Your search keyword '"v3 loop"' showing total 1,465 results

1. V3 tip determinants of susceptibility to inhibition by CD4-mimetic compounds in natural clade A human immunodeficiency virus (HIV-1) envelope glycoproteins.

Author

Anang, Saumya, Zhang, Shijian, Fritschi, Christopher, Ta-Jung Chiu, Yang, Derek, Smith III, Amos B., Madani, Navid, and Sodroski, Joseph

Subjects

*GLYCOPROTEINS, *HIV, *P-glycoprotein, *VIRUS inactivation, *BINDING sites

Abstract

CD4-mimetic compounds (CD4mcs) bind the human immunodeficiency virus (HIV-1) gp120 exterior envelope glycoprotein (Env) and compete for binding to CD4, the host receptor. CD4mcs prematurely trigger conformational changes in Env similar to those induced by CD4, leading to transient activation of infectivity followed by irreversible virus inactivation. Natural HIV-1 variants exhibit a wide range of susceptibilities to CD4mc inhibition, only a small fraction of which can be explained by variation in the gp120 Phe-43 cavity/vestibule where CD4mcs bind. Here, we study Envs from the resistant HIV-1BG505 and the more sensitive HIV-1191955_A4 clade A strains. The major determinant of the relative sensitivity of the HIV-1191955_A4 Env to CD4mcs mapped to a single residue change (F317Y) in the tip of the gp120 V3 variable loop. In the Envs of several HIV-1 strains, replacement of the more prevalent Phe 317 with a tyrosine residue increased virus sensitivity to multiple CD4mcs. Tryptophan substitutions at residues 317 and 316 resulted in increases and decreases, respectively, in sensitivity to CD4mcs. Some of the gp120 V3 changes increased virus sensitivity to inactivation by both CD4mc and cold exposure, phenotypes indicative of increased Env triggerability. Infection of CD4-negative cells expressing the CCR5 coreceptor by these Env variants was triggered more efficiently by CD4mcs. For the panel of studied HIV-1 Envs, resistance to the CD4mcs was associated with decreased ability to support virus entry. These studies illustrate how variation in gp120 outside the CD4mc binding site can influence the sensitivity of natural HIV-1 strains to inhibition by these compounds. [ABSTRACT FROM AUTHOR]

Published

2023

2. Substitution of gp120 C4 region compensates for V3 loss-of-fitness mutations in HIV-1 CRF01_AE co-receptor switching

Author

Yueyang Yu, Yi Feng, Zehua Zhou, Kang Li, Xiaoyan Hu, Lingjie Liao, Hui Xing, and Yimig Shao

Subjects

HIV-1, tropism, coreceptor-switching, C4 region, V3 loop, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTHIV-1 infection is mediated by a viral envelope subsequently binding to CD4 receptor and two main coreceptors, CCR5 (R5) for primary infection and CXCR4 (X4) in chronic infection. Switching from R5 to X4 tropism in HIV-1 infection is associated with increased viral pathogenesis and disease progression. The coreceptor switching is mainly due to variations in the V3 loop, while the mechanism needs to be further elucidated. We systematically studied the determinant for HIV-1 coreceptor switching by substitution of the genes from one R5 and one X4 pseudoviruses. The study results in successfully constructing two panels of chimeric viruses of R5 to X4 forward and X4 to R5 reverse switching. The determinants for tropism switching are the combined substitution of the V3 loop and C4 region of the HIV-1 envelope. The possible mechanism of the tropism switching includes two components, the V3 loop to enable the viral envelope binding to the newly switched coreceptor and the C4 region, to compensate for the loss of fitness caused by deleterious V3 loop mutations to maintain the overall viral viability. The combined C4 and V3 substitution showed at least an eightfold increase in replication activity compared with the pseudovirus with only V3 loop substitution. The site-directed mutations of N425R and S440-I442 with charged amino acids could especially increase viral activity. This study could facilitate HIV-1 phenotype surveillance and select right entry inhibitor, CCR5 or CXCR4 antagonists, for antiviral therapy.

Published

2023

3. Structure of CC Chemokine Receptor 5 with a Potent Chemokine Antagonist Reveals Mechanisms of Chemokine Recognition and Molecular Mimicry by HIV

Author

Zheng, Yi, Han, Gye Won, Abagyan, Ruben, Wu, Beili, Stevens, Raymond C, Cherezov, Vadim, Kufareva, Irina, and Handel, Tracy M

Subjects

Infectious Diseases, HIV/AIDS, Biotechnology, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Infection, Good Health and Well Being, Animals, CCR5 Receptor Antagonists, Chemokine CCL5, Cloning, Molecular, Crystallography, X-Ray, Cyclohexanes, HIV Envelope Protein gp120, HIV Fusion Inhibitors, HIV Infections, HIV-1, Humans, Maraviroc, Models, Molecular, Molecular Mimicry, Protein Binding, Protein Conformation, Receptors, CCR5, Sf9 Cells, Spodoptera, Structure-Activity Relationship, Triazoles, Virus Internalization, CCL5/RANTES, CCR5-gp120 interaction, Chemokine antagonist, G protein-coupled receptor, HIV entry inhibitor, V3 loop, maraviroc, membrane protein structure, two-site model, viral mimicry, Immunology

Abstract

CCR5 is the primary chemokine receptor utilized by HIV to infect leukocytes, whereas CCR5 ligands inhibit infection by blocking CCR5 engagement with HIV gp120. To guide the design of improved therapeutics, we solved the structure of CCR5 in complex with chemokine antagonist [5P7]CCL5. Several structural features appeared to contribute to the anti-HIV potency of [5P7]CCL5, including the distinct chemokine orientation relative to the receptor, the near-complete occupancy of the receptor binding pocket, the dense network of intermolecular hydrogen bonds, and the similarity of binding determinants with the FDA-approved HIV inhibitor Maraviroc. Molecular modeling indicated that HIV gp120 mimicked the chemokine interaction with CCR5, providing an explanation for the ability of CCR5 to recognize diverse ligands and gp120 variants. Our findings reveal that structural plasticity facilitates receptor-chemokine specificity and enables exploitation by HIV, and provide insight into the design of small molecule and protein inhibitors for HIV and other CCR5-mediated diseases.

Published

2017

4. Species-Specific Valid Ternary Interactions of HIV-1 Env-gp120, CD4, and CCR5 as Revealed by an Adaptive Single-Amino Acid Substitution at the V3 Loop Tip.

