In order to develop novel long-acting GLP-1 derivatives, a peptide hybrid (1a) from human GLP-1 and Xenopus GLP-1 discovered in our previous research was selected as the lead compound. Exendin-4 inspired modification resulted in peptide 1b with enhanced glucose-lowering activity. Cysteine mutated 1b derivatives with reserved bioactivity were further site-specifically connected with mPEG2000-MAL to provide conjugates 3a-h, among which 3d and 3e were found to have significantly improved hypoglycemic activity and insulinotropic ability than GLP-1. The hypoglycemic durations of 3d and 3e were remarkably prolonged to ∼20 h in type 2 diabetic db/db mice, compared with the 5.3 h of exendin-4 in the same test. Finally, chronic in vivo studies revealed that a once-daily treatment of 3d or 3e for five weeks resulted in recovered glucose-controlling ability of type 2 diabetic db/db mice, along with other benefits, such as reduced body weight gains, food intake amounts and HbA1c values. Collectively, our results suggest 3d and 3e as potential long-acting glucose-lowering agents for treating type 2 diabetes.
Keywords: Glucagon-like peptide-1; PEGylation; Type 2 diabetes.
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