Activation of integrated stress response pathway regulates IL-1β production through posttranscriptional and translational reprogramming in macrophages

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Date
2019-02-01
Authors
Naz, Saima
Battu, Srikanth
Khan, Rafiq Ahmad
Afroz, Sumbul
Giddaluru, Jeevan
Vishwakarma, Sandeep Kumar
Satti, Vishnupriya
Habeeb, Md Aejaz
Khan, Aleem Ahmed
Khan, Nooruddin
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Abstract
Immune cells sense and programme its cellular machinery appropriately to the environmental changes through the activation of cytoprotective adaptive pathway so-called the “integrated stress response (ISR)”. However, the mechanisms implicated in ISR-induced protective responses are poorly understood. Here, we show that ISR activation by arsenite (Ar) results in suppression of IL-1β production in macrophages and inhibition of DSS-induced colitis in a murine model through a novel posttranscriptional and translation regulatory (PTR) mechanism. Ar triggers PTR events through eIF2α-phosphorylation, which results in the attenuation of active polysome formation leading to the accumulation of translationally stalled IL-1β mRNAs. Translationally stalled IL-1β mRNAs recruit RNA-binding proteins (TIA-1/TIAR), resulting in the formation of RBP-RNA complexes known as stress granules (SGs). The SGs bound IL-1β mRNAs might undergo degradation through induction of autophagy. Also, we show that Ar posttranslationally impairs processing and secretion of IL-1β by diminishing inflammasome activation. Altogether, this study unveils a novel mechanism of IL-1β regulation and further suggests that pharmacological activation of cytoprotective ISR pathway might provide an effective therapeutic intervention against inflammatory diseases.
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Keywords
arsenite, autophagy, integrated stress response (ISR) pathway, stress granules, TIA-1/TIAR
Citation
European Journal of Immunology. v.49(2)