JIANG Shi Bo

doi:10.3967/bes2016.031

doi: 10.3967/bes2016.031

基金项目: grants from the State Key Laboratory of Infectious Disease Prevention and Control(2011SKLID102)%the National Nature Science Foundation of China(81172733 and81561128006)%the 12thFive-Year National Science and Technology Major Project(2013ZX10001-006)

Distinctive Drug-resistant Mutation Profiles and Interpretations of HIV-1 Proviral DNA Revealed by Deep Sequencing in Reverse Transcriptase

JIANG Shi Bo

Key Laboratory of Medical Molecular Virology Ministries of Education and Health, Shanghai Medical College and Institute of Medical Microbiology, Fudan University, Shanghai 200433, China

Funds: grants from the State Key Laboratory of Infectious Disease Prevention and Control(2011SKLID102)%the National Nature Science Foundation of China(81172733 and81561128006)%the 12thFive-Year National Science and Technology Major Project(2013ZX10001-006)

摘要: ObjectiveTo investigate distinctive features in drug-resistant mutations(DRMs) and interpretations for reverse transcriptase inhibitors (RTIs) between proviral DNA and paired viral RNA in HIV-1-infected patients.
MethodsForty-three HIV-1-infected individuals receiving first-line antiretroviral therapy were recruited to participate in a multicenter AIDS Cohort Study in Anhui and Henan Provinces in China in 2004. Drug resistance genotyping was performed by bulk sequencing and deep sequencing on the plasma and whole blood of 77 samples, respectively. Drug-resistance interpretation was compared
between viral RNA and paired proviral DNA.
ResultsCompared with bulk sequencing, deep sequencing could detect more DRMs and samples with DRMs in both viral RNA and proviral DNA. The mutations M184I and M230I were more prevalent in proviral DNA than in viral RNA (Fisher’s exact test,P<0.05). Considering‘majority resistant variants’,15 samples (19.48%) showed differences in drug resistance interpretation between viral RNA and proviral DNA, and 5 of these samples with different DRMs between proviral DNA and paired viral RNA showed a higher level of drug resistance to the first-line drugs.Considering‘minority resistant variants’, 22 samples (28.57%) were associated with a higher level of drug resistance to the tested RTIs for proviral DNA when compared with paired viral RNA.
ConclusionCompared with viral RNA, the distinctive information of DRMsand drug resistance interpretations for proviral DNA could be obtained by deep sequencing, which could provide more detailed and precise information for drug resistance monitoring and the rational design of optimal antiretroviral therapy regimens.
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Abstract: ObjectiveTo investigate distinctive features in drug-resistant mutations(DRMs) and interpretations for reverse transcriptase inhibitors (RTIs) between proviral DNA and paired viral RNA in HIV-1-infected patients.
MethodsForty-three HIV-1-infected individuals receiving first-line antiretroviral therapy were recruited to participate in a multicenter AIDS Cohort Study in Anhui and Henan Provinces in China in 2004. Drug resistance genotyping was performed by bulk sequencing and deep sequencing on the plasma and whole blood of 77 samples, respectively. Drug-resistance interpretation was compared
between viral RNA and paired proviral DNA.
ResultsCompared with bulk sequencing, deep sequencing could detect more DRMs and samples with DRMs in both viral RNA and proviral DNA. The mutations M184I and M230I were more prevalent in proviral DNA than in viral RNA (Fisher’s exact test,P<0.05). Considering‘majority resistant variants’,15 samples (19.48%) showed differences in drug resistance interpretation between viral RNA and proviral DNA, and 5 of these samples with different DRMs between proviral DNA and paired viral RNA showed a higher level of drug resistance to the first-line drugs.Considering‘minority resistant variants’, 22 samples (28.57%) were associated with a higher level of drug resistance to the tested RTIs for proviral DNA when compared with paired viral RNA.
ConclusionCompared with viral RNA, the distinctive information of DRMsand drug resistance interpretations for proviral DNA could be obtained by deep sequencing, which could provide more detailed and precise information for drug resistance monitoring and the rational design of optimal antiretroviral therapy regimens.
- HIV-1 drug-resistant mutation /
- Drug-resistance interpretation /
- Proviral DNA /
- Viral RNA /
- Deep sequencing

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doi: 10.3967/bes2016.031

Distinctive Drug-resistant Mutation Profiles and Interpretations of HIV-1 Proviral DNA Revealed by Deep Sequencing in Reverse Transcriptase

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Distinctive Drug-resistant Mutation Profiles and Interpretations of HIV-1 Proviral DNA Revealed by Deep Sequencing in Reverse Transcriptase

doi: 10.3967/bes2016.031

English Abstract

Distinctive Drug-resistant Mutation Profiles and Interpretations of HIV-1 Proviral DNA Revealed by Deep Sequencing in Reverse Transcriptase

Key Laboratory of Medical Molecular Virology Ministries of Education and Health, Shanghai Medical College and Institute of Medical Microbiology, Fudan University, Shanghai 200433, China

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doi: 10.3967/bes2016.031

Distinctive Drug-resistant Mutation Profiles and Interpretations of HIV-1 Proviral DNA Revealed by Deep Sequencing in Reverse Transcriptase

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Distinctive Drug-resistant Mutation Profiles and Interpretations of HIV-1 Proviral DNA Revealed by Deep Sequencing in Reverse Transcriptase

doi: 10.3967/bes2016.031

English Abstract

Distinctive Drug-resistant Mutation Profiles and Interpretations of HIV-1 Proviral DNA Revealed by Deep Sequencing in Reverse Transcriptase

Key Laboratory of Medical Molecular Virology Ministries of Education and Health, Shanghai Medical College and Institute of Medical Microbiology, Fudan University, Shanghai 200433, China

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