Using genotypic and phenotypic methods to determine the HIV co-receptor phenotype in the clinical setting

Low, Andrew John

05 1900

Objective: The human immunodeficiency virus type 1 (HIV-1) currently infects over 30 million people worldwide. It uses one of two main co-receptors to infect cells. The primary objective of this thesis is to evaluate genotypic and phenotypic assays for co-receptor usage in the clinical setting and investigate approaches for improvement of these assays. Methods: The concordance of recombinant co-receptor phenotyping assays and the predictive ability of genotype-based methods including the ‘11/25’ rule, position specific scoring matrices (PSSMs), and support vector machines (SVMs) were evaluated in the clinical setting using patient-derived plasma samples. Samples and patient data were evaluated in cross-sectional analyses from a retrospective population-based cohort of HIV-infected individuals enrolled in the HIV/AIDS Drug Treatment Program in British Columbia, Canada. Results: Current implementations of HIV V3 region-based predictors for HIV co-receptor usage tested on patient derived samples are inadequate in the clinical setting, primarily due to low sensitivities as a result of difficult to detect minority species. Recombinant phenotype assays also show discordances when tested against each other on the same set of patient derived samples, raising doubts if any of these assays can truly be considered a ‘gold standard’. Significant associations between clinical progression, viral sequence-based predictors of co-receptor usage and the output of recombinant assays are observed, suggesting that sensitivity can be improved by incorporating CD4% into genotype-based predictors. This is verified with a SVM model which showed a 17% increase in sensitivity when CD4% was incorporated into training and testing. Conclusion: This work in this thesis has exposed the difficulty in determining the co-receptor phenotype in the clinical setting, primarily due to minority species. Although genotypic methods of screening for HIV co-receptor usage prior to the administration of CCR5 antagonists may reduce costs and increase turn-around time over phenotypic methods, they are currently inadequate for use in the clinical setting due to low sensitivities. Although the addition of clinical parameters such as CD4 count significantly increases the predictive ability of genotypic methods, the presence of low-levels of X4 virus continues to reduce the sensitivity of both genotypic and phenotypic methods.

HIV

co-receptor

Phenotype

Assay

V3

Prediction

Understanding Receptor Adaptation And Co-receptor Use For Feline Leukemia Viruses

Hussain, Naveen

10 August 2009

Feline leukemia viruses (FeLVs) are pathogenic retroviruses of the domestic cat. FeLV transmission and emergence of pathogenic variants show striking similarity to HIV pathogenesis. The emergence of pathogenic subgroup-C FeLV from the transmitted subgroup-A FeLV coincides with a switch in host receptor used for infection as a result of mutations in the viral envelope protein (Env). I have characterized a novel FeLV Env that may represent an evolutionary intermediate between FeLV-A and FeLV-C. I have also reported evidence suggesting that FeLVs may use co-factors/co-receptors for infection. I have found that FeLVs inefficiently infect murine NIH3T3 cells overexpressing FeLV receptors (NIH3T3/Receptor). I have provided evidence that the low infection is caused by a block at a post-binding but pre-entry stage of FeLV infection. Furthermore, fusion of NIH3T3/Receptor cells with highly susceptible cells rescues inhibition to infection suggesting that FeLVs, like HIV, may also use co-receptors for infection.

Feline Leukemia Virus

Co-receptor

Evolution

0720

Understanding Receptor Adaptation And Co-receptor Use For Feline Leukemia Viruses

Hussain, Naveen

10 August 2009

Feline leukemia viruses (FeLVs) are pathogenic retroviruses of the domestic cat. FeLV transmission and emergence of pathogenic variants show striking similarity to HIV pathogenesis. The emergence of pathogenic subgroup-C FeLV from the transmitted subgroup-A FeLV coincides with a switch in host receptor used for infection as a result of mutations in the viral envelope protein (Env). I have characterized a novel FeLV Env that may represent an evolutionary intermediate between FeLV-A and FeLV-C. I have also reported evidence suggesting that FeLVs may use co-factors/co-receptors for infection. I have found that FeLVs inefficiently infect murine NIH3T3 cells overexpressing FeLV receptors (NIH3T3/Receptor). I have provided evidence that the low infection is caused by a block at a post-binding but pre-entry stage of FeLV infection. Furthermore, fusion of NIH3T3/Receptor cells with highly susceptible cells rescues inhibition to infection suggesting that FeLVs, like HIV, may also use co-receptors for infection.