Author

Takaaki Koma, Masaru Yokoyama, Osamu Kotani, Naoya Doi, Nina Nakanishi, Hayato Okubo, Shun Adachi, Akio Adachi, Hironori Sato, and Masako Nomaguchi

Subjects

*HIV, *VIRAL tropism, *CELL receptors, *ALLOSTERIC regulation, *VIRUS diseases, *MOLECULAR interactions, *GLYCINE receptors

Abstract

Molecular interactions of the variable envelope gp120 subunit of HIV-1 with two cellular receptors are the first step of viral infection, thereby playing pivotal roles in determining viral infectivity and cell tropism. However, the underlying regulatory mechanisms for interactions under gp120 spontaneous variations largely remain unknown. Here, we show an allosteric mechanism in which a single gp120 mutation remotely controls the ternary interactions between gp120 and its receptors for the switch of viral cell tropism. Virological analyses showed that a G310R substitution at the tip of the gp120 V3 loop selectively abolished the viral replication ability in human cells, despite evoking enhancement of viral replication in macaque cells. Molecular dynamics (MD) simulations predicted that the G310R substitution at a site away from the CD4 interaction site selectively impeded the binding ability of gp120 to human CD4. Consistently, virions with the G310R substitution exhibited a reduced binding ability to human lymphocyte cells. Furthermore, the G310R substitution influenced the gp120-CCR5 interaction in a CCR5-type dependent manner as assessed by MD simulations and an infectivity assay using exogenously expressed CCR5s. Interestingly, an I198M mutation in human CCR5 restored the infectivity of the G310R virus in human cells. Finally, MD simulation predicted amino acid interplays that physically connect the V3 loop and gp120 elements for the CD4 and CCR5 interactions. Collectively, these results suggest that the V3 loop tip is a cis-allosteric regulator that remotely controls intra- and intermolecular interactions of HIV-1 gp120 for balancing ternary interactions with CD4 and CCR5. IMPORTANCE Understanding the molecular bases for viral entry into cells will lead to the elucidation of one of the major viral survival strategies, and thus to the development of new effective antiviral measures. As shown recently, HIV-1 is highly mutable and adaptable in growth-restrictive cells, such as those of macaque origin. HIV-1 initiates its infection by sequential interactions of Env-gp120 with two cell surface receptors, CD4 and CCR5. A recent epoch-making structural study has disclosed that CD4-induced conformation of gp120 is stabilized upon binding of CCR5 to the CD4-gp120 complex, whereas the biological significance of this remains totally unknown. Here, from a series of mutations found in our extensive studies, we identified a single-amino acid adaptive mutation at the V3 loop tip of Env-gp120 critical for its interaction with both CD4 and CCR5 in a host cell species-specific way. This remarkable finding could certainly provoke and accelerate studies to precisely clarify the HIV-1 entry mechanism. [ABSTRACT FROM AUTHOR]

Published

2021

5. Highly prevalent Russian HIV-1 V3-loop sequence variants are susceptible to maraviroc.

Author

Lewis, M. E., Jubb, B., Simpson, P., Lopatukhin, A., Kireev, D., Bobkova, M., Craig, C., van der Ryst, E., Westby, M., and Butler, S. L.

Subjects

HIV, MARAVIROC (Drug), CLINICAL trials, AMINO acids, PHENOTYPES

Abstract

Introduction: Maraviroc inhibits CCR5-tropic HIV-1 across different subtypes in vitro and has demonstrated efficacy in clinical trials. V3-loop amino acid variants observed in individual maraviroc-resistant viruses have not been found to be predictive of reduced susceptibility. Sequence-database searches have demonstrated that approximately 7.3% of viruses naturally encode these variants, raising concerns regarding potential pre-existing resistance. A study from Russia reported that combinations of these same amino acids are present in the V3 loops of the Russian variant subtype A (IDU-A, now A6) with a much greater prevalence (range: 74.4%-92.3%) depending on the combination. However, these studies and database searches did not include phenotypic evaluation. Methods: Sixteen Russian HIV-1 isolates (including sub-subtype A6 viruses) were assessed for V3 loop sequence and phenotypic susceptibility to maraviroc. Results: All 12 of the A6 viruses and 2/4 subtype B isolates encoded V3-loop variants that have previously been identified in individual virus isolates with reduced susceptibility to maraviroc. However, despite the prevalence of these V3-loop amino acid variants among the tested viruses, phenotypic sensitivity to maraviroc was observed in all instances. Similarly, reduced susceptibility to maraviroc was not found in virus from participants who experienced virologic failure in a clinical study of maraviroc in Russia (A4001101, [NCT01275625]). Discussion: Altogether, these data confirm that the presence of individual or combinations of V3-loop amino acid residues in sub-subtype A6 viruses alone does not predict natural resistance to maraviroc and that V3-loop genotype analysis of R5 virus prior to treatment is not helpful in predicting clinical outcome. [ABSTRACT FROM AUTHOR]

Published

2021

6. QSAR and molecular docking studies of indole-based analogs as HIV-1 attachment inhibitors.

Author

Hdoufane, Ismail, Stoycheva, Joanna, Tadjer, Alia, Villemin, Didier, Najdoska-Bogdanov, Menče, Bogdanov, Jane, and Cherqaoui, Driss

Subjects

*MOLECULAR docking, *AIDS, *STRUCTURE-activity relationships, *INDOLE, *SUPPORT vector machines, *ARTIFICIAL neural networks

Abstract

Human immunodeficiency virus-1 (HIV-1) glycoprotein 120 (gp120) is one of the key targets for treatment of acquired immunodeficiency syndrome. A large number of inhibitors are being designed for this target in order to find safe and effective drugs. In the present study, quantitative structure activity relationship (QSAR) models established on 128 gp120 indole-based attachment inhibitors have been developed using suitable molecular descriptors. Chemometrics techniques including multiple linear regression (MLR), artificial neural network (ANN) and support vector machine (SVM) methods were used to set up QSAR models in order to explain the structural requirements of HIV-1 gp120 inhibitory activity. The prediction performance of each developed model was evaluated. The results obtained, for both the training and test sets, were encouraging. These results reveal that the predictive power of the SVM model is slightly superior to those of the MLR and ANN models. Further, the docking process was used not only to identify the most probable position and orientation of an inhibitor within the gp120 but also to assess its affinity with this target. This study could help researchers, particularly those working in the field of the pharmaceutical industry, to identify and discover more potent, active, and selective HIV-1 attachment inhibitors. Therefore, the established models could improve, diversify, and accelerate the drug development process and reduce the use of the trial and error approach in the search of new drug targets for the treatment of HIV. Image 1 • QSAR and molecular docking studies were performed on a series of indole analogues as inhibitors of HIV -1. • Multiple linear regression, artificial neural network and support vector machine methods have been employed to set up QSAR. • The established QSAR models could improve, diversify, and accelerate the drug development process. • Molecular Docking studies were used to investigate interactions of indole analogues with gp120. [ABSTRACT FROM AUTHOR]

Published

2019

7. Modeling interaction between gp120 HIV protein and CCR5 receptor.

Author

Guryanov, I., Real‐Fernández, F., Sabatino, G., Prisco, N., Korzhikov‐Vlakh, V., Biondi, B., Papini, A.M., Korzhikova‐Vlakh, E., Rovero, P., and Tennikova, T.

