![Figure 7. Synopsis. Numbers of circulating T cell subpopulations show opposing rhythms with a nighttime peak (represented by naive CD4+ T cells; red cosine curve) or daytime peak (effector CD8+ T cells; blue cosine curve). Circadian rhythms peaking at night are controlled through the release of cortisol, which strongly increases during the early hours of daytime and via GR activation (with a delay of 3 hours) redistributes T cells from the circulation to bone marrow. Rhythms peaking during daytime are controlled by release of catecholamines, which is increased during daytime, and via β-AR activation leads to an immediate demargination of the cells from the vascular endothelium. Cortisol-sensitive T cells are characterized by high CXCR4 expression, whereas epinephrine-sensitive cells show highest CX3CR1 expression. The 2 chemokine receptors mark 2 distinct T cell populations with only few double-positive cells (conture plots for CXCR4 and CX3CR1 expression on CD4+ [top] and CD8+ T cells [bottom]). CXCR4 mediates homing of T cells to bone marrow with cortisol supporting this traffic by up-regulating CXCR4. Available data on CX3CR1 tempt to speculate that this molecule facilitates margination of T cells to vascular endothelium, with epinephrine inducing demargination by suppressing adhesive fractalkine signaling.](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/113/21/10.1182_blood-2008-11-190769/6/zh89990935940007.jpeg?Expires=1722705357&Signature=jRiPgn5~c2Q4z1hJNhGWVOq74GBXBUN6vHbZ9WAOeJVhQUSVHrqtAIk-7VhqlYBC9iK9e13Iv-ErJbkhoGa62S1dH~DefyY9nHf2BWFzAjQCeRyhyk4wnBxYD88J9pOCjGw12f3Em0XQ95CyZYLSOLLcEsSfRIAzhabZOSzC24gLqecomXQW3DC79E5Xdk-BWRmgNG-DmpS5mqzHWOtLsEUyoiWgEixGzmpi775z6eIsZnF4h3jl0wNqBWm~qMvB6~CV3Sqxw4yH064ID49aFsTgCSYb1-WoA8wFrxA~5FMwZ2jFcSLCe5QSq7PIUl3SAUw6GjD1F2ANqHmtmaesZQ__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
Synopsis. Numbers of circulating T cell subpopulations show opposing rhythms with a nighttime peak (represented by naive CD4+ T cells; red cosine curve) or daytime peak (effector CD8+ T cells; blue cosine curve). Circadian rhythms peaking at night are controlled through the release of cortisol, which strongly increases during the early hours of daytime and via GR activation (with a delay of 3 hours) redistributes T cells from the circulation to bone marrow. Rhythms peaking during daytime are controlled by release of catecholamines, which is increased during daytime, and via β-AR activation leads to an immediate demargination of the cells from the vascular endothelium. Cortisol-sensitive T cells are characterized by high CXCR4 expression, whereas epinephrine-sensitive cells show highest CX3CR1 expression. The 2 chemokine receptors mark 2 distinct T cell populations with only few double-positive cells (conture plots for CXCR4 and CX3CR1 expression on CD4+ [top] and CD8+ T cells [bottom]). CXCR4 mediates homing of T cells to bone marrow with cortisol supporting this traffic by up-regulating CXCR4. Available data on CX3CR1 tempt to speculate that this molecule facilitates margination of T cells to vascular endothelium, with epinephrine inducing demargination by suppressing adhesive fractalkine signaling.
