生发中心缺氧增强免疫球蛋白类别转换重组。

Germinal Center Hypoxia Potentiates Immunoglobulin Class Switch Recombination.

作者信息

Abbott Robert K, Thayer Molly, Labuda Jasmine, Silva Murillo, Philbrook Phaethon, Cain Derek W, Kojima Hidefumi, Hatfield Stephen, Sethumadhavan Shalini, Ohta Akio, Reinherz Ellis L, Kelsoe Garnett, Sitkovsky Michail

机构信息

New England Inflammation and Tissue Protection Institute, Northeastern University, Boston, MA 02115;

New England Inflammation and Tissue Protection Institute, Northeastern University, Boston, MA 02115.

出版信息

J Immunol. 2016 Nov 15;197(10):4014-4020. doi: 10.4049/jimmunol.1601401. Epub 2016 Oct 19.

DOI:10.4049/jimmunol.1601401

PMID:27798169

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5123804/

Abstract

Germinal centers (GCs) are anatomic sites where B cells undergo secondary diversification to produce high-affinity, class-switched Abs. We hypothesized that proliferating B cells in GCs create a hypoxic microenvironment that governs their further differentiation. Using molecular markers, we found GCs to be predominantly hypoxic. Compared to normoxia (21% O), hypoxic culture conditions (1% O) in vitro accelerated class switching and plasma cell formation and enhanced expression of GL-7 on B and CD4 T cells. Reversal of GC hypoxia in vivo by breathing 60% O during immunization resulted in reduced frequencies of GC B cells, T follicular helper cells, and plasmacytes, as well as lower expression of ICOS on T follicular helper cells. Importantly, this reversal of GC hypoxia decreased Ag-specific serum IgG1 and reduced the frequency of IgG1 B cells within the Ag-specific GC. Taken together, these observations reveal a critical role for hypoxia in GC B cell differentiation.

摘要

生发中心（GCs）是B细胞进行二次多样化以产生高亲和力、类别转换抗体的解剖部位。我们假设，生发中心中增殖的B细胞会创造一个低氧微环境来控制其进一步分化。使用分子标记，我们发现生发中心主要处于低氧状态。与常氧（21%氧气）相比，体外低氧培养条件（1%氧气）加速了类别转换和浆细胞形成，并增强了B细胞和CD4 T细胞上GL-7的表达。在免疫期间通过呼吸60%氧气来逆转体内生发中心的低氧状态，导致生发中心B细胞、滤泡辅助性T细胞和浆细胞的频率降低，以及滤泡辅助性T细胞上ICOS的表达降低。重要的是，这种生发中心低氧状态的逆转降低了抗原特异性血清IgG1，并降低了抗原特异性生发中心内IgG1 B细胞的频率。综上所述，这些观察结果揭示了低氧在生发中心B细胞分化中的关键作用。

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