基于多奈哌齐的中枢乙酰胆碱酯酶抑制剂的“生物可氧化”前药策略：设计、合成及体外生物学评价。

Donepezil-Based Central Acetylcholinesterase Inhibitors by Means of a "Bio-Oxidizable" Prodrug Strategy: Design, Synthesis, and in Vitro Biological Evaluation.

机构信息

VFP Therapies , 15 rue François Couperin, 76000 Rouen, France.

Normandie Université, COBRA, UMR 6014 et FR 3038, Univ Rouen, INSA Rouen, CNRS, IRCOF , 1 rue Tesnière, 76821 Mont Saint Aignan Cedex, France.

出版信息

J Med Chem. 2017 Jul 13;60(13):5909-5926. doi: 10.1021/acs.jmedchem.7b00702. Epub 2017 Jun 29.

DOI:10.1021/acs.jmedchem.7b00702

PMID:28613859

Abstract

With the aim of reducing side effects of acetylcholinesterase inhibitors (AChEIs) during symptomatic treatment of Alzheimer's disease, we report herein a new class of donepezil-based "bio-oxidizable" prodrugs 1 designed to be converted into dual binding site AChEIs 2. While most of indanone-derived N-benzylpyridinium salts 2 revealed to be highly potent dual binding site hAChEIs (IC up to 3 nM), outperforming the standard drug donepezil (IC = 11 nM), most of the corresponding 1,4-dihydropyridines 1 were found to be inactive. Promisingly, whereas the selected prodrug 1r showed good permeability in the PAMPA-BBB model and high in vitro antioxidant activity, its conversion to AChEI 2r could be easily achieved under mild conditions when incubated in various oxidizing media. Lastly, both compounds 1r and 2r did not show genotoxicity in vitro and displayed high LD values in mice, making this prodrug 1r/drug 2r couple a good candidate for further in vivo biological experiments.

摘要

为了降低乙酰胆碱酯酶抑制剂（AChEIs）在治疗阿尔茨海默病症状中的副作用，我们在此报告了一类新的基于多奈哌齐的“可生物氧化”前药 1，旨在转化为双重结合位点乙酰胆碱酯酶抑制剂 2。虽然大多数茚满酮衍生的 N-苄基吡啶鎓盐 2 被证明是高度有效的双重结合位点 hAChEIs（IC 高达 3 nM），优于标准药物多奈哌齐（IC = 11 nM），但大多数相应的 1,4-二氢吡啶 1 被发现没有活性。有希望的是，所选前药 1r 在 PAMPA-BBB 模型中显示出良好的通透性和高体外抗氧化活性，当在各种氧化介质中孵育时，其转化为 AChEI 2r 可以在温和条件下轻松实现。最后，化合物 1r 和 2r 均未显示出体外遗传毒性，并在小鼠中显示出高 LD 值，使得该前药 1r/药物 2r 偶联物成为进一步体内生物学实验的良好候选物。

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基于多奈哌齐的中枢乙酰胆碱酯酶抑制剂的“生物可氧化”前药策略：设计、合成及体外生物学评价。

Donepezil-Based Central Acetylcholinesterase Inhibitors by Means of a "Bio-Oxidizable" Prodrug Strategy: Design, Synthesis, and in Vitro Biological Evaluation.

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