In an effort to rationalize and optimize an antiapoptotic coating combining chondroitin sulfate (CS) and epidermal growth factor (EGF) for vascular applications, the authors here report the comparison of two grafting strategies aiming to display EGF in an oriented fashion on CS. For that purpose, the authors produced, purified, and characterized a chimeric protein corresponding to EGF that was N-terminally fused to a cysteine and a coil peptide. The chimera was covalently immobilized via its free thiol group or captured via coiled–coil interactions at the surface of a biosensor or on a chondroitin sulfate coating in multiwell plates, mimicking the coating that was previously developed by them for stent-graft surfaces. The interactions of grafted EGF with the soluble domain of its receptor or the impact of grafted EGF upon vascular smooth muscle survival in proapoptotic conditions indicated that the coiled–coil based tethering was the best approach to display EGF. These results, combined to direct enzyme-linked immunosorbent assay measurements, indicated that the coiled–coil tethering approach allowed increasing the amount of bioavailable EGF when compared to covalent coupling, rather than the total amount of grafted EGF, while using much lower concentrations of tagged EGF during incubation.
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Bioavailability of immobilized epidermal growth factor: Covalent versus noncovalent grafting
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March 2017
Brief Report|
March 21 2017
Bioavailability of immobilized epidermal growth factor: Covalent versus noncovalent grafting
Nesrine Riahi;
Nesrine Riahi
Department of Chemical Engineering, Groupe de Recherche en Sciences et Technologies Biomédicales (GRSTB),
Bio-P2Research Unit
, École Polytechnique de Montréal, P.O. Box 6079, succ. Centre-Ville, Montreal, Quebec H3C 3A7, Canada
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Frederic Murschel;
Frederic Murschel
Department of Chemical Engineering, Groupe de Recherche en Sciences et Technologies Biomédicales (GRSTB),
Bio-P2Research Unit
, École Polytechnique de Montréal, P.O. Box 6079, succ. Centre-Ville, Montreal, Quebec H3C 3A7, Canada
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Sophie Lerouge;
Sophie Lerouge
Department of Mechanical Engineering, Ecole de technologie supérieure, Montreal,
Quebec H3C 1K3 & Research Centre, Centre Hospitalier de l'Université de Montreal (CRCHUM)
, Montreal, Quebec H2X 0A9, Canada
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Yves Durocher;
Yves Durocher
Life Sciences|NRC Human Health Therapeutics Portfolio, Building Montreal-Royalmount,
National Research Council Canada
, Montreal, Quebec H4P 2R2, Canada
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Olivier Henry;
Olivier Henry
Department of Chemical Engineering, Groupe de Recherche en Sciences et Technologies Biomédicales (GRSTB),
Bio-P2Research Unit
, École Polytechnique de Montréal, P.O. Box 6079, succ. Centre-Ville, Montreal, Quebec H3C 3A7, Canada
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Gregory De Crescenzo
Gregory De Crescenzo
a)
Department of Chemical Engineering, Groupe de Recherche en Sciences et Technologies Biomédicales (GRSTB),
Bio-P2Research Unit
, École Polytechnique de Montréal, P.O. Box 6079, succ. Centre-Ville, Montreal, Quebec H3C 3A7, Canada
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a)
Author to whom correspondence should be addressed; electronic mail: [email protected]
Biointerphases 12, 010501 (2017)
Article history
Received:
December 09 2016
Accepted:
March 07 2017
Citation
Nesrine Riahi, Frederic Murschel, Sophie Lerouge, Yves Durocher, Olivier Henry, Gregory De Crescenzo; Bioavailability of immobilized epidermal growth factor: Covalent versus noncovalent grafting. Biointerphases 1 March 2017; 12 (1): 010501. https://doi.org/10.1116/1.4978871
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