James O. Early scite author profile

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.inflammation | sepsis | circadian clock | miR-155 | Bmal1

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Circadian clock protein BMAL1 regulates IL-1β in macrophages via NRF2

Early

Menon

Wyse

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

269

219

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SignificanceThe molecular clock provides an anticipatory mechanism, allowing organisms to prepare and respond to daily changes in the external environment. The response of the innate immune system to pathogenic threats is dependent on time of day; however, the molecular mechanisms underlying this have yet to be fully uncovered. We observe that the core molecular clock component, BMAL1, is crucial in promoting an antioxidant response in myeloid cells. Deletion of Bmal1 in macrophages disrupts NRF2 activity, facilitating accumulation of reactive oxygen species and the proinflammatory cytokine, IL-1β. Thus the molecular clock directly controls NRF2 transcriptional activity and antioxidant capacity to regulate IL-1β in myeloid cells.

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Loss of the molecular clock in myeloid cells exacerbates T cell-mediated CNS autoimmune disease

et al. 2017

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The transcription factor BMAL1 is a core component of the molecular clock, regulating biological pathways that drive 24 h (circadian) rhythms in behaviour and physiology. The molecular clock has a profound influence on innate immune function, and circadian disruption is linked with increased incidence of multiple sclerosis (MS). However, the mechanisms underlying this association are unknown. Here we show that BMAL1 and time-of-day regulate the accumulation and activation of various immune cells in a CNS autoimmune disease model, experimental autoimmune encephalomyelitis (EAE). In myeloid cells, BMAL1 maintains anti-inflammatory responses and reduces T cell polarization. Loss of myeloid BMAL1 or midday immunizations to induce EAE create an inflammatory environment in the CNS through expansion and infiltration of IL-1β-secreting CD11b+Ly6Chi monocytes, resulting in increased pathogenic IL-17+/IFN-γ+ T cells. These findings demonstrate the importance of the molecular clock in modulating innate and adaptive immune crosstalk under autoimmune conditions.

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Immunometabolism: Is it under the eye of the clock?

Early

Curtis

2016

Seminars in Immunology

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James O. Early

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

Circadian clock protein BMAL1 regulates IL-1β in macrophages via NRF2

Loss of the molecular clock in myeloid cells exacerbates T cell-mediated CNS autoimmune disease

Immunometabolism: Is it under the eye of the clock?

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