Microheterogeneity in the Kinetics and Sex-Specific Response to Type I IFN

生物 免疫系统 电池类型 人口 同种类的 免疫学 基因 干扰素 细胞 刺激 单细胞分析 基因表达 抗原 细胞生物学 遗传学 内分泌学 医学 物理 环境卫生 热力学
作者
Shani T. Gal-Oz,Alev Baysoy,Brinda Vijaykumar,Sara Mostafavi,Christophe Benoist,Tal Shay
出处
期刊:Journal of Immunology [American Association of Immunologists]
卷期号:213 (1): 96-104
标识
DOI:10.4049/jimmunol.2300453
摘要

Abstract The response to type I IFNs involves the rapid induction of prototypical IFN signature genes (ISGs). It is not known whether the tightly controlled ISG expression observed at the cell population level correctly represents the coherent responses of individual cells or whether it masks some heterogeneity in gene modules and/or responding cells. We performed a time-resolved single-cell analysis of the first 3 h after in vivo IFN stimulation in macrophages and CD4+ T and B lymphocytes from mice. All ISGs were generally induced in concert, with no clear cluster of faster- or slower-responding ISGs. Response kinetics differed between cell types: mostly homogeneous for macrophages, but with far more kinetic diversity among B and T lymphocytes, which included a distinct subset of nonresponsive cells. Velocity analysis confirmed the differences between macrophages in which the response progressed throughout the full 3 h, versus B and T lymphocytes in which it was rapidly curtailed by negative feedback and revealed differences in transcription rates between the lineages. In all cell types, female cells responded faster than their male counterparts. The ISG response thus seems to proceed as a homogeneous gene block, but with kinetics that vary between immune cell types and with sex differences that might underlie differential outcomes of viral infections.

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