To develop an effective long-acting antidiabetic, the GLP-1 analogue of exendin-4 was modified with three different bile acids (BAs; cholic, deoxycholic, or lithocholic acid), at its two lysine residues. The biological, pharmaceutical, and physicochemical characteristics of these exendin-4 analogues were carefully investigated. Biological activity tests demonstrated that the monobile acid substitutions of exendin-4 showed well preserved receptor binding efficacy without noticeable insulinotropic or antidiabetic activity loss. However, physicochemical and pharmacokinetic studies revealed that the albumin-binding properties and in vivo elimination half-lives of BAM1-Ex4s (Lys(27)-BA-Ex4s) were significantly enhanced by increasing the hydrophobicities of the conjugated BAs. Furthermore, the protracted antidiabetic effects of the BAM1-Ex4s were also verified by the prolonged restoration of normoglycemia in type 2 diabetic mice. Accordingly, the present study suggests that the derivatization of exendin-4 with BAs offers a means of producing long-acting GLP-1 receptor agonists for type 2 diabetic therapy.
Ketoprofen plasters of 70 cm(2) size using DuroTak acrylic adhesive polymers were developed either containing 30 mg (Ketotop-L) or 60 mg drug (Ketotop-P). The in vitro skin permeation profile was obtained in hairless mouse skin and showed the permeation rate of Ketotop-P to be twice that of Ketotop-L. The plasma concentration profile of ketoprofen was determined in Sprague-Dawley rats after applying a 3 x 3 cm(2) plaster. AUC(0-24h) and C(max) of Ketotop-P were 260.92 microg.h/ml and 25.09 microg/ml, respectively, which were about twice the values of Ketotop-L. The hind paw edema induced by carrageenan injection was measured for 6 h after applying a 2 x 2 cm(2) plaster, and the area under the time-response curve (AUR) value was significantly lower in Ketotop-P attached rats (180.70%.h) than in those with the Ketotop-L (298.65%.h) and the control (407.04%.h) groups, indicating a stronger anti-inflammatory action of Ketotop-P. However, the analgesic effect of the two formulations did not show a statistically significant difference. In conclusion, Ketotop-P was able to achieve higher plasma concentration of ketoprofen, thereby exhibiting higher and more constant anti-inflammatory effect compared with Ketotop-L.
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