TNF activates an IRF1-dependent autocrine loop leading to sustained expression of chemokines and STAT1-dependent type I interferon–response genes

A Yarilina, KH Park-Min, T Antoniv, X Hu… - Nature …, 2008 - nature.com
A Yarilina, KH Park-Min, T Antoniv, X Hu, LB Ivashkiv
Nature immunology, 2008nature.com
Rapid induction of inflammatory genes by tumor necrosis factor (TNF) has been well studied,
but little is known about delayed and chronic TNF responses. Here we investigated the
kinetics of primary macrophage responses to TNF and discovered that TNF initiates an
interferon-β-mediated autocrine loop that sustains expression of inflammatory genes and
induces delayed expression of interferon-response genes such as those encoding the
transcription factors STAT1 and IRF7, which enhance macrophage responses to stimulation …
Abstract
Rapid induction of inflammatory genes by tumor necrosis factor (TNF) has been well studied, but little is known about delayed and chronic TNF responses. Here we investigated the kinetics of primary macrophage responses to TNF and discovered that TNF initiates an interferon-β-mediated autocrine loop that sustains expression of inflammatory genes and induces delayed expression of interferon-response genes such as those encoding the transcription factors STAT1 and IRF7, which enhance macrophage responses to stimulation of cytokines and Toll-like receptors. TNF-induced interferon-β production depended on interferon-response factor 1, and downstream gene expression was mediated by synergy between small amounts of interferon-β and canonical TNF-induced signals. Thus, TNF activates a 'feed-forward' loop that sustains inflammation but avoids the potential toxicity associated with the high interferon production induced by stimulation of Toll-like receptors.
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