连续的早期感染改变了衰老雌性小鼠的外周血转录组学,但对流感病毒或结核分枝杆菌的De Novo感染没有反应。

Kathleen G Lanzer, Tres Cookenham, Elin Lehrmann, Yongqing Zhang, Debbie Duso, Qingqing Xie, William W Reiley, Kevin G Becker, Marcia A Blackman
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引用次数: 0

摘要

为了确定积累Ag暴露对衰老小鼠免疫的影响,并开发一种与生活中暴露于多种病原体的人类更相关的模型,我们每隔8周用四种不同的病原体依次感染年轻雌性小鼠:小鼠γ-疱疹病毒68、仙台病毒、鼠CMV和螺旋体样多基因病毒。模拟感染小鼠接受PBS。在特定的无病原体条件下,将顺序感染和模拟感染的小鼠衰老至18-25个月后,我们分析了多种免疫参数。我们评估了外周血中的转录活性、T细胞表型、CD8 T细胞识别的流感表位的多样性,以及动物对感染流感病毒和结核分枝杆菌的反应。我们的数据显示,在顺序感染的老年小鼠中,转录激活增强,一些CD8 T细胞亚群发生变化。然而,模拟感染和顺序感染的老年小鼠在18-21个月时对流感病毒或结核分枝杆菌的新感染的反应没有可测量的差异。出乎意料的是,用流感病毒攻击25个月大的雌性小鼠的单个实验显示,顺序感染(80%)的小鼠的存活率显著高于模拟感染(20%)的小鼠。这些数据表明,尽管在小鼠模型中暴露于各种病原体挑战不会对老年雌性小鼠在新发呼吸道感染后的免疫细胞标志物产生明显影响,但在其他区域或随着年龄的增长,可能会出现细微的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sequential Early-Life Infections Alter Peripheral Blood Transcriptomics in Aging Female Mice but Not the Response to De Novo Infection with Influenza Virus or M. tuberculosis.

Sequential Early-Life Infections Alter Peripheral Blood Transcriptomics in Aging Female Mice but Not the Response to De Novo Infection with Influenza Virus or M. tuberculosis.

Sequential Early-Life Infections Alter Peripheral Blood Transcriptomics in Aging Female Mice but Not the Response to De Novo Infection with Influenza Virus or M. tuberculosis.

Sequential Early-Life Infections Alter Peripheral Blood Transcriptomics in Aging Female Mice but Not the Response to De Novo Infection with Influenza Virus or M. tuberculosis.

To determine the impact of accumulating Ag exposure on immunity in the aging mouse, and to develop a model more relevant to humans who are exposed to multiple pathogens during life, we sequentially infected young female mice with four distinct pathogens at 8-wk intervals: murine γ-herpesvirus 68, Sendai virus, murine CMV, and Heligmosomoides polygyrus. Mock-infected mice received PBS. After aging the sequentially infected and mock-infected mice to 18-25 mo under specific pathogen-free conditions, we analyzed multiple immune parameters. We assessed transcriptional activity in peripheral blood, T cell phenotype, the diversity of influenza epitopes recognized by CD8 T cells, and the response of the animals to infection with influenza virus and Mycobacterium tuberculosis. Our data show enhanced transcriptional activation in sequentially infected aged mice, with changes in some CD8 T cell subsets. However, there was no measurable difference in the response of mock-infected and sequentially infected aged mice to de novo infection with either influenza virus or M. tuberculosis at 18-21 mo. Unexpectedly, a single experiment in which 25-mo-old female mice were challenged with influenza virus revealed a significantly higher survival rate for sequentially infected (80%) versus mock-infected (20%) mice. These data suggest that although exposure to a variety of pathogen challenges in the mouse model does not overtly impact cellular markers of immunity in aged female mice following de novo respiratory infection, subtle changes may emerge in other compartments or with increasing age.

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