Feline Leukemia Virus

Co-receptor

Evolution

0720

Using genotypic and phenotypic methods to determine the HIV co-receptor phenotype in the clinical setting

Low, Andrew John

05 1900

Objective: The human immunodeficiency virus type 1 (HIV-1) currently infects over 30 million people worldwide. It uses one of two main co-receptors to infect cells. The primary objective of this thesis is to evaluate genotypic and phenotypic assays for co-receptor usage in the clinical setting and investigate approaches for improvement of these assays. Methods: The concordance of recombinant co-receptor phenotyping assays and the predictive ability of genotype-based methods including the ‘11/25’ rule, position specific scoring matrices (PSSMs), and support vector machines (SVMs) were evaluated in the clinical setting using patient-derived plasma samples. Samples and patient data were evaluated in cross-sectional analyses from a retrospective population-based cohort of HIV-infected individuals enrolled in the HIV/AIDS Drug Treatment Program in British Columbia, Canada. Results: Current implementations of HIV V3 region-based predictors for HIV co-receptor usage tested on patient derived samples are inadequate in the clinical setting, primarily due to low sensitivities as a result of difficult to detect minority species. Recombinant phenotype assays also show discordances when tested against each other on the same set of patient derived samples, raising doubts if any of these assays can truly be considered a ‘gold standard’. Significant associations between clinical progression, viral sequence-based predictors of co-receptor usage and the output of recombinant assays are observed, suggesting that sensitivity can be improved by incorporating CD4% into genotype-based predictors. This is verified with a SVM model which showed a 17% increase in sensitivity when CD4% was incorporated into training and testing. Conclusion: This work in this thesis has exposed the difficulty in determining the co-receptor phenotype in the clinical setting, primarily due to minority species. Although genotypic methods of screening for HIV co-receptor usage prior to the administration of CCR5 antagonists may reduce costs and increase turn-around time over phenotypic methods, they are currently inadequate for use in the clinical setting due to low sensitivities. Although the addition of clinical parameters such as CD4 count significantly increases the predictive ability of genotypic methods, the presence of low-levels of X4 virus continues to reduce the sensitivity of both genotypic and phenotypic methods.

HIV

co-receptor

Phenotype

Assay

V3

Prediction

Using genotypic and phenotypic methods to determine the HIV co-receptor phenotype in the clinical setting

Low, Andrew John

05 1900

Objective: The human immunodeficiency virus type 1 (HIV-1) currently infects over 30 million people worldwide. It uses one of two main co-receptors to infect cells. The primary objective of this thesis is to evaluate genotypic and phenotypic assays for co-receptor usage in the clinical setting and investigate approaches for improvement of these assays. Methods: The concordance of recombinant co-receptor phenotyping assays and the predictive ability of genotype-based methods including the ‘11/25’ rule, position specific scoring matrices (PSSMs), and support vector machines (SVMs) were evaluated in the clinical setting using patient-derived plasma samples. Samples and patient data were evaluated in cross-sectional analyses from a retrospective population-based cohort of HIV-infected individuals enrolled in the HIV/AIDS Drug Treatment Program in British Columbia, Canada. Results: Current implementations of HIV V3 region-based predictors for HIV co-receptor usage tested on patient derived samples are inadequate in the clinical setting, primarily due to low sensitivities as a result of difficult to detect minority species. Recombinant phenotype assays also show discordances when tested against each other on the same set of patient derived samples, raising doubts if any of these assays can truly be considered a ‘gold standard’. Significant associations between clinical progression, viral sequence-based predictors of co-receptor usage and the output of recombinant assays are observed, suggesting that sensitivity can be improved by incorporating CD4% into genotype-based predictors. This is verified with a SVM model which showed a 17% increase in sensitivity when CD4% was incorporated into training and testing. Conclusion: This work in this thesis has exposed the difficulty in determining the co-receptor phenotype in the clinical setting, primarily due to minority species. Although genotypic methods of screening for HIV co-receptor usage prior to the administration of CCR5 antagonists may reduce costs and increase turn-around time over phenotypic methods, they are currently inadequate for use in the clinical setting due to low sensitivities. Although the addition of clinical parameters such as CD4 count significantly increases the predictive ability of genotypic methods, the presence of low-levels of X4 virus continues to reduce the sensitivity of both genotypic and phenotypic methods. / Medicine, Faculty of / Medicine, Department of / Experimental Medicine, Division of / Graduate

HIV

co-receptor

Phenotype

Assay

V3

Prediction

RNA and DNA Inactivation Strategies to Prevent or Inhibit HIV-1 Replication via Gene Therapy

