Hale Clarence, Lloyd David J, Pellacani Andrea, Véniant Murielle M
Amgen, Inc., Department of Metabolic Disorders , Thousand Oaks, CA , USA.
Expert Opin Ther Targets. 2015 Jan;19(1):129-39. doi: 10.1517/14728222.2014.965681. Epub 2014 Oct 17.
Type 2 diabetes mellitus is a major healthcare concern. Significant efforts are being devoted toward developing new, safe, and more effective treatments. One approach involves activating glucokinase (GK). Earlier GK activator (GKA) approaches have focused on direct activation of GK through allosteric activators.
This review summarizes the roles of GK and its key partner glucokinase regulatory protein in glucose metabolism and describes approaches that may alleviate hypoglycemic risk observed with GKAs.
The current GKA therapeutic approaches are associated with disappointing success rates. In rodent animal models, efficacy was observed with GKA. However, in all human studies, GKAs effectively lowered blood glucose, but at the expense of an increased risk of hypoglycemia. Other liabilities like loss of efficacy with time and increase in blood pressure or triglyceride levels have been reported with different molecules. To avoid hypoglycemic risk, alternative approaches to regulate GK activity have been initiated. Data from clinical trials using these agents are either not yet available to the public or the compounds are too early in development for humans. GK is a promising target for antidiabetic therapy. Despite encouraging biology, more research is required to fully understand GK as a drug target.
2型糖尿病是一个主要的医疗保健问题。人们正在投入大量努力来开发新的、安全且更有效的治疗方法。一种方法是激活葡萄糖激酶(GK)。早期的GK激活剂(GKA)方法侧重于通过变构激活剂直接激活GK。
本综述总结了GK及其关键伙伴葡萄糖激酶调节蛋白在葡萄糖代谢中的作用,并描述了可能减轻GKA所观察到的低血糖风险的方法。
当前的GKA治疗方法成功率令人失望。在啮齿动物模型中,观察到了GKA的疗效。然而,在所有人体研究中,GKA有效地降低了血糖,但代价是低血糖风险增加。不同分子还出现了其他问题,如随着时间推移疗效丧失以及血压或甘油三酯水平升高。为避免低血糖风险,已启动调节GK活性的替代方法。使用这些药物的临床试验数据要么尚未向公众公开,要么这些化合物尚处于早期研发阶段,不适用于人体。GK是抗糖尿病治疗的一个有前景的靶点。尽管生物学特性令人鼓舞,但仍需要更多研究来全面了解GK作为药物靶点的情况。