Abstract

The study of the process of HIV entry into the host cell and the creation of biomimetic nanosystems that are able to selectively bind viral particles and proteins is a high priority research area for the development of novel diagnostic tools and treatment of HIV infection. Recently, we described multilayer nanoparticles (nanotraps) with heparin surface and cationic peptides comprising the N‐terminal tail (Nt) and the second extracellular loop (ECL2) of CCR5 receptor, which could bind with high affinity some inflammatory chemokines, in particular, Rantes. Because of the similarity of the binding determinants in CCR5 structure, both for chemokines and gp120 HIV protein, here we expand this approach to the study of the interactions of these biomimetic nanosystems and their components with the peptide representing the V3 loop of the activated form of gp120. According to surface plasmon resonance results, a conformational rearrangement is involved in the process of V3 and CCR5 fragments binding. As in the case of Rantes, ECL2 peptide showed much higher affinity to V3 peptide than Nt (KD = 3.72 × 10−8 and 1.10 × 10−6 M, respectively). Heparin‐covered nanoparticles bearing CCR5 peptides effectively bound V3 as well. The presence of both heparin and the peptides in the structure of the nanotraps was shown to be crucial for the interaction with the V3 loop. Thus, short cationic peptides ECL2 and Nt proved to be excellent candidates for the design of CCR5 receptor mimetics. Cationic peptides comprising N‐terminal tail (Nt) and second extracellular loop (ECL2) of CCR5 receptor, bind with high affinity the peptide representing V3 loop of HIV gp120 (KD = 0.04 μM and 1.10 μM, respectively). Heparin‐covered nanoparticles (nanotraps) bearing these CCR5 peptides effectively bind V3 as well. The presence of both heparin and peptides in the structure of the nanotraps is shown to be crucial for the interaction with V3 peptide. [ABSTRACT FROM AUTHOR]

Published

2019

8. Substitution of gp120 C4 region compensates for V3 loss-of-fitness mutations in HIV-1 CRF01_AE co-receptor switching.

Author

Yu Y, Feng Y, Zhou Z, Li K, Hu X, Liao L, Xing H, and Shao Y

Subjects

Humans, Amino Acid Sequence, Receptors, CCR5 genetics, Receptors, CCR5 metabolism, Receptors, HIV genetics, Receptors, HIV metabolism, Receptors, CXCR4 genetics, Receptors, CXCR4 metabolism, Mutation, HIV Envelope Protein gp120 genetics, HIV Envelope Protein gp120 metabolism, HIV-1 genetics, HIV Infections

Abstract

HIV-1 infection is mediated by a viral envelope subsequently binding to CD4 receptor and two main coreceptors, CCR5 (R5) for primary infection and CXCR4 (X4) in chronic infection. Switching from R5 to X4 tropism in HIV-1 infection is associated with increased viral pathogenesis and disease progression. The coreceptor switching is mainly due to variations in the V3 loop, while the mechanism needs to be further elucidated. We systematically studied the determinant for HIV-1 coreceptor switching by substitution of the genes from one R5 and one X4 pseudoviruses. The study results in successfully constructing two panels of chimeric viruses of R5 to X4 forward and X4 to R5 reverse switching. The determinants for tropism switching are the combined substitution of the V3 loop and C4 region of the HIV-1 envelope. The possible mechanism of the tropism switching includes two components, the V3 loop to enable the viral envelope binding to the newly switched coreceptor and the C4 region, to compensate for the loss of fitness caused by deleterious V3 loop mutations to maintain the overall viral viability. The combined C4 and V3 substitution showed at least an eightfold increase in replication activity compared with the pseudovirus with only V3 loop substitution. The site-directed mutations of N425R and S440-I442 with charged amino acids could especially increase viral activity. This study could facilitate HIV-1 phenotype surveillance and select right entry inhibitor, CCR5 or CXCR4 antagonists, for antiviral therapy.

Published

2023

9. 广东省人类免疫缺陷病毒 1 型 CRF01_AE 毒株膜区 V3 环氨基酸序列多态性分析.

Author

何瑞英, 廖宝林, 袁小珍, and 陈伟烈

Abstract

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Published

2018

10. Structural Comparison of Human Anti-HIV-1 gp120 V3 Monoclonal Antibodies of the Same Gene Usage Induced by Vaccination and Chronic Infection.

Author

Kun-Wei Chan, Ruimin Pan, Cost, Matthew, Gorny, Miroslaw K., Shixia Wang, Shan Lu, and Xiang-Peng Kong

Subjects

*MONOCLONAL antibodies, *IMMUNOGLOBULIN genes, *CRYSTAL structure, *GENE rearrangement, *CHARGE-charge interactions

Abstract

Elucidating the structural basis of antibody (Ab) gene usage and affinity maturation of vaccine-induced Abs can inform the design of immunogens for inducing desired Ab responses in HIV vaccine development. Analyses of monoclonal Abs (MAbs) encoded by the same immunoglobulin genes at different stages of maturation can help to elucidate the maturation process. We have analyzed four human anti-V3 MAbs with the same VH1-3*01 and VL3-10*01 gene usage. Two MAbs, TA6 and TA7, were developed from a vaccinee in the HIV vaccine phase I trial DP6-001 with a polyvalent DNA prime/protein boost regimen, and two others, 311-11D and 1334, were developed from HIV-infected patients. The somatic hypermutation (SHM) rates in VH of vaccine-induced MAbs are lower than in chronic HIV infection-induced MAbs, while those in VL are comparable. Crystal structures of the antigen-binding fragments (Fabs) in complex with V3 peptides show that these MAbs bind the V3 epitope with a new cradle-binding mode and that the V3 13-hairpin lies along the antigenbinding groove, which consists of residues from both heavy and light chains. Residues conserved from the germ line sequences form specific binding pockets accommodating conserved structural elements of the V3 crown hairpin, predetermining the Ab gene selection, while somatically mutated residues create additional hydrogen bonds, electrostatic interactions, and van der Waals contacts, correlating with an increased binding affinity. Our data provide a unique example of germ line sequences determining the primordial antigen-binding sites and SHMs correlating with affinity maturation of Abs induced by vaccine and natural HIV infection. IMPORTANCE Understanding the structural basis of gene usage and affinity maturation for anti-HIV-1 antibodies may help vaccine design and development. Antibodies targeting the highly immunogenic third variable loop (V3) of HIV-1 gp120 provide a unique opportunity for detailed structural investigations. By comparing the sequences and structures of four anti-V3 MAbs at different stages of affinity maturation but of the same V gene usage, two induced by vaccination and another two by chronic infection, we provide a fine example of how germ line sequence determines the essential elements for epitope recognition and how affinity maturation improves the antibody's recognition of its epitope. [ABSTRACT FROM AUTHOR]

