Circadian rhythms refer to biologic processes that oscillate with a period of ∼24 hr. These rhythms are sustained by a molecular clock and provide a temporal matrix that ensures the coordination of homeostatic processes with the periodicity of environmental challenges. We demonstrate the circadian molecular clock controls the expression and function of Toll-like receptor 9 (TLR9). In a vaccination model using TLR9 ligand as adjuvant, mice immunized at the time of enhanced TLR9 responsiveness presented weeks later with an improved adaptive immune response. In a TLR9-dependent mouse model of sepsis, we found that disease severity was dependent on the timing of sepsis induction, coinciding with the daily changes in TLR9 expression and function. These findings unveil a direct molecular link between the circadian and innate immune systems with important implications for immunoprophylaxis and immunotherapy.
Highlights
► The circadian molecular clock modulates Tlr9 expression and function ► There are in vivo daily variations in the responsiveness to CpG ODNs (TLR9 ligand) ► The time of day determines disease severity in a TLR9-dependent sepsis model ► Timing of immunization determines TLR9 ligand-adjuvanted vaccine responsiveness
