非核苷类逆转录酶抑制剂（NNRTI）交叉耐药性：对新型 NNRTIs 的临床前评估和基因型耐药检测的影响。

Non-nucleoside reverse transcriptase inhibitor (NNRTI) cross-resistance: implications for preclinical evaluation of novel NNRTIs and clinical genotypic resistance testing.

机构信息

Department of Medicine, Stanford University, Stanford, CA, USA.

出版信息

J Antimicrob Chemother. 2014 Jan;69(1):12-20. doi: 10.1093/jac/dkt316. Epub 2013 Aug 9.

DOI:10.1093/jac/dkt316

PMID:23934770

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3861329/

Abstract

OBJECTIVES

The introduction of two new non-nucleoside reverse transcriptase inhibitors (NNRTIs) in the past 5 years and the identification of novel NNRTI-associated mutations have made it necessary to reassess the extent of phenotypic NNRTI cross-resistance.

METHODS

We analysed a dataset containing 1975, 1967, 519 and 187 genotype-phenotype correlations for nevirapine, efavirenz, etravirine and rilpivirine, respectively. We used linear regression to estimate the effects of RT mutations on susceptibility to each of these NNRTIs.

RESULTS

Sixteen mutations at 10 positions were significantly associated with the greatest contribution to reduced phenotypic susceptibility (≥10-fold) to one or more NNRTIs, including: 14 mutations at six positions for nevirapine (K101P, K103N/S, V106A/M, Y181C/I/V, Y188C/L and G190A/E/Q/S); 10 mutations at six positions for efavirenz (L100I, K101P, K103N, V106M, Y188C/L and G190A/E/Q/S); 5 mutations at four positions for etravirine (K101P, Y181I/V, G190E and F227C); and 6 mutations at five positions for rilpivirine (L100I, K101P, Y181I/V, G190E and F227C). G190E, a mutation that causes high-level nevirapine and efavirenz resistance, also markedly reduced susceptibility to etravirine and rilpivirine. K101H, E138G, V179F and M230L mutations, associated with reduced susceptibility to etravirine and rilpivirine, were also associated with reduced susceptibility to nevirapine and/or efavirenz.

CONCLUSIONS

The identification of novel cross-resistance patterns among approved NNRTIs illustrates the need for a systematic approach for testing novel NNRTIs against clinical virus isolates with major NNRTI-resistance mutations and for testing older NNRTIs against virus isolates with mutations identified during the evaluation of a novel NNRTI.

摘要

目的

在过去的 5 年中引入了两种新的非核苷类逆转录酶抑制剂（NNRTIs），并发现了新的 NNRTI 相关突变，这使得有必要重新评估表型 NNRTI 交叉耐药的程度。

方法

我们分析了包含分别针对奈韦拉平、依非韦伦、依曲韦林和利匹韦林的 1975、1967、519 和 187 个基因型-表型相关性的数据。我们使用线性回归来估计 RT 突变对每种 NNRTI 敏感性的影响。

结果

在 10 个位置的 16 个突变与对一种或多种 NNRTIs 的表型敏感性降低（≥10 倍）有显著相关性，包括：奈韦拉平的 6 个位置的 14 个突变（K101P、K103N/S、V106A/M、Y181C/I/V、Y188C/L 和 G190A/E/Q/S）；依非韦伦的 6 个位置的 10 个突变（L100I、K101P、K103N、V106M、Y188C/L 和 G190A/E/Q/S）；依曲韦林的 4 个位置的 5 个突变（K101P、Y181I/V、G190E 和 F227C）；利匹韦林的 5 个位置的 6 个突变（L100I、K101P、Y181I/V、G190E 和 F227C）。导致高度耐奈韦拉平和依非韦伦的突变 G190E 也显著降低了对依曲韦林和利匹韦林的敏感性。与依曲韦林和利匹韦林的敏感性降低相关的 K101H、E138G、V179F 和 M230L 突变也与对奈韦拉平和/或依非韦伦的敏感性降低相关。

结论

在已批准的 NNRTIs 之间发现新型交叉耐药模式表明，需要对具有主要 NNRTI 耐药突变的临床病毒分离株进行新型 NNRTI 的系统测试，以及对具有在新型 NNRTI 评估中发现的突变的病毒分离株进行旧的 NNRTI 的测试。

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