1. Circadian control of innate immunity in macrophages by miR-155 targeting Bmal1
- Author
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Chenyi Xue, Hanrui Zhang, Anne M. Curtis, Niamh Foley, Paulina Wochal, Luke A. J. O'Neill, Elena Vigorito, Anne F. McGettrick, Sarah S. Geiger, Lihong Chen, Andrew N. Coogan, Karsten Hokamp, Muredach P. Reilly, Caio T. Fagundes, Guangrui Yang, Garret A. FitzGerald, Eva M. Palsson-McDermott, and James O. Early
- Subjects
endocrine system ,Myeloid ,medicine.medical_treatment ,Circadian clock ,Inflammation ,Biology ,Proinflammatory cytokine ,miR-155 ,Mice ,medicine ,Animals ,Psychology ,Circadian rhythm ,3' Untranslated Regions ,Mice, Knockout ,Multidisciplinary ,Innate immune system ,Macrophages ,NF-kappa B ,ARNTL Transcription Factors ,Biological Sciences ,Immunity, Innate ,Circadian Rhythm ,MicroRNAs ,medicine.anatomical_structure ,Cytokine ,Adipose Tissue ,Immunology ,Cytokines ,medicine.symptom - Abstract
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.
- Published
- 2015