具有抗病毒活性的新型甘草次酸衍生物的酶促化学合成。分子对接研究。

Chemoenzymatic synthesis of new derivatives of glycyrrhetinic acid with antiviral activity. Molecular docking study.

机构信息

Laboratorio de Biocatálisis, Departamento de Química Orgánica y UMYMFOR, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Ciudad Universitaria, Pabellón 2, piso 3, C1428EGA Buenos Aires, Argentina.

Laboratorio de Virología, Departamento de Química Biológica e IQUIBICEN, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Ciudad Universitaria, Pabellón 2, piso 4, C1428EGA Buenos Aires, Argentina.

出版信息

Bioorg Chem. 2018 Aug;78:210-219. doi: 10.1016/j.bioorg.2018.03.018. Epub 2018 Mar 19.

DOI:10.1016/j.bioorg.2018.03.018

PMID:29602045

Abstract

We present an efficient approach to the synthesis of a series of glycyrrhetinic acid derivatives. Six derivatives, five of them new compounds, were obtained through chemoenzymatic reactions in very good to excellent yield. In order to find the optimal reaction conditions, the influence of various parameters such as enzyme source, nucleophile:substrate ratio, enzyme:substrate ratio, solvent and temperature was studied. The excellent results obtained by lipase catalysis made the procedure very efficient considering their advantages such as mild reaction conditions and low environmental impact. Moreover, in order to explain the reactivity of glycyrrhetinic acid and the acetylated derivative to different nucleophiles in the enzymatic reactions, molecular docking studies were carried out. In addition, one of the synthesized compounds exhibited remarkable antiviral activity against TK + and TK- strains of Herpes simplex virus type 1 (HSV-1), sensitive and resistant to acyclovir (ACV) treatment.

摘要

我们提出了一种高效的合成甘草次酸衍生物的方法。通过化学酶反应，以非常好到极好的产率得到了六种衍生物，其中五种为新化合物。为了找到最佳反应条件，我们研究了各种参数的影响，如酶源、亲核试剂:底物比、酶:底物比、溶剂和温度。脂肪酶催化所获得的优异结果，考虑到其温和的反应条件和低环境影响等优点，使该方法非常有效。此外，为了解释甘草次酸及其乙酰化衍生物在酶反应中对不同亲核试剂的反应性，我们进行了分子对接研究。此外，合成的一种化合物对耐阿昔洛韦（ACV）治疗的单纯疱疹病毒 1 型（HSV-1）TK+和 TK-株表现出显著的抗病毒活性。

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具有抗病毒活性的新型甘草次酸衍生物的酶促化学合成。分子对接研究。

Chemoenzymatic synthesis of new derivatives of glycyrrhetinic acid with antiviral activity. Molecular docking study.

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