HIV-1C 前病毒 DNA 用于检测耐药突变。

HIV-1C proviral DNA for detection of drug resistance mutations.

机构信息

Department of Medical Microbiology, School of Biomedical and Laboratory Sciences, University of Gondar, Gondar, Ethiopia.

Armauer Hansen Research Institute (AHRI), Addis Ababa, Ethiopia.

出版信息

PLoS One. 2018 Oct 4;13(10):e0205119. doi: 10.1371/journal.pone.0205119. eCollection 2018.

DOI:10.1371/journal.pone.0205119

PMID:30286160

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6171930/

Abstract

BACKGROUND

Using HIV proviral DNA as a template may be suitable for initial detection of transmitted drug resistance mutations (TDRMs) as it is easy to handle and less expensive compared to RNA. However, existing literatures which are mainly focused on HIV-1B subtypes DNA extracted from PBMCs revealed controversial findings ranging from the detection of significantly lower or higher mutations in proviral DNA compared to historic viral RNA. Thus, to verify whether viral RNA or proviral DNA has improved sensitivity in detecting transmitted genotypic drug resistance mutations paired viral RNA and proviral DNA (which is directly extracted from stored whole blood) samples were tested from Ethiopian antiretroviral naive HIV-1C infected subjects.

METHODS

In the present comparative study the frequency of TDR mutations was assessed in paired samples of viral RNA and proviral DNA (extracted directly from stored whole blood) of HIV-1C infected treatment naïve patients and interpreted using the 2009 WHO drug resistance surveillance mutation lists, Stanford University drug resistance data base and International Antiviral Society-USA mutation lists.

RESULTS

High agreement in rate of TDR between the two compartments was observed using the WHO mutation lists. While mutations G190A and E138A were concurrently found in both compartments, others such as G73S on PR and A62V, M184I, M230I on RT were identified in proviral DNA only. All signature mutations seen in viral RNA were not missed in proviral DNA.

CONCLUSIONS

The concordance of major genotype drug resistance mutation between RNA and proviral DNA in treatment naïve patients suggests that proviral DNA might be an alternative approaches for an initial assessment of drug resistance prior to initiation of antiretroviral therapy using the WHO mutations lists in resource-limited countries. However, the clinical importance of TDRMs observed only in proviral DNA in terms of being a risk factor for virologic failure and whether they limit future treatment options needs additional investigation using more sensitive sequencing approaches such as Next Generation Sequencing (NGS).

摘要

背景

使用 HIV 前病毒 DNA 作为模板可能适合于初始检测传播耐药突变（TDRMs），因为与 RNA 相比，它易于处理且成本较低。然而，现有的主要集中在从 PBMC 中提取的 HIV-1B 亚型 DNA 的文献揭示了有争议的发现，从检测到前病毒 DNA 中明显低于或高于历史病毒 RNA 的突变不等。因此，为了验证病毒 RNA 或前病毒 DNA 是否提高了检测传播基因型耐药突变的敏感性，对来自埃塞俄比亚抗逆转录病毒治疗初治 HIV-1C 感染患者的配对病毒 RNA 和前病毒 DNA（直接从储存的全血中提取）样本进行了测试。

方法

在本比较研究中，使用 2009 年世界卫生组织耐药监测突变列表、斯坦福大学耐药数据库和国际抗病毒学会-美国突变列表评估了配对的 HIV-1C 感染未经治疗的患者的病毒 RNA 和前病毒 DNA（直接从储存的全血中提取）中 TDR 突变的频率。

结果

使用世卫组织突变列表观察到两个隔室之间 TDR 率的高度一致性。虽然在两个隔室中都发现了 G190A 和 E138A 突变，但其他突变如 PR 上的 G73S 和 RT 上的 A62V、M184I、M230I 仅在前病毒 DNA 中被鉴定出来。在病毒 RNA 中看到的所有特征突变在前病毒 DNA 中都没有遗漏。

结论

在未经治疗的患者中，RNA 和前病毒 DNA 之间主要基因型耐药突变的一致性表明，在前病毒 DNA 中可能是在资源有限的国家使用世卫组织突变列表开始抗逆转录病毒治疗之前，对耐药性进行初始评估的替代方法。然而，在 proviral DNA 中仅观察到的 TDRMs 是否对病毒学失败构成风险因素以及它们是否限制未来的治疗选择，需要使用更敏感的测序方法（如下一代测序（NGS））进行进一步研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8151/6171930/d4ab36dda42a/pone.0205119.g001.jpg

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HIV-1C 前病毒 DNA 用于检测耐药突变。

HIV-1C proviral DNA for detection of drug resistance mutations.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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