人脱氧胞苷激酶与L-和D-核苷复合物结构解释其非对映选择性特性
Nonenantioselectivity property of human deoxycytidine kinase explained by structures of the enzyme in complex with L- and D-nucleosides.
作者信息
Sabini Elisabetta, Hazra Saugata, Konrad Manfred, Lavie Arnon
机构信息
Department of Biochemistry and Molecular Genetics, University of Illinois at Chicago, 900 S. Ashland Avenue, M/C 669, Chicago, Illinois 60607, USA.
出版信息
J Med Chem. 2007 Jun 28;50(13):3004-14. doi: 10.1021/jm0700215. Epub 2007 May 27.
Abstract
Biological molecules are predominantly enantioselective. Yet currently two nucleoside analogue prodrugs (3TC and FTC) with opposite chirality compared to physiological nucleosides are clinically approved for the treatment of HIV infections. These prodrugs require conversion to their triphosphorylated forms to achieve pharmacological activity. The first step in the activation of these agents is catalyzed by human deoxycytidine kinase (dCK). This enzyme possesses the ability to phosphorylate nucleosides of the unnatural L-chirality. To understand the molecular basis for the nonenantioselectivity of dCK, we solved the crystal structures of the enzyme in complex with the L-enantiomer and of its physiological substrate deoxycytidine and with the L-nucleoside analogue FTC. These were compared to a structure solved with D-dC. Our results highlight structural adjustments imposed on the L-nucleosides and properties of the enzyme endowing it with the ability to phosphorylate substrates with nonphysiological chirality. This work reveals the molecular basis for the activation of L-nucleosides by dCK.
摘要
生物分子主要具有对映体选择性。然而,目前两种与生理核苷相比具有相反手性的核苷类似物前药(3TC和FTC)已被临床批准用于治疗HIV感染。这些前药需要转化为其三磷酸化形式才能实现药理活性。这些药物激活的第一步由人脱氧胞苷激酶(dCK)催化。这种酶具有磷酸化非天然L-手性核苷的能力。为了理解dCK非对映体选择性的分子基础,我们解析了该酶与L-对映体及其生理底物脱氧胞苷以及与L-核苷类似物FTC形成复合物的晶体结构。并将这些结构与用D-dC解析的结构进行了比较。我们的结果突出了L-核苷所进行的结构调整以及赋予该酶磷酸化非生理手性底物能力的酶的性质。这项工作揭示了dCK激活L-核苷的分子基础。
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