Kim Joungmok, Shin Joonsoo, Ha Joohun
Kyung Hee University, School of Dentistry, Oral Biochemistry and Molecular Biology , Seoul , Republic of Korea.
Expert Opin Ther Pat. 2015 Mar;25(3):261-77. doi: 10.1517/13543776.2014.995626. Epub 2014 Dec 23.
AMP-activated protein kinase (AMPK) functions as a cellular energy gauge that maintains cellular homeostasis and has been suggested to play important roles in tumorigenesis, lifespan and autophagy. Accordingly, AMPK is a potential target of drugs for controlling a growing number of human diseases ranging from metabolic disorders to cancer, highlighting the need for rational and robust screening systems for identifying compounds that modulate AMPK.
The relevant screening methods in the patent and scientific literature were analyzed, and key features of direct AMPK modulators are discussed in the context of their physiological relevance and the three-dimensional structure of the AMPK complex.
The mechanism of action of modulators is important in designing drugs with enhanced efficacy, specificity and stability. Most patented assay formats for identifying AMPK modulators are based on classical enzyme assays that monitor AMPK activity or changes in AMPK-dependent cellular physiology. However, these systems do not provide information about underlying mechanisms. Two patented assay systems use a specific domain or the three-dimensional structure of AMPK to identify AMPK modulators. The recent identification of two AMPK modulators, A-769662 and C-2 (or its prodrug, C-13), suggests the promise of structure-based assays in discovering more potent and specific modulators of AMPK.
AMP 激活的蛋白激酶(AMPK)作为一种细胞能量监测器,维持细胞内稳态,并被认为在肿瘤发生、寿命和自噬中发挥重要作用。因此,AMPK 是控制从代谢紊乱到癌症等越来越多人类疾病的药物潜在靶点,这凸显了需要合理且强大的筛选系统来鉴定调节 AMPK 的化合物。
分析了专利和科学文献中的相关筛选方法,并在直接 AMPK 调节剂的生理相关性和 AMPK 复合物三维结构的背景下讨论了其关键特征。
调节剂的作用机制对于设计具有更高疗效、特异性和稳定性的药物很重要。大多数用于鉴定 AMPK 调节剂的专利检测形式基于监测 AMPK 活性或 AMPK 依赖性细胞生理学变化的经典酶检测。然而,这些系统无法提供有关潜在机制的信息。两种专利检测系统利用 AMPK 的特定结构域或三维结构来鉴定 AMPK 调节剂。最近鉴定出的两种 AMPK 调节剂 A-769662 和 C-2(或其前药 C-13)表明基于结构的检测在发现更有效和特异性的 AMPK 调节剂方面具有前景。
