LiPA HIV-1 RT检测法第1版的评估：基于序列和杂交的基因分型系统的比较

Evaluation of the LiPA HIV-1 RT assay version 1: comparison of sequence and hybridization based genotyping systems.

作者信息

Stürmer Martin, Morgenstern Birgit, Staszewski Schlomo, Doerr Hans Wilhelm

机构信息

Institut für Medizinische Virologie, Johann Wolfgang Goethe-Universität, Paul-Ehrlich-Str. 40, D-60596 Frankfurt, Germany.

出版信息

J Clin Virol. 2002 Dec;25 Suppl 3:S65-72. doi: 10.1016/s1386-6532(02)00190-7.

DOI:10.1016/s1386-6532(02)00190-7

PMID:12467779

Abstract

BACKGROUND

Specific mutations in the reverse transcriptase (RT) gene of HIV-1 are associated with reduced activity of nucleoside inhibitors used in the antiretroviral treatment of infected patients. The appearance of these mutations may result in therapy failure. Therefore, HIV-1 genotyping is an important tool for monitoring antiretroviral therapy. At present different assay systems are used to obtain information about the changes in the viral genome.

OBJECTIVE

The aim of this study was to evaluate the LiPA HIV-1 RT assay version 1 for monitoring drug resistance mutations in comparison to full-length sequencing.

STUDY DESIGN

Two hundred and forty-four samples were analyzed using the LiPA HIV-1 RT assay version 1 and were compared with full RT gene sequences obtained by in-house sequencing.

RESULTS

In 129/244 (52.9%) samples full concordance between both systems was found, in 86/244 (35.2%) samples at least one position was not detected by the LiPA assay, in 19/244 (7.8%) samples the results were contradictory, and in 10/244 (4.1%) contradictory as well as absent signals from the LiPA assay were found. Analyzing total codons, missing signals were observed at 137 codons, mainly found at positions 41 (40/137) and 215 (41/137). The 32 contradictions between LiPA and sequencing were equally distributed across all codons except for position 184 with only one case. The main reason for missing signals is the heterogeneity of the HIV genome, which could not be fully covered by the LiPA probes, e.g. unusual mutations or polymorphisms in the vicinity of the relevant positions. The same is the case for some contradictions, although most of them are not evident (19/32 positions).

CONCLUSIONS

We analyzed a patient population with partly multiple therapy failures. The LiPA HIV-1 RT assay version 1 gives a high degree of samples with at least one missing signal (39.4%) in our cohort and this is not acceptable for a diagnostic tool. However, the LiPA assay might work better in untreated patients and could, therefore, still be used for screening.

摘要

背景

HIV-1逆转录酶（RT）基因中的特定突变与感染患者抗逆转录病毒治疗中使用的核苷类抑制剂活性降低有关。这些突变的出现可能导致治疗失败。因此，HIV-1基因分型是监测抗逆转录病毒治疗的重要工具。目前使用不同的检测系统来获取病毒基因组变化的信息。

目的

本研究旨在评估LiPA HIV-1 RT检测版本1与全长测序相比在监测耐药突变方面的效果。

研究设计

使用LiPA HIV-1 RT检测版本1对244份样本进行分析，并与通过内部测序获得的完整RT基因序列进行比较。

结果

在129/244（52.9%）的样本中，两个系统完全一致；在86/244（35.2%）的样本中，LiPA检测至少未检测到一个位点；在19/244（7.8%）的样本中，结果相互矛盾；在10/244（4.1%）的样本中，发现LiPA检测结果相互矛盾且无信号。分析总密码子，在137个密码子处观察到信号缺失，主要位于第41位（40/137）和第215位（41/137）。LiPA与测序之间的32处矛盾在除第184位（仅1例）外的所有密码子中均匀分布。信号缺失的主要原因是HIV基因组的异质性，LiPA探针无法完全覆盖，例如相关位置附近的异常突变或多态性。一些矛盾情况也是如此，尽管大多数不明显（19/32个位点）。