1. Sequential conditioning-stimulation reveals distinct gene- and stimulus-specific effects of Type I and II IFN on human macrophage functions.
- Author
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Cheng, Quen, Behzadi, Faraz, Sen, Supriya, Ohta, Sho, Spreafico, Roberto, Teles, Rosane, Modlin, Robert L, and Hoffmann, Alexander
- Subjects
Cells ,Cultured ,Macrophages ,Humans ,Tumor Necrosis Factor-alpha ,Interferon Type I ,Interferon-beta ,Signal Transduction ,Principal Component Analysis ,Interferon-gamma ,High-Throughput Nucleotide Sequencing ,RNA-Seq ,Genetics ,Mental Health ,Human Genome ,Infectious Diseases ,1.1 Normal biological development and functioning ,2.1 Biological and endogenous factors ,Inflammatory and immune system - Abstract
Macrophages orchestrate immune responses by sensing and responding to pathogen-associated molecules. These responses are modulated by prior conditioning with cytokines such as interferons (IFNs). Type I and II IFN have opposing functions in many biological scenarios, yet macrophages directly stimulated with Type I or II IFN activate highly overlapping gene expression programs. We hypothesized that a sequential conditioning-stimulation approach would reveal with greater specificity the differential effects of Type I and II IFN on human macrophages. By first conditioning with IFN then stimulating with toll-like receptor ligands and cytokines, followed by genome-wide RNA-seq analysis, we identified 713 genes whose expression was unaffected by IFN alone but showed potentiated or diminished responses to a stimulus after conditioning. For example, responses to the cytokine TNF were restricted by Type II IFN conditioning but potentiated by Type I IFN conditioning. We observed that the effects of IFN were not uniformly pro- or anti-inflammatory, but highly gene-specific and stimulus-specific. By assessing expression levels of key signal transducers and characterizing chromatin accessibility by ATAC-seq, we identify the likely molecular mechanisms underlying Type I and Type II-specific effects, distinguishing between modulation of cytoplasmic signaling networks and the nuclear epigenome that synergistically regulate macrophage immune responses.
- Published
- 2019