M50I 多态性取代与 HIV-1 亚型 B 整合酶中的 R263K 突变相关，增加了药物耐药性，但不能恢复病毒复制适应性。

The M50I polymorphic substitution in association with the R263K mutation in HIV-1 subtype B integrase increases drug resistance but does not restore viral replicative fitness.

机构信息

Lady Davis Institute for Medical Research, McGill University AIDS Centre, Jewish General Hospital, Montreal, Quebec, Canada.

出版信息

Retrovirology. 2014 Jan 17;11:7. doi: 10.1186/1742-4690-11-7.

DOI:10.1186/1742-4690-11-7

PMID:24433497

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3898230/

Abstract

BACKGROUND

First-generation integrase strand-transfer inhibitors (INSTIs), such as raltegravir (RAL) and elvitegravir (EVG), have been clinically proven to be effective antiretrovirals for the treatment of HIV-positive patients. However, their relatively low genetic barrier for resistance makes them susceptible to the emergence of drug resistance mutations. In contrast, dolutegravir (DTG) is a newer INSTI that appears to have a high genetic barrier to resistance in vivo. However, the emergence of the resistance mutation R263K followed by the polymorphic substitution M50I has been observed in cell culture. The M50I polymorphism is also observed in 10-25% of INSTI-naïve patients and has been reported in combination with R263K in a patient failing treatment with RAL.

RESULTS

Using biochemical cell-free strand-transfer assays and resistance assays in TZM-bl cells, we demonstrate that the M50I polymorphism in combination with R263K increases resistance to DTG in tissue culture and in biochemical assays but does not restore the viral fitness cost associated with the R263K mutation.

CONCLUSIONS

Since the combination of the R263K mutation and the M50I polymorphism results in a virus with decreased viral fitness and limited cross-resistance, the R263K resistance pathway may represent an evolutionary dead-end. Although this hypothesis has not yet been proven, it may be more advantageous to treat HIV-positive individuals with DTG in first-line than in second or third-line therapy.

摘要

背景

第一代整合酶链转移抑制剂（INSTIs），如拉替拉韦（RAL）和艾维雷格（EVG），已被临床证明是治疗 HIV 阳性患者的有效抗逆转录病毒药物。然而，它们相对较低的耐药基因屏障使它们容易产生耐药突变。相比之下，多替拉韦（DTG）是一种新型的 INSTI，在体内似乎具有较高的耐药基因屏障。然而，在细胞培养中已经观察到耐药突变 R263K 随后出现多态性取代 M50I。M50I 多态性也在 10-25%未经 INSTI 治疗的患者中观察到，并在 RAL 治疗失败的患者中与 R263K 一起报告。

结果

我们通过生化无细胞链转移测定和 TZM-bl 细胞中的耐药测定，证明 M50I 多态性与 R263K 联合增加了 DTG 在组织培养和生化测定中的耐药性，但不能恢复与 R263K 突变相关的病毒适应性成本。

结论

由于 R263K 突变和 M50I 多态性的组合导致病毒的病毒适应性降低和有限的交叉耐药性，因此 R263K 耐药途径可能代表进化的死胡同。尽管这一假设尚未得到证实，但在一线治疗中使用 DTG 治疗 HIV 阳性个体可能比二线或三线治疗更具优势。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c48c/3898230/a277306371b1/1742-4690-11-7-1.jpg

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M50I 多态性取代与 HIV-1 亚型 B 整合酶中的 R263K 突变相关，增加了药物耐药性，但不能恢复病毒复制适应性。

The M50I polymorphic substitution in association with the R263K mutation in HIV-1 subtype B integrase increases drug resistance but does not restore viral replicative fitness.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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