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HIV-1 逆转录酶/d4TTP 复合物的结构:新的 DNA 交联位点和 pH 依赖性构象变化。

Structure of HIV-1 reverse transcriptase/d4TTP complex: Novel DNA cross-linking site and pH-dependent conformational changes.

机构信息

Center for Advanced Biotechnology and Medicine, and Department of Chemistry and Chemical Biology, Rutgers University, Piscataway, New Jersey, 08854.

Rega Institute for Medical Research and Department of Microbiology and Immunology, KU Leuven, Leuven, 3000, Belgium.

出版信息

Protein Sci. 2019 Mar;28(3):587-597. doi: 10.1002/pro.3559. Epub 2018 Dec 22.

DOI:10.1002/pro.3559
PMID:30499174
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6371216/
Abstract

Stavudine (d4T, 2',3'-didehydro-2',3'-dideoxythymidine) was one of the first chain-terminating nucleoside analogs used to treat HIV infection. We present the first structure of the active, triphosphate form of d4T (d4TTP) bound to a catalytic complex of HIV-1 RT/dsDNA template-primer. We also present a new strategy for disulfide (S-S) chemical cross-linking between N of a modified adenine at the second overhang base to I63C in the fingers subdomain of RT. The cross-link site is upstream of the duplex-binding region of RT, however, the structure is very similar to published RT structures with cross-linking to Q258C in the thumb, which suggests that cross-linking at either site does not appreciably perturb the RT/DNA structures. RT has a catalytic maximum at pH 7.5. We determined the X-ray structures of the I63C-RT/dsDNA/d4TTP cross-linked complexes at pH 7, 7.5, 8, 8.5, 9, and 9.5. We found small (~0.5 Å), pH-dependent motions of the fingers subdomain that folds in to form the dNTP-binding pocket. We propose that the pH-activity profile of RT relates to this motion of the fingers. Due to side effects of neuropathy and lipodystrophy, use of d4T has been stopped in most countries, however, chemical modification of d4T might lead to the development of a new class of nucleoside analogs targeting RNA and DNA polymerases.

摘要

司他夫定(d4T,2',3'-双脱氢-2',3'-双脱氧胸苷)是最早用于治疗 HIV 感染的链终止核苷类似物之一。我们展示了活性三磷酸酯形式的 d4T(d4TTP)与 HIV-1 RT/dsDNA 模板-引物催化复合物结合的首个结构。我们还提出了一种新的策略,用于在第二个突出碱基的修饰腺嘌呤的 N 与 RT 手指亚结构中的 I63C 之间进行二硫键(S-S)化学交联。交联位点在 RT 的双链结合区域的上游,但是,该结构与已发表的 RT 结构非常相似,其中交联发生在拇指中的 Q258C 处,这表明在任一位点交联都不会明显干扰 RT/DNA 结构。RT 在 pH 7.5 时具有催化最大值。我们在 pH 7、7.5、8、8.5、9 和 9.5 下确定了 I63C-RT/dsDNA/d4TTP 交联复合物的 X 射线结构。我们发现手指亚结构的小(~0.5Å)、依赖 pH 的运动,该运动折叠形成 dNTP 结合口袋。我们提出 RT 的 pH 活性谱与手指的这种运动有关。由于周围神经病变和脂肪营养不良的副作用,d4T 在大多数国家已停止使用,但是,d4T 的化学修饰可能会导致针对 RNA 和 DNA 聚合酶的新型核苷类似物的开发。

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