Abstract
Homing of endothelial progenitor cells (EPC) to the ischemic tissues is a key event in neovascularization and tissue regeneration. In response to ischemic insult, injured tissues secrete several chemo-cytokines, including stromal cell-derived factor-1α (SDF-1α), which triggers mobilization and homing of bone marrow-derived EPC (BMD-EPC). We previously reported that SDF-1α-induced EPC homing is mediated by a panel of adhesion molecules highly or selectively expressed on the activated endothelium in ischemic tissues, including E-selectin. Elevated E-selectin on wound vasculature serve as docking sites for circulating EPC, which express counterpart E-selectin ligands. Here, we show that SDF-1α presented in wound tissue and released into circulation can act both locally and remotely to induce ischemic tissue endothelium and BMD-EPC to express both E-selectin and its ligands. By performing BM transplantation using E-selectin−/− and E-selectin+/+ mice as the donors and recipients respectively, we demonstrate that upregulated dual E-selectin/ligand pairs reciprocally expressed on ischemic tissue endothelium and BMD-EPC act as double-locks to secure targeted EPC- endothelium interactions by which to facilitate EPC homing and promote neovascularization and tissue repair. These findings describe a novel mechanism for BMD-EPC homing and indicate that dual E-selectin/ligand pairs may be effective targets/tools for therapeutic neovascularization and targeted cell delivery.
Highlights
Ischemic tissue and subsequent transendothelial migration and extravasation
We have recently demonstrated that levels of CD44 are upregulated on the endothelium of acute wound bed capillaries, and the elevated CD44 function as docking sites for wound tissue homing of infused exogenous cells which are installed with soluble E-selectin on cell surface[18]
We previously demonstrated that SDF-1αupregulates E-selectin expression on the local wound endothelium and induces EPC to express E-selectin ligands[10]
Summary
Ischemic tissue and subsequent transendothelial migration and extravasation. These effects resulted in a significant enhancement of wound neovascularization and repair in a mouse hind limb ischemia model[10]. The expression of PSGL-1/CD162 on the endothelium[16], in particular on the endothelial lining of atherosclerotic coronary arteries has been reported[17]. This suggests a potential role in the formation of the inflammatory infiltrate in arterial wall lesions. In this way, reverses in the pattern of expression of E-selectin on EPC and E-selectin ligand on endothelium may be involved in mediating EPC-EC interactions and EPC homing. Upregulated dual E-selectin/ligand pairs reciprocally expressed on activated endothelium in ischemic wound tissue and mobilized BMD-EPC mediate EPC-EC interactions to promote targeted EPC homing, increased wound neovascularization, and faster tissue repair
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