Pulmonary Center.
Department of Microbiology.
J Clin Invest. 2021 Jun 1;131(11). doi: 10.1172/JCI141810.
Lung-resident memory B cells (BRM cells) are elicited after influenza infections of mice, but connections to other pathogens and hosts - as well as their functional significance - have yet to be determined. We postulate that BRM cells are core components of lung immunity. To test this, we examined whether lung BRM cells are elicited by the respiratory pathogen pneumococcus, are present in humans, and are important in pneumonia defense. Lungs of mice that had recovered from pneumococcal infections did not contain organized tertiary lymphoid organs, but did have plasma cells and noncirculating memory B cells. The latter expressed distinctive surface markers (including CD69, PD-L2, CD80, and CD73) and were poised to secrete antibodies upon stimulation. Human lungs also contained B cells with a resident memory phenotype. In mice recovered from pneumococcal pneumonia, depletion of PD-L2+ B cells, including lung BRM cells, diminished bacterial clearance and the level of pneumococcus-reactive antibodies in the lung. These data define lung BRM cells as a common feature of pathogen-experienced lungs and provide direct evidence of a role for these cells in pulmonary antibacterial immunity.
肺部固有记忆 B 细胞(BRM 细胞)在小鼠流感感染后被诱导产生,但与其他病原体和宿主的联系以及它们的功能意义尚未确定。我们假设 BRM 细胞是肺部免疫的核心组成部分。为了验证这一点,我们研究了呼吸道病原体肺炎球菌是否能诱导肺部 BRM 细胞产生,以及它们是否存在于人体中,以及它们在肺炎防御中的重要性。从肺炎球菌感染中恢复的小鼠肺部没有形成有组织的三级淋巴器官,但有浆细胞和非循环记忆 B 细胞。后者表达独特的表面标记物(包括 CD69、PD-L2、CD80 和 CD73),并在受到刺激时准备好分泌抗体。人体肺部也含有具有驻留记忆表型的 B 细胞。在从肺炎球菌肺炎中恢复的小鼠中,耗尽 PD-L2+B 细胞,包括肺部 BRM 细胞,会降低肺部细菌清除率和肺炎球菌反应性抗体的水平。这些数据将肺部 BRM 细胞定义为有经验病原体肺部的共同特征,并提供了这些细胞在肺部抗菌免疫中的作用的直接证据。
