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人类外周浆细胞亚群的差异转录组与发育。

Differential transcriptome and development of human peripheral plasma cell subsets.

机构信息

School of Biological Sciences, Georgia Institute of Technology, and.

Division of Pulmonary, Allergy, Critical Care, and Sleep Medicine, Emory University, Department of Medicine, Atlanta, Georgia, USA.

出版信息

JCI Insight. 2019 May 2;4(9). doi: 10.1172/jci.insight.126732.

DOI:10.1172/jci.insight.126732
PMID:31045577
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6538338/
Abstract

Human antibody-secreting cells (ASCs) triggered by immunization are globally recognized as CD19loCD38hiCD27hi. Yet, different vaccines give rise to antibody responses of different longevity, suggesting ASC populations are heterogeneous. We define circulating-ASC heterogeneity in vaccine responses using multicolor flow cytometry, morphology, VH repertoire, and RNA transcriptome analysis. We also tested differential survival using a human cell-free system that mimics the bone marrow (BM) microniche. In peripheral blood, we identified 3 CD19+ and 2 CD19- ASC subsets. All subsets contributed to the vaccine-specific responses and were characterized by in vivo proliferation and activation. The VH repertoire demonstrated strong oligoclonality with extensive interconnectivity among the 5 subsets and switched memory B cells. Transcriptome analysis showed separation of CD19+ and CD19- subsets that included pathways such as cell cycle, hypoxia, TNF-α, and unfolded protein response. They also demonstrated similar long-term in vitro survival after 48 days. In summary, vaccine-induced ASCs with different surface markers (CD19 and CD138) are derived from shared proliferative precursors yet express distinctive transcriptomes. Equal survival indicates that all ASC compartments are endowed with long-lived potential. Accordingly, in vivo survival of peripheral long-lived plasma cells may be determined in part by their homing and residence in the BM microniche.

摘要

人类免疫接种引发的抗体分泌细胞(ASCs)被全球公认为 CD19loCD38hiCD27hi。然而,不同的疫苗会引发不同持续时间的抗体反应,这表明 ASC 群体是异质的。我们使用多色流式细胞术、形态学、VH 库和 RNA 转录组分析来定义疫苗反应中的循环 ASC 异质性。我们还使用模拟骨髓(BM)微环境的人类无细胞系统测试了差异存活。在外周血中,我们鉴定出 3 种 CD19+和 2 种 CD19-ASC 亚群。所有亚群都有助于疫苗特异性反应,并通过体内增殖和激活来表征。VH 库表现出强烈的寡克隆性,5 个亚群之间存在广泛的相互连接,并发生了记忆 B 细胞转换。转录组分析显示 CD19+和 CD19-亚群的分离,包括细胞周期、缺氧、TNF-α 和未折叠蛋白反应等途径。它们在 48 天后也表现出相似的长期体外存活。总之,具有不同表面标志物(CD19 和 CD138)的疫苗诱导的 ASC 来源于共享的增殖前体,但表达独特的转录组。相等的存活表明所有 ASC 区室都具有长寿的潜力。因此,外周长寿浆细胞的体内存活可能部分取决于它们在 BM 微环境中的归巢和居留。

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