Circadian control of innate immunity in macrophages by miR-155 targeting Bmal1

Annie M. Curtis; Caio T. Fagundes; Guangrui Yang; Eva M. Pålsson‐McDermott; Paulina Wochal; Anne F. McGettrick; Niamh H. Foley; James O. Early; Lihong Chen; Hanrui Zhang; Chenyi Xue; Sarah S. Geiger; Karsten Hokamp; Muredach P. Reilly; Andrew N. Coogan; Elena Vigorito; Garret A. FitzGerald; Luke O'neill

doi:10.1073/pnas.1501327112

Circadian control of innate immunity in macrophages by miR-155 targeting Bmal1

Proceedings of the National Academy of Sciences 112(23): 7231-7236

Article 2015 English

Abstract

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The response to an innate immune challenge is conditioned by the time of day, but the molecular basis for this remains unclear. In myeloid cells, there is a temporal regulation to induction by lipopolysaccharide (LPS) of the proinflammatory microRNA miR-155 that correlates inversely with levels of BMAL1. BMAL1 in the myeloid lineage inhibits activation of NF-κB and miR-155 induction and protects mice from LPS-induced sepsis. Bmal1 has two miR-155-binding sites in its 3'-UTR, and, in response to LPS, miR-155 binds to these two target sites, leading to suppression of Bmal1 mRNA and protein in mice and humans. miR-155 deletion perturbs circadian function, gives rise to a shorter circadian day, and ablates the circadian effect on cytokine responses to LPS. Thus, the molecular clock controls miR-155 induction that can repress BMAL1 directly. This leads to an innate immune response that is variably responsive to challenges across the circadian day.

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Circadian control of innate immunity in macrophages by miR-155 targeting <i>Bmal1</i>

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