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对巨噬细胞中病毒感染失败负责的3TC耐药M184I HIV-1逆转录酶变体的dNTP结合亲和力降低。

Reduced dNTP binding affinity of 3TC-resistant M184I HIV-1 reverse transcriptase variants responsible for viral infection failure in macrophage.

作者信息

Jamburuthugoda Varuni K, Santos-Velazquez Jose M, Skasko Mark, Operario Darwin J, Purohit Vandana, Chugh Pauline, Szymanski Erika A, Wedekind Joseph E, Bambara Robert A, Kim Baek

机构信息

Department of Microbiology and Immunology, University of Rochester Medical Center, 601 Elmwood Avenue, Rochester, NY 14642, USA.

出版信息

J Biol Chem. 2008 Apr 4;283(14):9206-16. doi: 10.1074/jbc.M710149200. Epub 2008 Jan 24.

DOI:10.1074/jbc.M710149200
PMID:18218633
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2431026/
Abstract

We characterized HIV-1 reverse transcriptase (RT) variants either with or without the (-)-2',3'-deoxy-3'-thiacytidine-resistant M184I mutation isolated from a single HIV-1 infected patient. First, unlike variants with wild-type M184, M184I RT variants displayed significantly reduced DNA polymerase activity at low dNTP concentrations, which is indicative of reduced dNTP binding affinity. Second, the M184I variant displayed a approximately 10- to 13-fold reduction in dNTP binding affinity, compared with the Met-184 variant. However, the k(pol) values of these two RTs were similar. Third, unlike HIV-1 vectors with wild-type RT, the HIV-1 vector harboring M184I RT failed to transduce cell types containing low dNTP concentrations, such as human macrophage, likely due to the reduced DNA polymerization activity of the M184I RT under low cellular dNTP concentration conditions. Finally, we compared the binary complex structures of wild-type and M184I RTs. The Ile mutation at position 184 with a longer and more rigid beta-branched side chain, which was previously known to alter the RT-template interaction, also appears to deform the shape of the dNTP binding pocket. This can restrict ground state dNTP binding and lead to inefficient DNA synthesis particularly at low dNTP concentrations, ultimately contributing to viral replication failure in macrophage and instability in vivo of the M184I mutation.

摘要

我们对从一名单一HIV-1感染患者体内分离出的带有或不带有(-)-2',3'-脱氧-3'-硫代胞苷抗性M184I突变的HIV-1逆转录酶(RT)变体进行了表征。首先,与具有野生型M184的变体不同,M184I RT变体在低dNTP浓度下显示出显著降低的DNA聚合酶活性,这表明dNTP结合亲和力降低。其次,与Met-184变体相比,M184I变体的dNTP结合亲和力降低了约10至13倍。然而,这两种RT的k(pol)值相似。第三,与具有野生型RT的HIV-1载体不同,携带M184I RT的HIV-1载体无法转导含有低dNTP浓度的细胞类型,如人类巨噬细胞,这可能是由于在低细胞dNTP浓度条件下M184I RT的DNA聚合活性降低所致。最后,我们比较了野生型和M184I RT的二元复合物结构。184位的Ile突变具有更长且更刚性的β-分支侧链,先前已知该侧链会改变RT-模板相互作用,似乎也会使dNTP结合口袋的形状变形。这会限制基态dNTP结合,并导致低效的DNA合成,特别是在低dNTP浓度下,最终导致巨噬细胞中的病毒复制失败以及M184I突变在体内的不稳定性。

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Human immunodeficiency virus type 1: resistance to nucleoside analogues and replicative capacity in primary human macrophages.1型人类免疫缺陷病毒:对核苷类似物的耐药性及在原代人巨噬细胞中的复制能力
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