Abstract
Antibody surface immobilization is a promising strategy to capture cells of interest from circulating fluids in vitro and in vivo. An application of particular interest in vascular interventions is to capture endothelial progenitor cells (EPCs) on the surface of stents to accelerate endothelialization. The clinical impact of EPC capture stents has been limited by the lack of efficient selective cell capture. Here, we describe a simple method to immobilize a variety of immunoglobulin G antibodies through their fragment crystallizable (Fc) regions via surface-conjugated RRGW peptides for cell capture applications. As an EPC capture model, peripheral blood endothelial colony-forming cells suspended in cell culture medium with up to 70% serum were captured by immobilized anti-CD144, anti-CD34 or anti-CD309 antibodies under laminar flow. The endothelial colony-forming cells were successfully enriched from a mixture with peripheral blood mononuclear cells using surfaces with anti-CD309 but not anti-CD45. This antibody immobilization approach holds great promise to engineer vascular biomaterials with improved EPC capture potential. The ease of immobilizing different antibodies using the same Fc-binding peptide surface grafting chemistry renders this platform suitable to screen antibodies that maximize cell capture efficiency and selectivity.
Highlights
Surface-immobilized antibodies are broadly applied to selectively capture target cells through cell surface antigen binding[1,2] for applications ranging from diagnostics[3] to immunotherapy.[4,5,6] In the regenerative medicine field, antibody-functionalized surfaces have been used to enrich stem and progenitor cells for in situ tissue repair and regeneration.[7,8] Endothelial progenitor cell (EPC) capture stents, for example, aim to selectively capture cells that accelerate endothelialization to reduce the incidence of restenosis.[9]
One cell type that can be used as an EPC capture model is endothelial colony-forming cells (ECFCs), which have high proliferative potential in vitro and can directly contribute to neovascularization in vivo.[10,11]
These results indicate that antibodies were immobilized on RRGW spots, and that the antibody surface density was significantly higher with covalent RRGW grafting compared to adsorbed RRGW peptides
Summary
Surface-immobilized antibodies are broadly applied to selectively capture target cells through cell surface antigen binding[1,2] for applications ranging from diagnostics[3] to immunotherapy.[4,5,6] In the regenerative medicine field, antibody-functionalized surfaces have been used to enrich stem and progenitor cells for in situ tissue repair and regeneration.[7,8] Endothelial progenitor cell (EPC) capture stents, for example, aim to selectively capture cells that accelerate endothelialization to reduce the incidence of restenosis.[9]. Previous human clinical trials have demonstrated a better early endothelialization on these stents compared with drug-eluting stents,[12,13] other long-term studies have confirmed the formation of late neointimal hyperplasia and restenosis.[14,15,16] This late in-stent restenosis could be due to poor ECFC selectivity by CD34 antibodies, as there are other circulating progenitor cells (CD34+) that could be captured on the surface.[17] Certain CD34+ cells might differentiate into immune cells that mediate inflammatory responses and disturb the signaling and activation pathways of smooth muscle cells (SMCs), leading to intimal hyperplasia.[18,19] Antibodies with higher specificity for ECFCs such as anti-CD144 antibodies were found to reduce the neointimal area observed in stainless steel stents compared to anti-CD34 antibodies.[20]
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