婴儿利什曼原虫5′-甲基硫代腺苷磷酸化酶呈现相应的结构分化,构成潜在的药物靶点

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology
Hela Abid, Emna Harigua-Souiai, Thouraya Mejri, Mourad Barhoumi, Ikram Guizani
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引用次数: 2

摘要

5 ' -甲基硫代腺苷磷酸化酶(MTAP)是一种参与嘌呤和多胺代谢以及蛋氨酸回收途径的酶,被认为是治疗癌症和锥虫病的潜在药物靶点。事实上,锥虫和利什曼原虫缺乏新生嘌呤途径,依赖嘌呤救助途径来满足其需求。在这里,我们提出了第一个全面的生物信息学和结构表征假定利什曼原虫MTAP (LiMTAP),使用比较计算方法。序列分析表明,LiMTAP与布鲁氏锥虫(TbMTAP)和人类(huMTAP)同源物的同源性高于人类嘌呤核苷磷酸化酶(huPNP)。利用模因进行的基序搜索发现,与huPNP相比,寄生虫蛋白与huMTAP有更多的共同模式和更高的相关性。通过同源性建模预测了LiMTAP和TbMTAP的三维结构,并与huMTAP的晶体结构进行了比较。与huMTAP相比,这些模型呈现出保守的二级结构,具有与罗斯曼褶皱相似的拓扑结构。这证实LiMTAP和TbMTAP都是NP-I家族的成员。与huMTAP相比,LiMTAP的三维模型在C端显示了一个额外的α-螺旋。位于该特定区域的一个肽被用来产生针对LiMTAP的特异性抗体。与huMTAP活性位点(AS)相比,寄生物活性位点(AS)在形状和静电电位(EPs)方面存在显著差异。5 ' -甲基硫代腺苷(MTA)和5 ' -羟乙基硫代腺苷(HETA)在三种蛋白的as上的分子对接,在将寄生虫蛋白与人类同源物进行比较时预测了不同的结合模式和相互作用。这项研究突出了LiMTAP的显著结构特性,与功能相关的序列差异相对应,使其成为对抗利什曼原虫的潜在药物靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Leishmania infantum 5’-Methylthioadenosine Phosphorylase presents relevant structural divergence to constitute a potential drug target

Leishmania infantum 5’-Methylthioadenosine Phosphorylase presents relevant structural divergence to constitute a potential drug target

The 5′-methylthioadenosine phosphorylase (MTAP), an enzyme involved in purine and polyamine metabolism and in the methionine salvage pathway, is considered as a potential drug target against cancer and trypanosomiasis. In fact, Trypanosoma and Leishmania parasites lack de novo purine pathways and rely on purine salvage pathways to meet their requirements. Herein, we propose the first comprehensive bioinformatic and structural characterization of the putative Leishmania infantum MTAP (LiMTAP), using a comparative computational approach.

Sequence analysis showed that LiMTAP shared higher identity rates with the Trypanosoma brucei (TbMTAP) and the human (huMTAP) homologs as compared to the human purine nucleoside phosphorylase (huPNP). Motifs search using MEME identified more common patterns and higher relatedness of the parasite proteins to the huMTAP than to the huPNP. The 3D structures of LiMTAP and TbMTAP were predicted by homology modeling and compared to the crystal structure of the huMTAP. These models presented conserved secondary structures compared to the huMTAP, with a similar topology corresponding to the Rossmann fold. This confirmed that both LiMTAP and TbMTAP are members of the NP-I family. In comparison to the huMTAP, the 3D model of LiMTAP showed an additional α-helix, at the C terminal extremity. One peptide located in this specific region was used to generate a specific antibody to LiMTAP. In comparison with the active site (AS) of huMTAP, the parasite ASs presented significant differences in the shape and the electrostatic potentials (EPs). Molecular docking of 5′-methylthioadenosine (MTA) and 5′-hydroxyethylthio-adenosine (HETA) on the ASs on the three proteins predicted differential binding modes and interactions when comparing the parasite proteins to the human orthologue.

This study highlighted significant structural peculiarities, corresponding to functionally relevant sequence divergence in LiMTAP, making of it a potential drug target against Leishmania.

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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
发文量
0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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