （）的 NP 特异性标记基因。AF 与永生化 AF 亚型之间的重叠产生了 AF-Sheet forming （）和 AF-nonSheet forming （）的特定标记物。

结论

本研究为 IVD 中新型膜相关细胞类型特异性标记物的临床前评估提供了参考平台。未来的研究将集中在它们对 IVD 在发育、稳态和退行性条件下的功能的生物学相关性上。

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