Abstract
Glucagon-like peptide-1 (GLP-1), an incretin hormone plays an important role in regulating glucose homeostasis. The therapeutic use of native GLP-1 is inadequate due to its short in vivo half-life. We recently developed a novel GLP-1 mimetics supaglutide, and demonstrated that this formulation retained native GLP-1 biological activities and possessed long-lasting GLP-1 actions. In this study, we further examined its abilities in regulating blood glucose in diabetic mice. We found that supaglutide stimulated insulin secretion in both mouse and human islets in a dose-dependent fashion. Oral glucose tolerance test conducted in normal ICR mice showed that supaglutide significantly decreased postprandial glucose excursions in a dose-dependent fashion. In type 2 diabetic db/db mice, a single-dose injection of supaglutide significantly decreased blood glucose levels, and this efficacy was lasted for at least 72 h in a dose-dependent fashion. During a 4-weeks intervention course supaglutide (twice injections per week) dose-dependently and significantly decreased fasting and random blood glucose levels in hyperglycemic db/db mice. Supaglutide, at a dose of 1.2 mg/kg, significantly reduced serum fructosamine levels. This was associated with significant enlargement of beta-cell mass, increased pancreatic insulin content, and increased plasma insulin level. Notably, during the intervention course supaglutide significantly reduced body-weight gain in these obese diabetic mice, associated with reduced fat mass (but not the lean mass), improved lipid profile, i.e., declined serum triglyceride, and free fatty acid levels compared to the placebo control. These finding reveals that supaglutide exerts beneficial effects in regulating blood glucose and lipid homeostasis in diabetic db/db mice.
Highlights
Glucagon-like peptide 1 (GLP-1) is an incretin hormone secreted by gastrointestinal L cells in response to nutrient ingestion (Drucker and Nauck, 2006; Drucker, 2016)
It is interesting to note, compared to its basal insulin levels, 16.8 mM glucose dramatically and significantly stimulated (∼18-fold) increase in insulin secretion, and 10 nM supaglutide in the presence of 16.8 mM glucose yielded a ∼63-fold increase in human insulin secretion compared to the basal levels
We examined the effects of supaglutide in the betacell proliferation and survival as determined by the ki67-insulin and/or transferase dUTP nick end labeling (Tunel)-insulin double staining in the pancreatic sections
Summary
Glucagon-like peptide 1 (GLP-1) is an incretin hormone secreted by gastrointestinal L cells in response to nutrient ingestion (Drucker and Nauck, 2006; Drucker, 2016). Owing to its attractive biological functions such as stimulation of insulin secretion in a glucose-dependent fashion, inhibiting glucagon release, suppressing appetite and slowing gastric emptying, GLP1 is currently used as a major type of incretin-based therapy for type 2 diabetes (T2D) (Nauck et al, 1993; Wettergren et al, 1993). Our previous studies in both in vitro and in vivo settings showed that the fusion protein was relatively resistant to DPP-IV enzymatic inactivation (Wang et al, 2010), and possibly other degrading enzymes (Hupe-Sodmann et al, 1995). The long-acting efficacy of supaglutide was possibly attributed to its enlarged molecular mass (>60 kDa) as a result of delay in clearance rate of kidney (Wang et al, 2010). We evaluated its insulinotropic effects under both in vitro and in vivo conditions using isolated mouse and human islets, and normal mice, as well as type 2 diabetic db/db mice
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