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HIV-1 蛋白酶抑制剂选择的框架移位调节位点的突变模式。

Mutational patterns in the frameshift-regulating site of HIV-1 selected by protease inhibitors.

机构信息

Institute of Virology, University of Cologne, Fürst-Pückler Str. 56, 50935, Cologne, Germany.

出版信息

Med Microbiol Immunol. 2012 May;201(2):213-8. doi: 10.1007/s00430-011-0224-z. Epub 2011 Dec 27.

DOI:10.1007/s00430-011-0224-z
PMID:22200908
Abstract

Sustained suppression of viral replication in HIV-1 infected patients is especially hampered by the emergence of HIV-1 drug resistance. The mechanisms of drug resistance mainly involve mutations directly altering the interaction of viral enzymes and inhibitors. However, protease inhibitors do not only select for mutations in the protease but also for mutations in the precursor Gag and Pol proteins. In this study, we analysed the frameshift-regulating site of HIV-1 subtype B isolates, which also encodes for Gag and Pol proteins, classified as either treatment-naïve (TN) or protease inhibitor resistant (PI-R). HIV-1 Gag cleavage site mutations (G435E, K436N, I437V, L449F/V) especially correlated with protease inhibitor resistance mutations, but also Pol cleavage site mutations (D05G, D05S) could be assigned to specific protease resistance profiles. Additionally, two Gag non-cleavage site mutations (S440F, H441P) were observed more often in HIV-1 isolates carrying protease resistance mutations. However, in dual luciferase assays, the frameshift efficiencies of specific clones did not reveal any effect from these mutations. Nevertheless, two patterns of mutations modestly increased the frameshift rates in vitro, but were not specifically accumulating in PI-resistant HIV-1 isolates. In summary, HIV-1 Gag cleavage site mutations were dominantly selected in PI-resistant HIV-1 isolates but also Pol cleavage site mutations influenced resistance profiles in the protease. Additionally, Gag non-cleavage site mutations accumulated in PI-resistant HIV-1 isolates, but were not related to an increased frameshift efficiency.

摘要

在 HIV-1 感染患者中,持续性抑制病毒复制特别受到 HIV-1 耐药性的阻碍。耐药机制主要涉及直接改变病毒酶和抑制剂相互作用的突变。然而,蛋白酶抑制剂不仅选择蛋白酶中的突变,还选择前体 Gag 和 Pol 蛋白中的突变。在这项研究中,我们分析了 HIV-1 亚型 B 分离物的框架移位调节位点,该位点还编码 Gag 和 Pol 蛋白,分为未经治疗(TN)或蛋白酶抑制剂耐药(PI-R)。HIV-1 Gag 切割位点突变(G435E、K436N、I437V、L449F/V)与蛋白酶抑制剂耐药突变特别相关,但 Pol 切割位点突变(D05G、D05S)也可以分配到特定的蛋白酶耐药谱。此外,在携带蛋白酶耐药突变的 HIV-1 分离物中观察到两个 Gag 非切割位点突变(S440F、H441P)更为常见。然而,在双荧光素酶测定中,特定克隆的框架移位效率没有显示出这些突变的任何影响。尽管如此,两种模式的突变适度增加了体外的框架移位率,但并未特异性地在 PI 耐药的 HIV-1 分离物中积累。总之,HIV-1 Gag 切割位点突变主要在 PI 耐药的 HIV-1 分离物中被选择,但 Pol 切割位点突变也影响蛋白酶的耐药谱。此外,在 PI 耐药的 HIV-1 分离物中积累了 Gag 非切割位点突变,但与框架移位效率的增加无关。

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