Department of Psychology, University of Nebraska at Kearney, Kearney, NE, 69949, USA.
Department of Biology, University of Nebraska at Kearney, Kearney, NE, 69949, USA.
ChemMedChem. 2024 Jan 2;19(1):e202300567. doi: 10.1002/cmdc.202300567. Epub 2023 Dec 6.
Circadian rhythm (CR) dysregulation negatively impacts health and contributes to mental disorders. The role of melatonin, a hormone intricately linked to CR, is still a subject of active study. The enzyme arylalkylamine N-acetyltransferase (AANAT) is responsible for melatonin synthesis, and it is a potential target for disorders that involve abnormally high melatonin levels, such as seasonal affective disorder (SAD). Current AANAT inhibitors suffer from poor cell permeability, selectivity, and/or potency. To address the latter, we have employed an X-ray crystal-based model to guide the modification of a previously described AANAT inhibitor, containing a rhodanine-indolinone core. We made various structural modifications to the core structure, including testing the importance of a carboxylic acid group thought to bind in the CoA site, and we evaluated these changes using MD simulations in conjunction with enzymatic assay data. Additionally, we tested three AANAT inhibitors in a zebrafish locomotion model to determine their effects in vivo. Key discoveries were that potency could be modestly improved by replacing a 5-carbon alkyl chain with rings and that the central rhodanine ring could be replaced by other heterocycles and maintain potency.
昼夜节律(CR)失调会对健康产生负面影响,并导致精神障碍。褪黑素作为与 CR 密切相关的激素,其作用仍然是一个活跃的研究课题。芳香族胺 N-乙酰基转移酶(AANAT)负责褪黑素的合成,它是涉及异常高褪黑素水平的疾病的潜在靶点,例如季节性情感障碍(SAD)。目前的 AANAT 抑制剂存在细胞通透性、选择性和/或效力差的问题。为了解决后者,我们利用基于 X 射线晶体的模型来指导对以前描述的 AANAT 抑制剂进行修饰,该抑制剂含有一个绕丹宁-吲哚啉酮核心。我们对核心结构进行了各种结构修饰,包括测试了在 CoA 结合位点中被认为结合的羧酸基团的重要性,并结合 MD 模拟和酶促测定数据评估了这些变化。此外,我们还在斑马鱼运动模型中测试了三种 AANAT 抑制剂,以确定它们在体内的作用。主要发现是,用环取代 5 个碳烷基链可以适度提高效力,并且可以用其他杂环取代中心的绕丹宁环并保持效力。
