作为选择性 D5 受体部分激动剂的 2,4,5-三甲氧基苯基嘧啶衍生物的发现及其结构-活性关系

IF 4.5 2区医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Bioorganic Chemistry Pub Date : 2024-09-07 DOI:10.1016/j.bioorg.2024.107809

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引用次数: 0

摘要

多巴胺受体是治疗包括帕金森氏症和阿尔茨海默氏症在内的各种神经和精神疾病的治疗靶点。此前，PF-06649751（tavapadon）、PF-2562 和 PW0464 已被发现为具有最佳药代动力学特性的强效和选择性 G 蛋白基 D1/D5 受体激动剂。然而，目前还没有关于选择性 D5R 激动剂的报道。在此背景下，我们设计并合成了 40 种非儿茶酚胺类嘧啶衍生物，并鉴定出 4 种嘧啶衍生物为选择性 D5R 部分激动剂。通过在瞬时转染人 D1 或 D5 受体的 HEK293T 细胞中使用基于 cAMP 的 GloSensor 检测，我们发现化合物 5c（4-(4-溴苯基)-6-(2,4,5-三甲氧基苯基)嘧啶-2-胺）表现出适度的 D5R 激动剂活性。这促使我们探索对这一支架进行各种改造，以提高 D5 激动剂的效力和功效。通过分子对接、合理设计以及在 D1 和 D5 受体上进行激动剂活性评估，我们发现了三种新的衍生物：5j、5h 和 5e。该系列中最有效的化合物 5j（4-(4-碘苯基)-6-(2,4,5-三甲氧基苯基)嘧啶-2-胺）的 EC50 值为 269.7 ± 6.6 nM。小鼠微粒体稳定性研究表明，5j 相当稳定（1 小时内为 70%）。此外，5j（20 mg/kg，p.o）在 C57BL/6j 小鼠体内的药代动力学分析表明，5j 很容易通过口服途径被吸收并进入大脑（血浆 Tmax：1 h，Cmax：51.10 ± 13.51 ng/ml；大脑 Tmax：0.5 h，Cmax：22.54 ± 4.08 ng/ml）。我们进一步测定了 5j 在东莨菪碱诱导的 C57BL/6j 小鼠健忘症中对认知能力的体内影响。我们观察到，5j（10 毫克/千克，p.o.）减轻了东莨菪碱诱导的短时记忆和社会识别能力损伤，D1/D5 拮抗剂 SCH23390（0.1 毫克/千克，i.p.）阻断了这些损伤。此外，5j 没有表现出任何细胞毒性（高达 10 µM）或体内急性毒性（高达 200 毫克/千克，口服）。这些结果有力地表明，5j 可进一步开发用于治疗 D5 受体起关键作用的神经系统疾病。

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Discovery and structure − activity relationships of 2,4,5-trimethoxyphenyl pyrimidine derivatives as selective D5 receptor partial agonists

Dopamine receptors are therapeutic targets for the treatment of various neurological and psychiatric disorders, including Parkinson’s and Alzheimer’s. Previously, PF-06649751 (tavapadon), PF-2562 and PW0464 have been discovered as potent and selective G protein-biased D1/D5 receptor agonists with optimal pharmacokinetic properties. However, no selective D5R agonist has been reported yet. In this context, we designed and synthesized forty non-catecholamines-based pyrimidine derivatives and identified four pyrimidine derivatives as selective D5R partial agonists. Using cAMP-based GloSensor assay in transiently transfected HEK293T cells with human D1 or D5 receptors, we discovered that compound 5c (4-(4-bromophenyl)-6-(2,4,5-trimethoxyphenyl)pyrimidin-2-amine) exhibited modest D5R agonist activity. This leads us to explore various modifications of this scaffold to improve the D5 agonist potency and efficacy. Using molecular docking, and rational design followed by their evaluation at D1 and D5 receptors for agonist activity, we identified three new derivatives, 5j, 5h, and 5e. The most potent compound of this series 5j (4-(4-iodophenyl)-6-(2,4,5-trimethoxyphenyl)pyrimidin-2-amine), exhibited EC₅₀ of 269.7 ± 6.6 nM. Mice microsomal stability studies revealed that 5j is quite stable (>70 % at 1 hr). Furthermore, pharmacokinetic analysis of 5j (20 mg/kg, p.o) in C57BL/6j mice showed that 5j is readily absorbed via oral route of dosing and also enters into the brain (plasma T_max: 1 h, C_max: 51.10 ± 13.51 ng/ml; Brain T_max: 0.5 h, C_max: 22.54 ± 4.08 ng/ml). We further determined the in-vivo effect of 5j on cognition in scopolamine-induced amnesia in C57BL/6j mice. We observed that 5j (10 mg/kg, p.o) alleviated scopolamine-induced impairment in short-term memory and social recognition, which were blocked by D1/D5 antagonist SCH23390 (0.1 mg/kg, i.p.). Furthermore, 5j did not exhibit any cytotoxicity (up to 10 µM) or in vivo acute toxicity up to 200 mg/kg (p.o). These results strongly suggest that 5j could be further developed for treating neurological disorders wherein the D5 receptors play pivotal roles.

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来源期刊

Bioorganic Chemistry 生物-生化与分子生物学

CiteScore

9.70

自引率

3.90%

发文量

679

审稿时长

31 days

期刊介绍： Bioorganic Chemistry publishes research that addresses biological questions at the molecular level, using organic chemistry and principles of physical organic chemistry. The scope of the journal covers a range of topics at the organic chemistry-biology interface, including: enzyme catalysis, biotransformation and enzyme inhibition; nucleic acids chemistry; medicinal chemistry; natural product chemistry, natural product synthesis and natural product biosynthesis; antimicrobial agents; lipid and peptide chemistry; biophysical chemistry; biological probes; bio-orthogonal chemistry and biomimetic chemistry. For manuscripts dealing with synthetic bioactive compounds, the Journal requires that the molecular target of the compounds described must be known, and must be demonstrated experimentally in the manuscript. For studies involving natural products, if the molecular target is unknown, some data beyond simple cell-based toxicity studies to provide insight into the mechanism of action is required. Studies supported by molecular docking are welcome, but must be supported by experimental data. The Journal does not consider manuscripts that are purely theoretical or computational in nature. The Journal publishes regular articles, short communications and reviews. Reviews are normally invited by Editors or Editorial Board members. Authors of unsolicited reviews should first contact an Editor or Editorial Board member to determine whether the proposed article is within the scope of the Journal.