Published

2018

11. Contribution of the gp120 V3 loop to envelope glycoprotein trimer stability in primate immunodeficiency viruses.

Author

Bowder, Dane, Hollingsead, Haley, Durst, Kate, Hu, Duoyi, Wei, Wenzhong, Wiggins, Joshua, Medjahed, Halima, Finzi, Andrés, Sodroski, Joseph, and Xiang, Shi-Hua

Subjects

*DIAGNOSIS of HIV infections, *GLYCOPROTEIN analysis, *SIMIAN immunodeficiency virus, *CD4 antigen, *CELL fusion

Abstract

The V3 loop of the human immunodeficiency virus type 1 (HIV-1) gp120 exterior envelope glycoprotein (Env) becomes exposed after CD4 binding and contacts the coreceptor to mediate viral entry. Prior to CD4 engagement, a hydrophobic patch located at the tip of the V3 loop stabilizes the non-covalent association of gp120 with the Env trimer of HIV-1 subtype B strains. Here, we show that this conserved hydrophobic patch (amino acid residues 307, 309 and 317) contributes to gp120-trimer association in HIV-1 subtype C, HIV-2 and SIV. Changes that reduced the hydrophobicity of these V3 residues resulted in increased gp120 shedding and decreased Env-mediated cell-cell fusion and virus entry in the different primate immunodeficiency viruses tested. Thus, the hydrophobic patch is an evolutionarily conserved element in the tip of the gp120 V3 loop that plays an essential role in maintaining the stability of the pre-triggered Env trimer in diverse primate immunodeficiency viruses. [ABSTRACT FROM AUTHOR]

Published

2018

12. Increased Epitope Complexity Correlated with Antibody Affinity Maturation and a Novel Binding Mode Revealed by Structures of Rabbit Antibodies against the Third Variable Loop (V3) of HIV-1 gp120.

Author

Pan, Ruimin, Qin, Yali, Banasik, Marisa, Lees, William, Shepherd, Adrian J., Cho, Michael W., and Xiang-Peng Kong

Subjects

*EPITOPES, *HIV-1 glycoprotein 120, *LABORATORY rabbits, *CARRIER proteins, *GENE targeting, *VIRAL vaccines

Abstract

The third variable (V3) loop of HIV-1 gp120 is an immunodominant region targeted by neutralizing antibodies (nAbs). Despite limited breadth, better characterization of the structural details of the interactions between these nAbs and their target epitopes would enhance our understanding of the mechanism of neutralization and facilitate designing better immunogens to induce nAbs with greater breadth. Recently, we isolated two anti-V3 neutralizing monoclonal antibodies (MAbs), 10A3 and 10A37, from a rabbit immunized with gp120 of the M group consensus sequence. In this study, crystal structures of these MAbs bound to target epitopes were determined. 10A3 binds to the V3 crown (303TRKSIHIGPGRAF317) using the cradle binding mode, similar to human V3 MAbs encoded by IGHV5-51 germ line genes, and its epitope structure resembles that bound to the human antibodies. In contrast, 10A37, which exhibits greater breadth and potency than 10A3, binds the V3 crown and the succeeding stem region (308HIGPGRAFYTTGEI323). Unexpectedly, the 315RAFYTT320 portion of the epitope existed as helical turns, a V3 structure that has not been observed previously. Its main chain-dominated antigen-antibody interactions not only explain the broad neutralization of 10A37 but also show that its epitope is a potential vaccine target to be further evaluated. In conclusion, our study provides novel insights about neutralization-susceptible epitope structures of the V3 loop of HIV-1 gp120 and demonstrates that, despite low amino acid sequence similarity to human antibody germ line genes, rabbits can serve as a useful animal model to evaluate human vaccine candidates. IMPORTANCE The apex crown of V3 of HIV-1 gp120 is the most immunogenic region of the surface glycoprotein, and many MAbs targeting this region have been developed. Structural understanding of V3 crown MAbs not only can help understand how antibody responses target this unique region but also contribute to immunogen design for vaccine development. We present here crystal structures of two neutralizing V3 MAbs, 10A3 and 10A37, developed from a rabbit immunized with gp120. Our analysis of 10A3 in complex with V3 provided a detailed example of how epitope complexity can evolve with affinity maturation, while that of 10A37 revealed a novel V3 binding mode targeting the C-terminal side of the V3 crown and showed that this region can form a helical structure. Our study provides novel insights about neutralization-susceptible V3 epitope structures and demonstrates that rabbits can serve as a useful animal model to evaluate human vaccine candidates. [ABSTRACT FROM AUTHOR]

Published

2018

13. Global Variability of V3 Loop Tetrapeptide Motif: a Concern for HIV-1 Neutralizing Antibodies-based Vaccine Design and Antiretroviral Therapy

Author

Paulo Bandiera-Paiva, Jorge Casseb, Antonio Carlos da Silva Junior, and Luciano Rodrigo Lopes

Subjects

Motif (narrative), Tetrapeptide, Human immunodeficiency virus (HIV), medicine, biology.protein, V3 loop, Biology, Antibody, medicine.disease_cause, Virology, Antiretroviral therapy

Published

2021

14. DETERMINATION OF VIRAL TROPISM BY GENOTYPING AND PHENOTYPING ASSAYS IN BRAZILIAN HIV-1-INFECTED PATIENTS

Author

Liã Bárbara Arruda, Marilia Ladeira de Araújo, Maira Luccia Martinez, Claudio Roberto Gonsalez, Alberto José da Silva Duarte, Eoin Coakley, Yolanda Lie, and Jorge Casseb

Subjects

HIV-1, Tropism, Brazil, V3 loop, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