Nazari, Reza

20 January 2009

AIDS is caused by a lentivirus, HIV-1. In addition to antiretroviral drugs that are currently in use for HIV/AIDS therapy, a number of gene therapy strategies have been designed as alternative therapies. Most of these therapies target HIV RNA/proteins, which are subject to high rate of mutation, resulting in escape mutants. Viral entry is mediated by CCR5 co-receptor in most routes of transmission. To downregulate CCR5 as a gene therapy approach, we targeted seven unique sites within the CCR5 mRNA by a multimeric hammerhead ribozyme, Rz1-7. Hammerhead ribozyme is a small RNA that cleaves a target RNA upon binding to it. Expressing the Rz1-7 from HIV-1- and MSCV-based vectors in otherwise susceptible cells inhibited replication of a CCR5-tropic strain of HIV-1 by 99-100%. The Rz1-7 will be tested for inhibition of HIV-1 replication in the CD4+ T-lymphoid and myeloid progeny of transduced human CD34+ hematopoietic progenitor stem cells. It may be preferable to interfere HIV-1 life cycle at the DNA level since a one-time inactivation might suffice to confer a complete and permanent inhibition of virus replication in the gene modified cells and their progeny. This is what other strategies that target the HIV-1 RNA/protein can hardly offer. For this purpose, group II introns, which are able to splice out and get incorporated into a specific DNA sequence, can be designed/modified to gain novel DNA targeting specificities. As a novel approach, we have examined whether insertion of a modified intron into an infectious HIV-1 clone at two sites within the integrase domain of HIV-1 pol gene could inhibit virus replication. Intron insertion into the HIV-1 clone was induced and mammalian cells were transfected with intron-inserted HIV-1 clones. Although similar amounts of HIV-1 RNA, protein, and progeny virus were produced from the clones as from wild-type HIV-1 provirus DNA, in the absence of a functional integrase, the HIV-1 reverse-transcribed DNA failed to integrate and virus replication was aborted. These results demonstrate that modified group II introns can confer complete inhibition of virus replication at the level of second round of infection. We are now developing vectors to assess whether intron insertion can take place in mammalian cells.

HIV-1 gene therapy

Interfering RNA

CCR5 co-receptor

Integrase

Hammerhead ribozyme

Group II intron

0307

RNA and DNA Inactivation Strategies to Prevent or Inhibit HIV-1 Replication via Gene Therapy

Nazari, Reza

20 January 2009

AIDS is caused by a lentivirus, HIV-1. In addition to antiretroviral drugs that are currently in use for HIV/AIDS therapy, a number of gene therapy strategies have been designed as alternative therapies. Most of these therapies target HIV RNA/proteins, which are subject to high rate of mutation, resulting in escape mutants. Viral entry is mediated by CCR5 co-receptor in most routes of transmission. To downregulate CCR5 as a gene therapy approach, we targeted seven unique sites within the CCR5 mRNA by a multimeric hammerhead ribozyme, Rz1-7. Hammerhead ribozyme is a small RNA that cleaves a target RNA upon binding to it. Expressing the Rz1-7 from HIV-1- and MSCV-based vectors in otherwise susceptible cells inhibited replication of a CCR5-tropic strain of HIV-1 by 99-100%. The Rz1-7 will be tested for inhibition of HIV-1 replication in the CD4+ T-lymphoid and myeloid progeny of transduced human CD34+ hematopoietic progenitor stem cells. It may be preferable to interfere HIV-1 life cycle at the DNA level since a one-time inactivation might suffice to confer a complete and permanent inhibition of virus replication in the gene modified cells and their progeny. This is what other strategies that target the HIV-1 RNA/protein can hardly offer. For this purpose, group II introns, which are able to splice out and get incorporated into a specific DNA sequence, can be designed/modified to gain novel DNA targeting specificities. As a novel approach, we have examined whether insertion of a modified intron into an infectious HIV-1 clone at two sites within the integrase domain of HIV-1 pol gene could inhibit virus replication. Intron insertion into the HIV-1 clone was induced and mammalian cells were transfected with intron-inserted HIV-1 clones. Although similar amounts of HIV-1 RNA, protein, and progeny virus were produced from the clones as from wild-type HIV-1 provirus DNA, in the absence of a functional integrase, the HIV-1 reverse-transcribed DNA failed to integrate and virus replication was aborted. These results demonstrate that modified group II introns can confer complete inhibition of virus replication at the level of second round of infection. We are now developing vectors to assess whether intron insertion can take place in mammalian cells.

