We here report the discovery and therapeutic efficacy of a novel series of glucagon-like peptide-1 (GLP-1) receptor agonists derived from Xenopus GLP-1. First, five amino acid-mutated Xenopus GLP-1s were synthesized, and xGLP-3 with the best acute and long-acting hypoglycemic activity was selected for further modification. Next, PEGylation of xGLP-3 was performed at specific sites, which were determined using cysteine mutagenesis scanning. Twelve PEGylated conjugates tethered with Mal-PEGs of 1, 2, and 5kDa were synthesized. Conjugates 7b and 7c, which exhibited comparable hypoglycemic and insulinotropic effects to Gly8-GLP-1, were selected for in-depth evaluation. It was found that 7b and 7c exhibited prolonged in vivo half-life and improved pharmacokinetic behaviors. The long-term hypoglycemic effects of 7b and 7c were further confirmed by pre-OGTT and multiple OGTT. Importantly, long-term administration of 7b or 7c in db/db mice achieved beneficial effects on body weight loss, food intake and HbA1c reduction, and glucose tolerance normalization. These preclinical studies indicate the promising role of 7b and 7c as long-acting type 2 diabetes therapeutics. In addition, our research demonstrated the feasibility of developing novel antidiabetic agents based on Xenopus GLP-1.
Keywords: Exendin-4 (PubChem CID: 16157882); Glucagon-like peptide-1; Glucagon-like peptide-1 (PubChem CID: 16133831); Liraglutide (PubChem CID: 16134956); PEGylation; Type 2 diabetes; Xenopus GLP-1.
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