The clinical application of CCR5 antagonists involves first determining the coreceptor usage by the infecting viral strain. Bioinformatics programs that predict coreceptor usage could provide an alternative method to screen candidates for treatment with CCR5 antagonists, particularly in countries with limited financial resources. Thus, the present study aims to identify the best approach using bioinformatics tools for determining HIV-1 coreceptor usage in clinical practice. Proviral DNA sequences and Trofile results from 99 HIV-1-infected subjects under clinical monitoring were analyzed in this study. Based on the Trofile results, the viral variants present were 81.1% R5, 21.4% R5X4 and 1.8% X4. Determination of tropism using a Geno2pheno[coreceptor] analysis with a false positive rate of 10% gave the most suitable performance in this sampling: the R5 and X4 strains were found at frequencies of 78.5% and 28.4%, respectively, and there was 78.6% concordance between the phenotypic and genotypic results. Further studies are needed to clarify how genetic diversity amongst virus strains affects bioinformatics-driven approaches for determining tropism. Although this strategy could be useful for screening patients in developing countries, some limitations remain that restrict the wider application of coreceptor usage tests in clinical practice.

Published

2014

15. Screening and Functional Profiling of Small-Molecule HIV-1 Entry and Fusion Inhibitors.

Author

Giroud, Charline, Du, Yuhong, Marin, Mariana, Min, Qui, Jui, Nathan T., Fu, Haian, and Melikyan, Gregory B.

Subjects

ANTIVIRAL agents, DRUG resistance, POLYANIONS

Abstract

HIV-1 entry and fusion with target cells is an important target for antiviral therapy. However, a few currently approved treatments are not effective as monotherapy due to the emergence of drug resistance. This consideration has fueled efforts to develop new bioavailable inhibitors targeting different steps of the HIV-1 entry process. Here, a high-throughput screen was performed of a large library of 100,000 small molecules for HIV-1 entry/fusion inhibitors, using a direct virus-cell fusion assay in a 384 half-well format. Positive hits were validated using a panel of functional assays, including HIV-1 specificity, cytotoxicity, and single-cycle infectivity assays. One compound-4-(2,5-dimethyl-pyrrol-1-yl)-2-hydroxy-benzoic acid (DPHB)-that selectively inhibited HIV-1 fusion was further characterized. Functional experiments revealed that DPHB caused irreversible inactivation of HIV-1 Env on cell-free virions and that this effect was related to binding to the third variable loop (V3) of the gp120 subunit of HIV-1 Env. Moreover, DPHB selectively inhibited HIV-1 strains that use CXCR4 or both CXCR4 and CCR5 co-receptors for entry, but not strains exclusively using CCR5. This selectivity was mapped to the gp120 V3 loop using chimeric Env glycoproteins. However, it was found that pure DPHB was not active against HIV-1 and that its degradation products (most likely polyanions) were responsible for inhibition of viral fusion. These findings highlight the importance of post-screening validation of positive hits and are in line with previous reports of the broad antiviral activity of polyanions. [ABSTRACT FROM AUTHOR]

Published

2017

16. Chinks in the armor of the HIV-1 Envelope glycan shield: Implications for immune escape from anti-glycan broadly neutralizing antibodies.

Author

Moyo, Thandeka, Ferreira, Roux-Cil, Davids, Reyaaz, Sonday, Zarinah, Moore, Penny L., Travers, Simon A., Wood, Natasha T., and Dorfman, Jeffrey R.

Subjects

*HIV, *GLYCANS, *VIRAL antibodies, *EPITOPES, *CD4 antigen, *BINDING sites

Abstract

Glycans on HIV-1 Envelope serve multiple functions including blocking epitopes from antibodies. We show that removal of glycan 301, a major target of anti-V3/glycan antibodies, has substantially different effects in two viruses. While glycan 301 on Du156.12 blocks epitopes commonly recognized by sera from chronically HIV-1-infected individuals, it does not do so on CAP45.G3, suggesting that removing the 301 glycan has a smaller effect on the integrity of the glycan shield in CAP45.G3. Changes in sensitivity to broadly neutralizing monoclonal antibodies suggest that the interaction between glycan 301 and the CD4 binding site differ substantially between these 2 viruses. Molecular modeling suggests that removal of glycan 301 likely exposes a greater surface area of the V3 and C4 regions in Du156.12. Our data indicate that the contribution of the 301 glycan to resistance to common neutralizing antibodies varies between viruses, allowing for easier selection for its loss in some viruses. [ABSTRACT FROM AUTHOR]

Published

2017

17. In silico analysis of HIV-1 Env-gp120 reveals structural bases for viral adaptation in growth-restrictive cells

Author

Masaru eYokoyama, Masako eNomaguchi, Naoya eDoi, Tadahito eKanda, Akio eAdachi, and Hironori eSato

Subjects

Homology Modeling, MD simulation, V3 loop, Adaptive mutation, V1/V2 loop, Microbiology, QR1-502

Abstract

Variable V1/V2 and V3 loops on human immunodeficiency virus type 1 (HIV-1) envelope-gp120 core play key roles in modulating viral competence to recognize two infection receptors, CD4 and chemokine-receptors. However, molecular bases for the modulation largely remain unclear. To address these issues, we constructed structural models for a full-length gp120 in CD4-free and -bound states. The models showed topologies of gp120 surface loop that agree with those in reported structural data. Molecular dynamics simulation showed that in the unliganded state, V1/V2 loop settled into a thermodynamically stable arrangement near V3 loop for conformational masking of V3 tip, a potent neutralization epitope. In the CD4-bound state, however, V1/V2 loop was rearranged near the bound CD4 to support CD4 binding. In parallel, cell-based adaptation in the absence of anti-viral antibody pressures led to the identification of amino acid substitutions that individually enhance viral entry and growth efficiencies in association with reduced sensitivity to CCR5 antagonist TAK-779. Notably, all these substitutions were positioned on the receptors binding surfaces in V1/V2 or V3 loop. In silico structural studies predicted some physical changes of gp120 by substitutions with alterations in viral replication phenotypes. These data suggest that V1/V2 loop is critical for creating a gp120 structure that masks co-receptor binding site compatible with maintenance of viral infectivity, and for tuning a functional balance of gp120 between immune escape ability and infectivity to optimize HIV-1 replication fitness.

