PURPOSE: Circadian rhythms play an important role in modulating cellular immune responses. The present study was performed to characterise circadian variations in lymphocyte numbers and antigen-specific T-cell functionality in healthy individuals under physiological conditions. METHODS: Blood leukocyte populations of six healthy volunteers were quantified over 24 h. In addition, antigen-specific T-cell functionality was analysed directly ex vivo from whole blood using flow cytometry based on intracellular cytokine induction after a 6-hour stimulation with adenovirus antigen and Staphylococcus aureus enterotoxin B (SEB), respectively. RESULTS: T-cell numbers and reactivity were stable during daytime, whereas a significant increase was observed during late evening and early morning hours. The percentage of T cells reacting towards adenovirus antigen and SEB showed a 1.76 ± 0.55-fold (p = 0.0002) and a 1.42 ± 0.33-fold (p = 0.0002) increase, respectively. Dynamics in T-cell reactivity were independent of the mode of antigen stimulation and inversely correlated with plasma levels of endogenous cortisol. Interestingly, peak frequencies of reactive T cells occurred late in the evening and did not directly coincide with peak numbers of bulk T cells that were observed in the early morning hours. CONCLUSIONS: Taken together, our data reveal a circadian regulation of T-cell immune responses in the peripheral blood of humans under physiological conditions. This knowledge may be of practical consequence for the timing of blood sampling for functional T-cell assays as well as for immunosuppressive drug intake after organ transplantation, where T-cell function may be influenced not only by drug-mediated inhibition but also by circadian fluctuations in T-cell reactivity.
PURPOSE: Circadian rhythms play an important role in modulating cellular immune responses. The present study was performed to characterise circadian variations in lymphocyte numbers and antigen-specific T-cell functionality in healthy individuals under physiological conditions. METHODS: Blood leukocyte populations of six healthy volunteers were quantified over 24 h. In addition, antigen-specific T-cell functionality was analysed directly ex vivo from whole blood using flow cytometry based on intracellular cytokine induction after a 6-hour stimulation with adenovirus antigen and Staphylococcus aureus enterotoxin B (SEB), respectively. RESULTS: T-cell numbers and reactivity were stable during daytime, whereas a significant increase was observed during late evening and early morning hours. The percentage of T cells reacting towards adenovirus antigen and SEB showed a 1.76 ± 0.55-fold (p = 0.0002) and a 1.42 ± 0.33-fold (p = 0.0002) increase, respectively. Dynamics in T-cell reactivity were independent of the mode of antigen stimulation and inversely correlated with plasma levels of endogenous cortisol. Interestingly, peak frequencies of reactive T cells occurred late in the evening and did not directly coincide with peak numbers of bulk T cells that were observed in the early morning hours. CONCLUSIONS: Taken together, our data reveal a circadian regulation of T-cell immune responses in the peripheral blood of humans under physiological conditions. This knowledge may be of practical consequence for the timing of blood sampling for functional T-cell assays as well as for immunosuppressive drug intake after organ transplantation, where T-cell function may be influenced not only by drug-mediated inhibition but also by circadian fluctuations in T-cell reactivity.
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