HIV-1 gene therapy

Interfering RNA

CCR5 co-receptor

Integrase

Hammerhead ribozyme

Group II intron

0307

Examination of the role of envelope directed antibodies on co-receptor usage in HIV-1B infection

Registre, Ludy

12 June 2018

HIV-1 primarily utilizes the CCR5 receptor as a co-receptor, but over time, viruses can evolve to use the CXCR4 protein. Changes in the viral envelope V3 loop mediate this switch. The emergence of CXCR4-utilizing viruses has been presumed to occur as a consequence of decreased humoral immunity. We show that exclusively CXCR4-using (X4) viruses contain a 2 to 3 amino acid insertion in the V3 loop. Structural modeling revealed that this insertion caused a protrusion in the V3 loop, which impacts CCR5 receptor interaction. These genotypic and structural motifs affected neutralization susceptibility because X4, as compared to co-circulating CCR5-utilizing (R5) viruses, were less neutralization sensitive to autologous contemporaneous and heterologous plasma. Individuals with co-circulating X4 and R5, as compared to those with only R5, viruses had similar neutralization breadth and potency indicating that the emergence of X4 viruses is not associated with decreased humoral immunity. These results suggest that X4 viruses are neutralization escape variants and arise due to humoral selective pressure. This work has implications for future antibody-based therapeutics. Along with providing a framework for developing an HIV-1 vaccine, broadly neutralizing antibodies (bnAbs) are also being investigated as a potential therapeutic. BnAbs target a limited number of conserved HIV-1 envelope structures, including glycans in and around the V1/V2 and V3 domains. Along with the V3 loop, changes in V1/V2 are also known to impact co-receptor usage. We show that viruses that exclusively use the CXCR4 co-receptor, as compared to variants that only utilize CCR5, were less neutralization sensitive to V1/V2 and V3 directed bnAbs. In contrast, R5 and X4 viruses did not demonstrate neutralization differences to bnAbs that target non-V1/V2 and V3 envelope regions, such as the CD4 binding site and the membrane proximal external region. Structural modeling revealed that the predicted orientation of the V1/V2 loop among diverse HIV-1 variants predicts susceptibility to V3 loop directed bnAbs. In aggregate, our results suggest that viruses with different co-receptor usage have differing bnAb susceptibility. Furthermore, structural modeling may be used as a tool to predict neutralization susceptibility to bnAbs against regions associated with co-receptor usage. / 2020-06-12T00:00:00Z

Microbiology

CCR5

CXCR4

HIV

Broadly neutralizing antibodies CCR5

Co-receptor

Neutralization

Generation of a neutralization-resistant CCR5 tropic SHIV-MK38 molecular clone, a derivative of SHIV-89.6 / SHIV-89.6の派生ウイルスである中和抵抗性かつCCR5指向性SHIV-MK38分子クローンの作製

Ishida, Yuki

23 May 2016

京都大学 / 0048 / 新制・課程博士 / 博士(人間・環境学) / 甲第19903号 / 人博第789号 / 新制||人||190(附属図書館) / 28||人博||789(吉田南総合図書館) / 32980 / 京都大学大学院人間・環境学研究科相関環境学専攻 / (主査)准教授 三浦 智行, 教授 川本 卓男, 教授 宮下 英明 / 学位規則第4条第1項該当 / Doctor of Human and Environmental Studies / Kyoto University / DFAM

SHIV

co-receptor usage

neutralization phenotype

rhesus macaque

animal model

361

Study of 2D kinetics and force regulation in T cell recognition

Hong, Jin Sung

08 June 2015

T cell activation and thymic selection are thought to be determined by the binding propensity (avidity or affinity) of the T cell receptor (TCR) to its ligands. However, binding propensity quantified by previous 3D TCR–pMHC kinetics such as using tetramer staining or surface plasmon resonance (SPR) under estimate TCR–pMHC interaction due to neglecting physiological conditions. Recent studies considering membrane contribution in TCR–pMHC interaction reported 2D kinetics and force regulated bond dissociation kinetics have better prediction to biological responses in CD8+ T cells. In this study, we further tested the findings in CD4+ T cells and CD4+ CD8+ (double-positive, DP) thymocytes. We analyzed TCR–pMHC interaction for a well-characterized panel of altered peptide ligands (APLs) on multiple transgenic mouse TCR systems. Using ultrasensitive 2D mechanical assays, in situ 2D kinetic measurements show better sensitivity than the SPR 3D kinetic measurements in gauging the ligand potency and thymic selection. Furthermore, force-regulated bond lifetime of TCR–pMHC interaction amplifies the discrimination in recognition of APLs and thymic selection. When force was applied to TCR–pMHC–CD4/8 bonds, two distinct patterns emerged: agonist/negative selecting ligands formed CD4/8-dependent catch-slip bonds where lifetime first increased, reached a maximum, then decreased with increasing force, whereas antagonist/positive selecting ligands formed slip-only bonds where lifetime monotonically decreases with increasing force. Our results highlight an important role of mechanical force in ligand discrimination and suggest a new mechanism for T cell activation and thymic selection that is distinct from previous models based on 3D measurements.

T cell recognition

T cell activation

Thymic selection

TCR-pMHC interaction

Co-receptor cooperativity

2D kinetics

Catch bond