环胞苷-PMEA和环阿糖胞苷-PMEA：基于环胞苷前核苷酸方法的潜在新型膦酸酯前药

cycloSal-PMEA and cycloAmb-PMEA: potentially new phosphonate prodrugs based on the cycloSal-pronucleotide approach.

作者信息

Meier Chris, Görbig Ulf, Müller Christian, Balzarini Jan

机构信息

Institute of Organic Chemistry, University of Hamburg, Martin-Luther-King-Platz 6, D-20146 Hamburg, Germany.

出版信息

J Med Chem. 2005 Dec 15;48(25):8079-86. doi: 10.1021/jm050641a.

DOI:10.1021/jm050641a

PMID:16335932

Abstract

Two new classes of lipophilic prodrugs of the antiviral active phosphonate 9-[2-phosphonomethoxyethyl]adenine (PMEA 1) have been prepared and were studied with regard to their hydrolysis properties and biological activity. A first series of compounds was prepared on the basis of the cycloSal nucleotide approach. Because of the surprisingly low hydrolysis stability of these cycloSal-PMEA derivatives, more stable derivatives have to be developed. Instead of using salicyl alcohol, in cycloAmb-PMEA derivatives 2-aminobenzyl alcohols were attached to PMEA 1. The latter compounds showed a considerably higher stability compared to the cycloSal counterparts. Stability studies revealed that all lipophilic prodrugs delivered PMEA selectively by chemical means. All compounds proved to be noninhibiting to acetyl- and butyrylcholinesterase, and some of the phosphonate diesters were found to be more active against HIV compared to the parent PMEA.

摘要

已制备出抗病毒活性膦酸酯9-[2-膦酰甲氧基乙基]腺嘌呤（PMEA 1）的两类新型亲脂性前药，并对其水解特性和生物活性进行了研究。基于环Sal核苷酸方法制备了第一系列化合物。由于这些环Sal-PMEA衍生物的水解稳定性出奇地低，因此必须开发更稳定的衍生物。在环Amb-PMEA衍生物中，取代水杨醇，将2-氨基苄醇连接到PMEA 1上。与环Sal对应物相比，后一类化合物显示出明显更高的稳定性。稳定性研究表明，所有亲脂性前药均通过化学方法选择性地递送PMEA。所有化合物均被证明对乙酰胆碱酯酶和丁酰胆碱酯酶无抑制作用，并且发现一些膦酸二酯与母体PMEA相比对HIV更具活性。

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环胞苷-PMEA和环阿糖胞苷-PMEA：基于环胞苷前核苷酸方法的潜在新型膦酸酯前药

cycloSal-PMEA and cycloAmb-PMEA: potentially new phosphonate prodrugs based on the cycloSal-pronucleotide approach.

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