体内浆细胞的遗传标记揭示了组织特异性的稳态群体更替。

Genetic timestamping of plasma cells in vivo reveals tissue-specific homeostatic population turnover.

机构信息

Immunity and Cancer, The Francis Crick Institute, London, United Kingdom.

Peter Gorer Department of Immunobiology, School of Immunology & Microbial Sciences, King's College London, London, United Kingdom.

出版信息

Elife. 2020 Nov 2;9:e59850. doi: 10.7554/eLife.59850.

DOI:10.7554/eLife.59850

PMID:33136000

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7682985/

Abstract

Plasma cells (PCs) are essential for protection from infection, and at the origin of incurable cancers. Current studies do not circumvent the limitations of removing PCs from their microenvironment and confound formation and maintenance. Also, the investigation of PC population dynamics has mostly relied on nucleotide analog incorporation that does not label quiescent cells, a property of most PCs. The main impediment is the lack of tools to perform specific genetic manipulation in vivo. Here we characterize a genetic tool (Jchain) in the mouse that permits first-ever specific genetic manipulation in PCs in vivo, across immunoglobulin isotypes. Using this tool, we found that splenic and bone marrow PC numbers remained constant over-time with the decay in genetically labeled PCs being compensated by unlabeled PCs, supporting homeostatic population turnover in these tissues. The Jchain tool paves the way for an in-depth mechanistic understanding of PC biology and pathology in vivo, in their microenvironment.

摘要

浆细胞（PCs）对于防止感染至关重要，也是无法治愈的癌症的起源。目前的研究无法克服从其微环境中去除 PCs 并混淆形成和维持的局限性。此外，PC 群体动态的研究主要依赖于核苷酸类似物掺入，而核苷酸类似物不能标记静止细胞，大多数 PCs 都具有这种特性。主要障碍是缺乏在体内进行特定遗传操作的工具。在这里，我们在小鼠中描述了一种遗传工具（Jchain），该工具首次允许在体内对各种免疫球蛋白同种型的 PCs 进行特异性遗传操作。使用该工具，我们发现脾脏和骨髓中的 PC 数量随着时间的推移保持不变，而经遗传标记的 PCs 的衰减被未标记的 PCs 所补偿，这支持了这些组织中同源种群的更替。Jchain 工具为深入了解 PCs 在体内及其微环境中的生物学和病理学机制铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff96/7682985/ca36909eac26/elife-59850-fig1.jpg

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体内浆细胞的遗传标记揭示了组织特异性的稳态群体更替。

Genetic timestamping of plasma cells in vivo reveals tissue-specific homeostatic population turnover.

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