Published

2016

18. Ultradeep sequencing reveals HIV-1 diversity and resistance compartmentalization during HIV-encephalopathy

Author

Nathalie Désiré, Isabelle Plu, Vincent Calvez, Romain Palich, Anne-Geneviève Marcelin, Eleni Giatsou, Danielle Seilhean, Basma Abdi, and Aude Jary

Subjects

AIDS Dementia Complex, Genotype, Anti-HIV Agents, Immunology, HIV Infections, Drug resistance, HIV Envelope Protein gp120, V3 loop, Biology, 03 medical and health sciences, 0302 clinical medicine, Acquired immunodeficiency syndrome (AIDS), Drug Resistance, Viral, medicine, Humans, Immunology and Allergy, Amplified Fragment Length Polymorphism Analysis, Phylogeny, 030304 developmental biology, Genetics, 0303 health sciences, Phylogenetic tree, Reverse Transcriptase Polymerase Chain Reaction, High-Throughput Nucleotide Sequencing, medicine.disease, Reverse transcriptase, 3. Good health, Infectious Diseases, Anti-Retroviral Agents, Viral replication, Mutation, HIV-1, Viral hepatitis, 030217 neurology & neurosurgery

Abstract

OBJECTIVES To examine viral diversity and resistance mutations in different brain areas in cases of HIV-encephalopathy. DESIGN Twelve postmortem brain areas from three cases of possible or certain HIV-encephalopathy were analyzed. METHODS After amplification of the reverse transcriptase and the V3 loop region of the gp120 protein, ultradeep sequencing was performed with Illumina technology. Phylogenetic analysis was performed with Fastree v2.1 using the generalized time-reversible (GTR) model. Identification of resistant viral variants was performed on Geneious software, according to HIV-1 genotypic drug resistance interpretation's algorithms, 2018 administered by the French Agency for Research on AIDS and Viral Hepatitis. RESULTS Phylogenetic analysis revealed significant inter-regional and intra-regional diversity reflecting persistent HIV-1 viral replication in the different brain areas. Although some cerebral regions shared HIV-variants, most of them harbored a specific HIV-subpopulation reflecting HIV compartmentalization in the central nervous system. Furthermore, proportion and distribution of resistance mutations to nucleoside and non-nucleoside reverse transcriptase inhibitors differed among different brain areas of the same case suggesting that penetration of antiretroviral treatment may differ from one compartment to another. CONCLUSION This study, performed with a powerful sequencing technique, confirmed HIV compartmentalization in the central nervous system already shown by classical sequencing, suggesting that there are several reservoirs within the brain.

Published

2020

19. Prediction of Contact Residues in Anti-HIV Neutralizing Antibody by Deep Learning

Author

Takeo Kuwata, Yu Kaku, Shuzo Matsushita, and Miroslaw K. Gorny

Subjects

0301 basic medicine, Microbiology (medical), Stereochemistry, medicine.drug_class, 030106 microbiology, Peptide, HIV Antibodies, HIV Envelope Protein gp120, V3 loop, Monoclonal antibody, 03 medical and health sciences, Deep Learning, 0302 clinical medicine, medicine, Humans, Amino Acid Sequence, 030212 general & internal medicine, Neutralizing antibody, Alanine, chemistry.chemical_classification, FastContact, biology, Anti hiv, Antibodies, Monoclonal, General Medicine, Antibodies, Neutralizing, Peptide Fragments, Molecular Docking Simulation, Infectious Diseases, Amino Acid Substitution, chemistry, Docking (molecular), biology.protein, Binding Sites, Antibody

Abstract

The monoclonal antibody 1C10 targets the V3 loop of HIV-1 and neutralizes a broad range of clade B viruses. However, the mode of interaction between 1C10 and the V3 loop remains unclear because crystallization of 1C10 and the V3 peptide was unsuccessful due to the flexible regions present in both 1C10 and the V3 peptide. In this study, we predicted the 1C10 amino acid residues that make contact with the V3 loop using a deep learning (DL)-based method. Inputs from ROSIE for docking simulation and FastContact, Naccess, and PDBtools, to approximate interactions were processed by Chainer for DL, and outputs were obtained as probabilities of contact residues. Using this DL algorithm, D95, D97, P100a, and D100b of CDRH3; D53, and D56 of CDRH2; and D61 of FR3 were highly ranked as contact residues of 1C10. Substitution of these residues with alanine significantly decreased the affinity of 1C10 to the V3 peptide. Moreover, the higher the rank of the residue, the more the binding activity diminished. This study demonstrates that the prediction of contact residues using a DL-based approach is a precise and useful tool for the analysis of antibody-antigen interactions.

Published

2020

20. Viral Tropism in Human Immunodeficiency Virus Type 1–Infected Children and Adolescents in Thailand

Author

Angsana Phuphuakrat, Somnuek Sungkanuparph, Rujikorn Kanlayanadonkit, Jiraporn Keatkla, Sujittra Chaisavaneeyakorn, Ekawat Pasomsub, Natt Arayapong, Chonnamet Techasaensiri, and Nopporn Apiwattanakul

Subjects

Male, Adolescent, Genotyping Techniques, viruses, Population, HIV Infections, HIV Envelope Protein gp120, V3 loop, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Interquartile range, HIV tropism, Humans, Medicine, 030212 general & internal medicine, Child, education, Tropism, Maraviroc, 0303 health sciences, education.field_of_study, 030306 microbiology, business.industry, virus diseases, General Medicine, Viral Load, Thailand, Virology, Peptide Fragments, CD4 Lymphocyte Count, Viral Tropism, Cross-Sectional Studies, Infectious Diseases, chemistry, Child, Preschool, Pediatrics, Perinatology and Child Health, HIV-1, Tissue tropism, Female, business, Viral load

Abstract

Background Maraviroc, a C-C chemokine receptor 5 (CCR5) antagonist, has been used as an alternative antiretroviral drug in treatment-experienced adults and children infected by CCR5-tropic human immunodeficiency virus type 1 (HIV-1) isolates. Prior to widespread use of this drug, rates of HIV-1 coreceptor tropism and factors associated with coreceptor tropism had to be determined. Methods HIV-1–infected individuals aged 1000 RNA copies/mL who were treatment-experienced or treatment-naive were enrolled. HIV-1 coreceptor tropism was determined using a genotypic test in which V3 sequences were analyzed with GENO2PHENO version 2.5 and a false discovery rate of 5%. Results Fifty-two HIV-1–infected patients were recruited. The median age of participants was 14.9 years (interquartile range [IQR], 8.9–16.8 years). The median CD4 cell count was 396.0 cells/µL (IQR, 72.0–630.3 cells/µL). The median HIV-1 viral load was 43 339 RNA copies/mL (IQR, 8874–197 055 copies/mL). Thirty-nine patients (75%) were treatment-experienced. The most prevalent HIV-1 subtype in this population was CRF01_AE (36 patients, 69.2%). Based on analyses of V3 loop sequences, 5 of 13 treatment-naive patients (38.5%) and 11 of 39 treatment-experienced patients (28.2%) were infected by R5 viruses, while 7 of 13 treatment-naive patients (53.8%) and 19 of 39 treatment-experienced patients (48.7%) were infected by X4 viruses. The only factor associated with the presence of X4 viruses was HIV-1 subtype CRF01_AE. Conclusions X4-tropic viruses are associated with the CRF01_AE subtype. Hence, testing of HIV tropism should be performed before treatment with CCR5 inhibitors in children in areas where CRF01_AE predominates.

