Scaffolds are used for bioengineering to regulate cellular functions. Previously, we developed laminin-derived peptide-conjugated chitosan membranes for cell engineering. Here, we determined whether changes in the chitosan scaffold altered the cellular response. When an alphavbeta3 integrin-binding peptide A99a (ALRGDN) was conjugated on chitosan membranes of varying density (1.5-1500 ng/mm(2)), cell adhesion was altered depending on the amount of chitosan. 3 or 30 ng/mm(2) of the A99a-chitosan membrane effectively promoted cell attachment, cell spreading with well-organized actin stress fibers, phosphorylation of FAK Tyr397, and neurite outgrowth. In contrast, syndecan-binding peptide AG73 (RKRLQVQLSIRT) conjugated chitosan membranes density (1.5-1500 ng/mm(2)) promoted similar biological activities at all of the concentrations tested. These results suggest that integrin-mediated cell adhesion is sensitive to the scaffold condition. To improve the function of integrin-mediated biological activities on a large amount of scaffold, we designed an A99a/AG73 mixed peptide-chitosan membrane. The mixed peptide-chitosan membrane promoted the strongest biological activities at 150-1500 ng/mm(2) of chitosan membrane. We conclude that the A99a/AG73 mixed peptide-chitosan membrane effectively interacts with both integrins and syndecans and is a useful multi-functional biomaterial.
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