Background—
Lymphatic network and chemokine-mediated signals are essential for leukocyte traffic during the proximal steps of alloimmune response. We aimed to determine the role of lymphatic vessels and their principal growth signaling pathway, vascular endothelial growth factor (VEGF)-C/D/VEGFR-3, during acute and chronic rejection in cardiac allografts.
Methods and Results—
Analysis of heterotopically transplanted rat cardiac allografts showed that chronic rejection increased VEGF-C
+
inflammatory cell and hyaluronan receptor-1 (LYVE-1)
+
lymphatic vessel density. Allograft lymphatic vessels were VEGFR-3
+
, contained antigen-presenting cells, and produced dendritic cell chemokine CCL21. Experiments with VEGFR-3/LacZ mice or mice with green fluorescent protein–positive bone marrow cells as cardiac allograft recipients showed that allograft lymphatic vessels originated almost exclusively from donor cells. Intraportal adenoviral VEGFR-3-Ig (Ad.VEGFR-3-Ig/VEGF-C/D-Trap) perfusion was used to inhibit VEGF-C/D/VEGFR-3 signaling. Recipient treatment with Ad.VEGFR-3-Ig prolonged rat cardiac allograft survival. Ad.VEGFR-3-Ig did not affect allograft lymphangiogenesis but was linked to reduced CCL21 production and CD8
+
effector cell entry in the allograft. Concomitantly, Ad.VEGFR-3-Ig reduced OX62
+
dendritic cell recruitment and increased transcription factor Foxp3 expression in the spleen. In separate experiments, treatment with a neutralizing monoclonal VEGFR-3 antibody reduced arteriosclerosis, the number of activated lymphatic vessels expressing VEGFR-3 and CCL21, and graft-infiltrating CD4
+
T cells in chronically rejecting mouse cardiac allografts.
Conclusions—
These results show that VEGFR-3 participates in immune cell traffic from peripheral tissues to secondary lymphoid organs by regulating allograft lymphatic vessel CCL21 production and suggest VEGFR-3 inhibition as a novel lymphatic vessel–targeted immunomodulatory therapy for cardiac allograft rejection and arteriosclerosis.
Normal adult vasculature is in a quiescent state. In transplanted hearts, peri- and postoperative ischemic and alloimmune stimuli may be interpreted as inadequate tissue perfusion leading to activation of angiogenic signaling. Although this may have protective functions, improper activation of cardiac allograft endothelial cells and smooth muscle cells may actually result in impaired survival of cardiac allografts. In this paper, we review the current knowledge on angiogenic growth factors, vascular endothelial growth factor, angiopoietins, and platelet-derived growth factor in cardiac allografts. We also discuss the potential for therapies aimed at angiogenic growth factors in preventing and treating cardiac allograft rejection and transplant coronary artery disease.
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