Published

2020

21. HIV-1 Entry, Inhibitors, and Resistance

Author

Michael A. Lobritz, Annette N. Ratcliff, and Eric J. Arts

Subjects

HIV-1, envelope, gp120, V3 loop, gp41, CCR5, maraviroc, vicriviroc, Microbiology, QR1-502

Abstract

Entry inhibitors represent a new class of antiretroviral agents for the treatment of infection with HIV-1. While resistance to other HIV drug classes has been well described, resistance to this new class is still ill defined despite considerable clinical use. Several potential mechanisms have been proposed: tropism switching (utilization of CXCR4 instead of CCR5 for entry), increased affinity for the coreceptor, increased rate of virus entry into host cells, and utilization of inhibitor-bound receptor for entry. In this review we will address the development of attachment, fusion, and coreceptor entry inhibitors and explore recent studies describing potential mechanisms of resistance.

Published

2010

22. Distinct conformations of the HIV-1 V3 loop crown are targetable for broad neutralization

Author

Caio Foulkes, Roger D. Kouyos, Jonas V. Schaefer, Mustafa Eroglu, Stephan Ursprung, Mylène Morin, Andreas Plückthun, Thomas Liechti, Thomas Lemmin, Peter Rusert, Matthias Glögl, Yufan Wu, Thomas Reinberg, Simon Hansen, Axel Mann, Emanuel Stiegeler, Umut Karakus, Huldrych F. Günthard, Nikolas Friedrich, Branislav Ivan, L. Maliqi, Patrick Ernst, Claus Kadelka, John A. Robinson, Alexandra Trkola, Friedrich, Nikolas [0000-0003-0694-657X], Kadelka, Claus [0000-0002-5712-8529], Ernst, Patrick [0000-0001-6037-1856], Ursprung, Stephan [0000-0003-2476-178X], Kouyos, Roger D [0000-0002-9220-8348], Robinson, John A [0000-0001-7857-8556], Günthard, Huldrych F [0000-0002-1142-6723], Plückthun, Andreas [0000-0003-4191-5306], Trkola, Alexandra [0000-0003-1013-876X], Apollo - University of Cambridge Repository, University of Zurich, and Trkola, Alexandra

Subjects

10028 Institute of Medical Virology, Protein Conformation, 49/47, Human immunodeficiency virus (HIV), General Physics and Astronomy, V3 loop, HIV Antibodies, medicine.disease_cause, Neutralization, 38/70, 10234 Clinic for Infectious Diseases, 13/1, Epitopes, 631/45/612/1256, Multidisciplinary, biology, Chemistry, article, env Gene Products, Human Immunodeficiency Virus, virus diseases, Antigen binding, Antivirals, 3100 General Physics and Astronomy, 13/31, Molecular Docking Simulation, 631/326/596/1296, Antibody, 631/250/2152/2153/1291, HIV infections, Protein Binding, 145, Science, 610 Medicine & health, 1600 General Chemistry, Computational biology, Molecular Dynamics Simulation, General Biochemistry, Genetics and Molecular Biology, Antibodies, stomatognathic system, 1300 General Biochemistry, Genetics and Molecular Biology, 692/699/255/1901, Cell Line, Tumor, medicine, 10019 Department of Biochemistry, Humans, X-ray crystallography, fungi, General Chemistry, Viral proteins, Antibodies, Neutralizing, Antibody response, HEK293 Cells, Immunoglobulin G, Mutation, biology.protein, HIV-1, 570 Life sciences, Ankyrin repeat, 631/45/535/1266

Abstract

The V3 loop of the HIV-1 envelope (Env) protein elicits a vigorous, but largely non-neutralizing antibody response directed to the V3-crown, whereas rare broadly neutralizing antibodies (bnAbs) target the V3-base. Challenging this view, we present V3-crown directed broadly neutralizing Designed Ankyrin Repeat Proteins (bnDs) matching the breadth of V3-base bnAbs. While most bnAbs target prefusion Env, V3-crown bnDs bind open Env conformations triggered by CD4 engagement. BnDs achieve breadth by focusing on highly conserved residues that are accessible in two distinct V3 conformations, one of which resembles CCR5-bound V3. We further show that these V3-crown conformations can, in principle, be attacked by antibodies. Supporting this conclusion, analysis of antibody binding activity in the Swiss 4.5 K HIV-1 cohort (n = 4,281) revealed a co-evolution of V3-crown reactivities and neutralization breadth. Our results indicate a role of V3-crown responses and its conformational preferences in bnAb development to be considered in preventive and therapeutic approaches., Nature Communications, 12 (1), ISSN:2041-1723

Published

2021

23. Species-Specific Valid Ternary Interactions of HIV-1 Env-gp120, CD4, and CCR5 as Revealed by an Adaptive Single-Amino Acid Substitution at the V3 Loop Tip

Author

Koma, Takaaki, Yokoyama, Masaru, Kotani, Osamu, Doi, Naoya, Nakanishi, Nina, Okubo, Hayato, Adachi, Shun, Adachi, Akio, Sato, Hironori, Nomaguchi, Masako, Koma, Takaaki, Yokoyama, Masaru, Kotani, Osamu, Doi, Naoya, Nakanishi, Nina, Okubo, Hayato, Adachi, Shun, Adachi, Akio, Sato, Hironori, and Nomaguchi, Masako

Abstract

Molecular interactions of the variable envelope gp120 subunit of HIV-1 with two cellular receptors are the first step of viral infection, thereby playing pivotal roles in determining viral infectivity and cell tropism. However, the underlying regulatory mechanisms for interactions under gp120 spontaneous variations largely remain unknown. Here, we show an allosteric mechanism in which a single gp120 mutation remotely controls the ternary interactions between gp120 and its receptors for the switch of viral cell tropism. Virological analyses showed that a G310R substitution at the tip of the gp120 V3 loop selectively abolished the viral replication ability in human cells, despite evoking enhancement of viral replication in macaque cells. Molecular dynamics (MD) simulations predicted that the G310R substitution at a site away from the CD4 interaction site selectively impeded the binding ability of gp120 to human CD4. Consistently, virions with the G310R substitution exhibited a reduced binding ability to human lymphocyte cells. Furthermore, the G310R substitution influenced the gp120-CCR5 interaction in a CCR5-type dependent manner as assessed by MD simulations and an infectivity assay using exogenously expressed CCR5s. Interestingly, an I198M mutation in human CCR5 restored the infectivity of the G310R virus in human cells. Finally, MD simulation predicted amino acid interplays that physically connect the V3 loop and gp120 elements for the CD4 and CCR5 interactions. Collectively, these results suggest that the V3 loop tip is a cis-allosteric regulator that remotely controls intra- and intermolecular interactions of HIV-1 gp120 for balancing ternary interactions with CD4 and CCR5.

