Abstract

Glucagon-like peptide-1 (GLP-1) receptor agonists modified with albumin ligands which can specificity bind to the human serum albumin (HSA) was an efficient strategy to prolong the half-time of GLP-1. Herein, we investigated the effect of small-molecule albumin ligand modification on the hypoglycemic activities of GLP-1 derivatives. Two GLP-1 derivatives MPA-C12-GLP-1 and Rhein-C12-GLP-1 were achieved by modification of the side chain amino of lysine in position 26 of the Arg34-GLP-1(7−37)-OH with Rhein and 3-Maleimidopropionic acid respectively using 12-aminolauric acid as a linker, and its specific albumin-conjugating characteristics, pharmaceutical characterization, and the antidiabetic effects were investigated. In vitro level, two GLP-1 derivatives demonstrated a higher binding capacity to GLP-1 receptor than that of Arg34-GLP-1(7−37)-OH. Interestingly, although the binding ability of MPA-C12-GLP-1 was equal to liraglutide, the binding ability of Rhein-C12-GLP-1 was 10-fold higher than liraglutide. In vivo level, the two GLP-1 derivatives can significantly increase their glucose tolerance and prolong their half-life in ICR mice, and they were also superior to GLP-1 in controlling glucose homeostasis and suppression of food intake and water consumption in db/db mice. Importantly, the two GLP-1 derivatives showed comparable efficacy to liraglutide for the therapy of type 2 diabetes mellitus. The in vitro INS-1 cells toxicity and the in vivo hepatotoxicity indicated that the Rhein-C12-GLP-1 was a safe candidate for the therapy of type 2 diabetes, and the serum biomarkers determination results showed that the Rhein-modified GLP-1 could significantly improve the HbA1c and blood lipids, and the H&E stain exhibited that the Rhein-C12-GLP-1 can effectively promote β-cell proliferation and differentiation. In conclusion, the 3-Maleimidopropionic acid or Rhein-modified GLP-1derivatives have great potential for development as a Type 2 diabetes mellitus therapeutic drug.

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