Faculty of Pharmacy, Jagiellonian University Medical College, Medyczna 9 St., 30-688, Kraków, Poland.
Department of Animal Anatomy and Preclinical Sciences, University Centre of Veterinary Medicine JU-UA, University of Agriculture in Kraków, Mickiewicz 24/28 St., 30-059, Kraków, Poland.
Eur J Med Chem. 2023 Dec 5;261:115832. doi: 10.1016/j.ejmech.2023.115832. Epub 2023 Oct 7.
Alzheimer's disease (AD) is a global health problem in the medical sector that will increase over time. The limited treatment of AD leads to the search for a new clinical candidate. Considering the multifactorial nature of AD, a strategy targeting number of regulatory proteins involved in the development of the disease is an effective approach. Here, we present a discovery of new multi-target-directed ligands (MTDLs), purposely designed as GABA transporter (GAT) inhibitors, that successfully provide the inhibitory activity against butyrylcholinesterase (BuChE), β-secretase (BACE1), amyloid β aggregation and calcium channel blockade activity. The selected GAT inhibitors, 19c and 22a - N-benzylamide derivatives of 4-aminobutyric acid, displayed the most prominent multifunctional profile. Compound 19c (mGAT1 IC = 10 μM, mGAT4 IC = 12 μM and BuChE IC = 559 nM) possessed the highest hBACE1 and Aβ aggregation inhibitory activity (IC = 1.57 μM and 99 % at 10 μM, respectively). Additionally, it showed a decrease in both the elongation and nucleation constants of the amyloid aggregation process. In contrast compound 22a represented the highest activity and a mixed-type of eqBuChE inhibition (IC = 173 nM) with hBACE1 (IC = 9.42 μM), Aβ aggregation (79 % at 10 μM) and mGATs (mGAT1 IC = 30 μM, mGAT4 IC = 25 μM) inhibitory activity. Performed molecular docking studies described the mode of interactions with GATs and enzymatic targets. In ADMET in vitro studies both compounds showed acceptable metabolic stability and low neurotoxicity. Successfully, compounds 19c and 22a at the dose of 30 mg/kg possessed statistically significant antiamnesic properties in a mouse model of amnesia caused by scopolamine and assessed in the novel object recognition (NOR) task or the passive avoidance (PA) task.
阿尔茨海默病(AD)是医学领域的一个全球性健康问题,随着时间的推移,这个问题将会加剧。由于 AD 的治疗方法有限,因此人们一直在寻找新的临床候选药物。鉴于 AD 的多因素性质,针对参与疾病发展的多种调节蛋白的策略是一种有效的方法。在这里,我们提出了一种新的多靶标定向配体(MTDL)的发现,这些配体专门设计为 GABA 转运蛋白(GAT)抑制剂,可成功提供对丁酰胆碱酯酶(BuChE)、β-分泌酶(BACE1)、淀粉样 β 聚集和钙通道阻断活性的抑制作用。所选的 GAT 抑制剂 19c 和 22a 是 4-氨基丁酸的 N-苄基酰胺衍生物,显示出最突出的多功能特性。化合物 19c(mGAT1 IC=10 μM,mGAT4 IC=12 μM,BuChE IC=559 nM)具有最高的 hBACE1 和 Aβ 聚集抑制活性(IC=1.57 μM 和 10 μM 时分别为 99%)。此外,它还降低了淀粉样蛋白聚集过程中的伸长和成核常数。相比之下,化合物 22a 表现出最高的活性,是一种混合类型的 eqBuChE 抑制剂(IC=173 nM),对 hBACE1(IC=9.42 μM)、Aβ 聚集(10 μM 时为 79%)和 mGATs(mGAT1 IC=30 μM,mGAT4 IC=25 μM)具有抑制活性。进行的分子对接研究描述了与 GAT 和酶靶标的相互作用模式。在体外 ADMET 研究中,这两种化合物均表现出可接受的代谢稳定性和低神经毒性。在东莨菪碱引起的健忘症小鼠模型中,化合物 19c 和 22a 在 30 mg/kg 的剂量下成功地表现出统计学上显著的抗健忘症特性,并在新物体识别(NOR)任务或被动回避(PA)任务中进行了评估。
