An inducible Cldn11-CreERT2 mouse line for selective targeting of lymphatic valves.

Luminal valves of collecting lymphatic vessels are critical for maintaining unidirectional flow of lymph and their dysfunction underlies several forms of primary lymphedema. Here, we report on the generation of a transgenic mouse expressing the tamoxifen inducible CreERT2 under the control of Cldn11 promoter that allows, for the first time, selective and temporally controlled targeting of lymphatic valve endothelial cells. We show that within the vasculature CLDN11 is specifically expressed in lymphatic valves but is not required for their development as mice with a global loss of Cldn11 display normal valves in the mesentery. Tamoxifen treated Cldn11-CreERT2 mice also carrying a fluorescent Cre-reporter displayed reporter protein expression selectively in lymphatic valves and, to a lower degree, in venous valves. Analysis of developing vasculature further showed that Cldn11-CreERT2 -mediated recombination is induced during valve leaflet formation, and efficient labeling of valve endothelial cells was observed in mature valves. The Cldn11-CreERT2 mouse thus provides a valuable tool for functional studies of valves.

Transcription factor FOXP2 is a flow-induced regulator of collecting lymphatic vessels.

The lymphatic system is composed of a hierarchical network of fluid absorbing lymphatic capillaries and transporting collecting vessels. Despite distinct functions and morphologies, molecular mechanisms that regulate the identity of the different vessel types are poorly understood. Through transcriptional analysis of murine dermal lymphatic endothelial cells (LECs), we identified Foxp2, a member of the FOXP family of transcription factors implicated in speech development, as a collecting vessel signature gene. FOXP2 expression was induced after initiation of lymph flow in vivo and upon shear stress on primary LECs in vitro. Loss of FOXC2, the major flow-responsive transcriptional regulator of lymphatic valve formation, abolished FOXP2 induction in vitro and in vivo. Genetic deletion of Foxp2 in mice using the endothelial-specific Tie2-Cre or the tamoxifen-inducible LEC-specific Prox1-CreERT2 line resulted in enlarged collecting vessels and defective valves characterized by loss of NFATc1 activity. Our results identify FOXP2 as a new flow-induced transcriptional regulator of collecting lymphatic vessel morphogenesis and highlight the existence of unique transcription factor codes in the establishment of vessel-type-specific endothelial cell identities.