Dipeptidyl peptidase‐4 inhibitors: Multitarget drugs,not only antidiabetes drugs (D ipeptidyl peptidase ‐4抑制剂：多靶点药物，不仅仅是降糖药)

Dipeptidyl peptidase (DPP)‐4 inhibitors are a new class of antidiabetic agents that reduce blood glucose by preventing the degradation of the endogenous incretin hormones glucagon‐like peptide‐1 and glucose‐dependent insulinotropic polypeptide. Protection by DPP‐4 inhibitors of β‐cell function has been demonstrated in patients with type 2 diabetes. Because DPP‐4 is an enzyme widely expressed in humans, DPP‐4 inhibitors are speculated to be multitarget agents. However, other potential therapeutic benefits of DPP‐4 inhibitors remain unknown. Recently, some therapeutic effects of DPP‐4 inhibitors, such as immune regulation, cardiovascular protection, and anti‐inflammatory effects, have been observed. This article provides a systematic and comprehensive review of current research into the newly found effects and mechanism of action of DPP‐4 inhibitors in a therapeutic context.     

Omeprazole improves the anti‐obesity and antidiabetic effects of exendin‐4 in db/db mice (奥美拉唑改善唾液素‐4 对db/db小鼠的减肥与降糖作用)*

Background: In addition to its glucoregulatory actions, exendin‐4, a stable glucagon‐like peptide‐1 receptor agonist, exhibits protective effects in the pancreas and anti‐obesity effects. Suitable combination treatment with other anti‐obesity or pancreas protective agents would be an effective approach to optimize these additional effects. In the present study, we investigated the effects of the addition of omeprazole, a proton pump inhibitor, to exendin‐4 in db/db mice, an experimental model of obesity and type 2 diabetes. Methods: The effects repeated dose treatment for 14 days with exendin‐4 (8 μg/kg, s.c.) and omeprazole (30 mg/kg, s.c.) on glycemic control, food intake, and body weight were determined in obese and hyperglycemic db/db mice. The effects of these treatments on plasma gastrin, ghrelin, and leptin levels were determined, along with effects on nausea‐like symptoms. The pancreatic effects of the repeated dose treatment were assessed by measuring %HbA1c in the circulation as well as pancreatic insulin and glucagon content and glucokinase activity. Results: Combination treatment resulted in significant decreases in plasma leptin and ghrelin levels after repeated dosing. Omeprazole improved the anorectic and body weight‐lowering effects and reversed the inhibitory effect of exendin‐4 on gastrin levels after repeated dose treatment. The 14‐day combination treatment significantly reduced glucose excursion and improved insulin levels, with a concomitant decrease in %HbA1c levels. It also improved glucokinase activity and pancreatic insulin content, with a significant decrease in glucagon content. Conclusions: Combined treatment with omeprazole with exendin‐4 reduces food intake and body weight gain, most likely through changes in plasma ghrelin and leptin levels, and improves pancreatic insulin and glucagon content by improving glucokinase activity.     

Glucagon‐like peptide 1‐potentiated insulin secretion and proliferation of pancreatic β‐cells GLP‐1促进胰岛素分泌和胰岛β细胞增殖的机制

Glucagon‐like peptide‐1 (GLP‐1) is the primary incretin hormone secreted from the intestine upon uptake of food to stimulate insulin secretion from pancreatic β‐cells. GLP‐1 exerts its effects by binding to its G‐protein coupled receptors and subsequently activating adenylate cyclase, leading to generation of cyclic adenosine monophosphate (cAMP). cAMP stimulates insulin secretion via activation of its effectors PKA and Epac2 in pancreatic β‐cells. In addition to its insulinotropic effects, GLP‐1 also preserves pancreatic β‐cell mass by stimulating β‐cell proliferation. Unlike the action of sulphonylureas in lowering blood glucose levels, action of GLP‐1 is affected by and interplays with glucose levels. Due to such advantages, GLP‐1‐based therapeutics have been rapidly developed and used clinically for treatment of type 2 diabetes. However, molecular mechanisms underlying how GLP‐1 potentiates diminished glucose‐stimulated insulin secretion and β‐cell proliferation under diabetic conditions are not well understood. Here, we review the actions of GLP‐1 in regulation of insulin secretion and pancreatic β‐cell proliferation.