Effect of Cationic Cyclopeptides on Transdermal and Transmembrane Delivery of Insulin

Abstract

Poor permeability of stratum corneum limits the transportation of insulin across the skin. A transdermal peptide has exhibited enhancement activity on insulin transdermal delivery. A series of cationic cyclopeptides based on the sequence of TD-1 (ACSSSPSKHCG) were designed by the partial arginine or lysine scan method. Among these peptides, TD-34 (ACSSKKSKHCG) with bis-substituted lysine in N-5 and N-6 showed the best transdermal enhancement activity, with the blood glucose level lowered to about 26% of initial after administrating 2.1 IU insulin with 0.5 μmol of TD-34 in 100 μL of saline for 8 h to diabetic rats in vivo. In addition, the transmembrane permeability in Caco-2 cell monolayers (BL→AP) exhibited preferable correlation with percutaneous absorption of insulin (R(2) = 0.73). It can be concluded that the appropriate content and position of cationic group in cyclopeptides may improve percutaneous absorption and transmembrane ability of insulin, and Caco-2 cell monolayers (BL→AP) might be applied to predict the percutaneous absorption of insulin chaperoned by a transdermal peptide in vivo.