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用于细胞GMP激酶的环丙沙星磷酸盐的合成及对映选择性

Synthesis and enantioselectivity of cyclopropavir phosphates for cellular GMP kinase.

作者信息

Li Chengwei, Gentry Brian G, Drach John C, Zemlicka Jiri

机构信息

Developmental Therapeutics Program, Barbara Ann Karmanos Cancer Institute, Wayne State University School of Medicine, Detroit, Michigan 48201-1379, USA.

出版信息

Nucleosides Nucleotides Nucleic Acids. 2009 Sep;28(9):795-808. doi: 10.1080/15257770903172720.

DOI:10.1080/15257770903172720
PMID:20183619
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7976111/
Abstract

Enantiomeric cyclopropavir phosphates (+)-9 and (-)-9 were synthesized and investigated as substrates for GMP kinase. N(2)-Isobutyryl-di-O-acetylcyclopropavir (11) was converted to (+)-monoacetate 12 using hydrolysis catalyzed by porcine liver esterase. Phosphorylation via phosphite 13 gave after deacylation, phosphate (+)-9. Acid-catalyzed tetrahydropyranylation of (+)-monoacetate 12 gave, after deacylation, tetrahydropyranyl derivative 14. Phosphorylation via phosphite 15 furnished, after deprotection, enantiomeric phosphate (-)-9. Racemic diphosphate 16 was also synthesized. The phosphate (+)-9 is a relatively good substrate for GMP kinase with a K(M) value of 57 microM that is similar to that of the natural substrates GMP (61 microM) and dGMP (82 microM). In contrast, the enantiomer (-)-9 is not a good substrate (K(M) 1200 microM) indicating a significant enantioselectivity for the GMP kinase catalyzed reaction of monophosphate to diphosphate.

摘要

合成了对映体环丙韦磷酸酯(+)-9和(-)-9,并将其作为GMP激酶的底物进行研究。使用猪肝酯酶催化的水解反应,将N(2)-异丁酰基-二-O-乙酰基环丙韦(11)转化为(+)-单乙酸酯12。通过亚磷酸酯13进行磷酸化反应,在脱酰基后得到磷酸酯(+)-9。(+)-单乙酸酯12经酸催化的四氢吡喃基化反应,在脱酰基后得到四氢吡喃基衍生物14。通过亚磷酸酯15进行磷酸化反应,在脱保护后得到对映体磷酸酯(-)-9。还合成了外消旋二磷酸酯16。磷酸酯(+)-9是GMP激酶的相对良好底物,K(M)值为57微摩尔,与天然底物GMP(61微摩尔)和dGMP(82微摩尔)的K(M)值相似。相比之下,对映体(-)-9不是良好底物(K(M)为1200微摩尔),这表明在GMP激酶催化的单磷酸酯向二磷酸酯反应中存在显著的对映选择性。

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