Abstract
The interaction of C-type lectin receptor 2 (CLEC-2) on platelets with Podoplanin on lymphatic endothelial cells initiates platelet signaling events that are necessary for prevention of blood-lymph mixing during development. In the present study, we show that CLEC-2 signaling via Src family and Syk tyrosine kinases promotes platelet adhesion to primary mouse lymphatic endothelial cells at low shear. Using supported lipid bilayers containing mobile Podoplanin, we further show that activation of Src and Syk in platelets promotes clustering of CLEC-2 and Podoplanin. Clusters of CLEC-2-bound Podoplanin migrate rapidly to the center of the platelet to form a single structure. Fluorescence lifetime imaging demonstrates that molecules within these clusters are within 10 nm of one another and that the clusters are disrupted by inhibition of Src and Syk family kinases. CLEC-2 clusters are also seen in platelets adhered to immobilized Podoplanin using direct stochastic optical reconstruction microscopy. These findings provide mechanistic insight by which CLEC-2 signaling promotes adhesion to Podoplanin and regulation of Podoplanin signaling, thereby contributing to lymphatic vasculature development.
Highlights
The interaction of platelet CLEC-2 with Podoplanin is critical for development of the lymphatics
The interaction of C-type lectin receptor 2 (CLEC-2) on platelets with Podoplanin on lymphatic endothelial cells initiates platelet signaling events that are necessary for prevention of blood-lymph mixing during development
We show that CLEC-2 signaling via Src family and Syk tyrosine kinases promotes platelet adhesion to primary mouse lymphatic endothelial cells at low shear
Summary
Clustering regulates the interaction of platelets with lymphatic endothelial cells. Significance: These findings account for the similar lymphatic phenotype of CLEC-2- and Syk-deficient mice. We show that CLEC-2 signaling via Src family and Syk tyrosine kinases promotes platelet adhesion to primary mouse lymphatic endothelial cells at low shear. Megakaryocyte/platelet-specific deletion of the CLEC-2 signaling proteins, Syk and SLP-76, results in blood-lymphatic mixing and brain hemorrhaging [17, 21, 24] These observations indicate that the direct interaction of CLEC-2 with Podoplanin and the initiation of platelet signaling are critical for normal development. We show that adhesion of platelets to primary mouse LECs at low shear is regulated by Src family and Syk tyrosine kinases These findings provide a mechanism for the stable adhesion of platelets to Podoplanin-expressing cells and the regulation of Podoplanin signaling, which likely contributes to the requirement for CLEC-2 signaling in development of the lymphatic system
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