Type I IFNs and TNF cooperatively reprogram the macrophage epigenome to promote inflammatory activation
Cross-regulation of Toll-like receptor responses by cytokines is essential for effective host defense, avoidance of toxicity, and homeostasis, but the underlying mechanisms are not well understood. A comprehensive epigenomic approach in human macrophages showed that the proinflammatory cytokines TNF...
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| Veröffentlicht in: | Nature immunology 2017-08, Vol.18 (10), p.1104-1116 |
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| container_end_page | 1116 |
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| container_issue | 10 |
| container_start_page | 1104 |
| container_title | Nature immunology |
| container_volume | 18 |
| creator | Park, Sung Ho Kang, Kyuho Giannopoulou, Eugenia Qiao, Yu Kang, Keunsoo Kim, Geonho Park-Min, Kyung-Hyun Ivashkiv, Lionel B. |
| description | Cross-regulation of Toll-like receptor responses by cytokines is
essential for effective host defense, avoidance of toxicity, and homeostasis,
but the underlying mechanisms are not well understood. A comprehensive
epigenomic approach in human macrophages showed that the proinflammatory
cytokines TNF and type I IFNs induce transcriptional cascades that alter
chromatin states to broadly reprogram TLR4-induced responses. TNF tolerized
inflammatory genes to prevent toxicity, while preserving antiviral and metabolic
gene induction. Type I IFNs potentiated TNF inflammatory function by priming
chromatin to prevent silencing of inflammatory NF-κB target genes.
Priming of chromatin enabled robust transcriptional responses to weak upstream
signals. Similar chromatin regulation occurred in human diseases. Our findings
reveal that signaling crosstalk between IFNs and TNF is integrated at the level
of chromatin to reprogram inflammatory responses, and identify new functions and
mechanisms of action of these cytokines. |
| doi_str_mv | 10.1038/ni.3818 |
| format | Article |
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essential for effective host defense, avoidance of toxicity, and homeostasis,
but the underlying mechanisms are not well understood. A comprehensive
epigenomic approach in human macrophages showed that the proinflammatory
cytokines TNF and type I IFNs induce transcriptional cascades that alter
chromatin states to broadly reprogram TLR4-induced responses. TNF tolerized
inflammatory genes to prevent toxicity, while preserving antiviral and metabolic
gene induction. Type I IFNs potentiated TNF inflammatory function by priming
chromatin to prevent silencing of inflammatory NF-κB target genes.
Priming of chromatin enabled robust transcriptional responses to weak upstream
signals. Similar chromatin regulation occurred in human diseases. Our findings
reveal that signaling crosstalk between IFNs and TNF is integrated at the level
of chromatin to reprogram inflammatory responses, and identify new functions and
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essential for effective host defense, avoidance of toxicity, and homeostasis,
but the underlying mechanisms are not well understood. A comprehensive
epigenomic approach in human macrophages showed that the proinflammatory
cytokines TNF and type I IFNs induce transcriptional cascades that alter
chromatin states to broadly reprogram TLR4-induced responses. TNF tolerized
inflammatory genes to prevent toxicity, while preserving antiviral and metabolic
gene induction. Type I IFNs potentiated TNF inflammatory function by priming
chromatin to prevent silencing of inflammatory NF-κB target genes.
Priming of chromatin enabled robust transcriptional responses to weak upstream
signals. Similar chromatin regulation occurred in human diseases. Our findings
reveal that signaling crosstalk between IFNs and TNF is integrated at the level
of chromatin to reprogram inflammatory responses, and identify new functions and
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essential for effective host defense, avoidance of toxicity, and homeostasis,
but the underlying mechanisms are not well understood. A comprehensive
epigenomic approach in human macrophages showed that the proinflammatory
cytokines TNF and type I IFNs induce transcriptional cascades that alter
chromatin states to broadly reprogram TLR4-induced responses. TNF tolerized
inflammatory genes to prevent toxicity, while preserving antiviral and metabolic
gene induction. Type I IFNs potentiated TNF inflammatory function by priming
chromatin to prevent silencing of inflammatory NF-κB target genes.
Priming of chromatin enabled robust transcriptional responses to weak upstream
signals. Similar chromatin regulation occurred in human diseases. Our findings
reveal that signaling crosstalk between IFNs and TNF is integrated at the level
of chromatin to reprogram inflammatory responses, and identify new functions and
mechanisms of action of these cytokines.</abstract><pmid>28825701</pmid><doi>10.1038/ni.3818</doi><oa>free_for_read</oa></addata></record> |
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| ispartof | Nature immunology, 2017-08, Vol.18 (10), p.1104-1116 |
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| language | eng |
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| source | Nature; Alma/SFX Local Collection |
| title | Type I IFNs and TNF cooperatively reprogram the macrophage epigenome to promote inflammatory activation |
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