Circadian clocks guide dendritic cells into skin lymphatics.

Migration of leukocytes from the skin to lymph nodes (LNs) via afferent lymphatic vessels (LVs) is pivotal for adaptive immune responses1,2. Circadian rhythms have emerged as important regulators of leukocyte trafficking to LNs via the blood3,4. Here, we demonstrate that dendritic cells (DCs) have a circadian migration pattern into LVs, which peaks during the rest phase in mice. This migration pattern is determined by rhythmic gradients in the expression of the chemokine CCL21 and of adhesion molecules in both mice and humans. Chronopharmacological targeting of the involved factors abrogates circadian migration of DCs. We identify cell-intrinsic circadian oscillations in skin lymphatic endothelial cells (LECs) and DCs that cogovern these rhythms, as their genetic disruption in either cell type ablates circadian trafficking. These observations indicate that circadian clocks control the infiltration of DCs into skin lymphatics, a process that is essential for many adaptive immune responses and relevant for vaccination and immunotherapies.

Ubiquitination of VE-cadherin regulates inflammation-induced vascular permeability in vivo.

VE-cadherin is a major component of the cell adhesion machinery which provides integrity and plasticity of the barrier function of endothelial junctions. Here, we analyze whether ubiquitination of VE-cadherin is involved in the regulation of the endothelial barrier in inflammation in vivo. We show that histamine and thrombin stimulate ubiquitination of VE-cadherin in HUVEC, which is completely blocked if the two lysine residues K626 and K633 are replaced by arginine. Similarly, these mutations block histamine-induced endocytosis of VE-cadherin. We describe two knock-in mouse lines with endogenous VE-cadherin being replaced by either a VE-cadherin K626/633R or a VE-cadherin KallR mutant, where all seven lysine residues are mutated. Mutant mice are viable, healthy and fertile with normal expression levels of junctional VE-cadherin. Histamine- or LPS-induced vascular permeability in the skin or lung of both of these mutant mice are clearly and similarly reduced in comparison to WT mice. Additionally, we detect a role of K626/633 for lysosomal targeting. Collectively, our findings identify ubiquitination of VE-cadherin as important for the induction of vascular permeability in the inflamed skin and lung.