Platelet Bone Morphogenetic Protein-4 Mediates Vascular Inflammation and Neointima Formation after Arterial Injury
2021
Marietta Jank | Nikolaus von Niessen | Christoph B. Olivier | Hannah Schmitt | Nathaly Anto-Michel | Ingo Hilgendorf | Christoph Bode | Martin Moser | Jennifer S. Esser | Qian Zhou
The purpose of this study is to investigate the role of platelet bone morphogenetic proteins (BMP)-4 during vascular inflammation and remodeling in a mouse model of carotid wire injury. Transgenic mice with a platelet-specific deletion of BMP-4 (BMP4<sup>Plt−/−</sup>) were generated. Intravital microscopy was performed to evaluate leukocyte adhesion to the vessel wall. Expression of adhesion molecules and chemokines were analyzed. Platelet-leukocyte aggregates (PLAs) were evaluated using flow cytometry. For carotid wire injury, BMP4<sup>Plt</sup><sup>−/−</sup> mice were further crossed with LDLr<sup>−/−</sup> mice (BMP4<sup>Plt−/−</sup>/LDLr<sup>−/−</sup>) and fed with a high cholesterol diet for 2-weeks. Carotid wire injury was performed, and re-endothelialization and neointimal formation were evaluated. In comparison to the control mice, stimulation with TNFα resulted in fewer rolling and adherent leukocytes to the vessel wall in the BMP4<sup>Plt−/−</sup> mice. mRNA and protein expression of P-selectin and adhesion molecules were reduced in the aorta of the BMP4<sup>Plt−/−</sup> mice. In platelets from the BMP4<sup>Plt−/−</sup> mice, the expression of P-selectin was reduced, and fewer PLA formations were measured than in the control mice. Loss of platelet BMP-4 further prevented neointima formation after carotid wire injury. Endothelial regeneration after injury was decelerated in the BMP4<sup>Plt−/−</sup> mice, and confirmed in-vitro, where the deletion of platelet BMP-4 inhibited endothelial cell proliferation and migration. We demonstrate for the first time that platelet BMP-4 is involved during vascular inflammation and remodeling. This is partially mediated by the inhibition of platelet activation, reduced expression of adhesion molecules and inflammatory responses. Our findings identify platelet BMP-4 as a mediator of vascular inflammation in early atherosclerosis and restenosis.
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