Published

2021

24. Double Arylation of the Indole Side Chain of Tri- and Tetrapodal Tryptophan Derivatives Renders Highly Potent HIV-1 and EV-A71 Entry Inhibitors

Author

Belén Martínez-Gualda, Arnaud Boonen, María-José Camarasa, Rana Abdelnabi, Ana San-Félix, Ernesto Quesada, Liang Sun, Johan Neyts, Sofía de la Puente-Secades, Sam Noppen, Alberto Mills, Dominique Schols, Olaia Martí-Marí, Federico Gago, Ministerio de Ciencia, Innovación y Universidades (España), Consejo Superior de Investigaciones Científicas (España), European Commission, China Scholarship Council, University of Leuven, Martí-Marí, Olaia [0000-0002-8541-7109], Quesada, Ernesto [0000-0001-6886-0523], Camarasa, María-José [0000-0002- 4978-6468], Gago, Federico [0000-0002-3071-4878], San-Felix, Ana [0000-0003-4271-7598], Martí-Marí, Olaia, Quesada, Ernesto, Camarasa, María-José, Gago, Federico, and San-Felix, Ana

Subjects

Indoles, Anti-HIV Agents, Stereochemistry, ENVELOPE GLYCOPROTEINS, GP120, Chemistry, Medicinal, Microbial Sensitivity Tests, V3 loop, Ring (chemistry), Article, Isophthalic acid, Structure-Activity Relationship, chemistry.chemical_compound, HIV Fusion Inhibitors, Drug Discovery, Side chain, Potency, Moiety, DENDRIMERS, Pharmacology & Pharmacy, Indole test, Science & Technology, Dose-Response Relationship, Drug, Molecular Structure, RECEPTOR, Chemistry, Tryptophan, Enterovirus A, Human, HUMAN-IMMUNODEFICIENCY-VIRUS, REPLICATION, HIV-1, Molecular Medicine, ENTEROVIRUS 71, FUNCTIONALIZATION, AMBER, Life Sciences & Biomedicine, HUMAN MONOCLONAL-ANTIBODY

Abstract

This work is dedicated to Prof. Jan Balzarini (KU Leuven, Belgium), on the occasion of his retirement, in recognition of his constant encouragement and exemplary dedication to virology., We have recently described a new generation of potent human immunodeficiency virus (HIV) and EV-A71 entry inhibitors. The prototypes contain three or four tryptophan (Trp) residues bearing an isophthalic acid moiety at the C2 position of each side-chain indole ring. This work is now extended by both shifting the position of the isophthalic acid to C7 and synthesizing doubly arylated C2/C7 derivatives. The most potent derivative (50% effective concentration (EC50) HIV-1, 6 nM; EC50 EV-A71, 40 nM), 33 (AL-518), is a C2/C7 doubly arylated tetrapodal compound. Its superior anti-HIV potency with respect to the previous C2- arylated prototype is in consonance with its higher affinity for the viral gp120. 33 (AL-518) showed comparable antiviral activities against X4 and R5 HIV-1 strains and seems to interact with the tip and base of the gp120 V3 loop. Taken together, these findings support the interest in 33 (AL-518) as a useful new prototype for anti-HIV/EV71 drug development., This work was supported by the Spanish MICINN (Projects PID2019-104070RB-C21 and PID2019-104070RB-C22), the Spanish Agencia Estatal Consejo Superior de Investigaciones Científicas (CSIC, Projects CSIC-PIE-201980E100 and CSICPIE- 201980E028), “The Centers of Excellence” of the KU Leuven (EF-05/15 and PF-10/18), EU FP7 (FP7/2007-2013) Project EUVIRNA (Grant 408 Agreement 264286), EU FP7 SILVER (Contract HEALTH-F3-2010-260644), a grant from the Belgian Interuniversity Attraction Poles (IAP) Phase VII− P7/45 (BELVIR), and the EU FP7 Industry-Academia Partnerships and Pathways Project AIROPICO. Spanish MEC/MINECO is also acknowledged for grants to B.M.-G. and O.M.-M. and the China Scholarship Council (CSC) (Grant 201403250056) for a grant to L.S. The authors also thank Charlotte Vanderheydt, Evelyne Van Kerckhove, Caroline Collard, Kim Donchers, and Sandra Claes for help with the processing of the antiviral data. This work has been awarded the Janssen (XVIII call) and Esteve (XIX call) prizes within the “Prizes for Young Researchers of the Spanish Society of Medicinal Chemistry (SEQT).”

Published

2021

25. Design, synthesis, and evaluation of HIV-1 entry inhibitors based on broadly neutralizing antibody 447-52D and gp120 V3loop interactions

Author

Akhila Bommakanti, Anand K. Kondapi, Jagadeesh Senapathi, and Srinivas Vangara

Subjects

Virtual screening, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Anti-HIV Agents, viruses, In silico, Organic Chemistry, Microbial Sensitivity Tests, V3 loop, HIV Envelope Protein gp120, Gp41, Biochemistry, Small molecule, Virus, Cell biology, Structure-Activity Relationship, Viral entry, Drug Design, Drug Discovery, HIV-1, Humans, Molecular Biology, Tropism, Broadly Neutralizing Antibodies

Abstract

The third variable loop region (V3 loop) on gp120 plays an important role in cellular entry of HIV-1. Its interaction with the cellular CD4 and coreceptors is an important hallmark in facilitating the bridging by gp41 and subsequent fusion of membranes for transfer of viral genetic material. Further, the virus phenotype determines the cell tropism via respective co- receptor binding. Thus, coreceptor binding motif of envelope is considered to be a potent anti-viral drug target for viral entry inhibition. However, its high variability in sequence is the major hurdle for developing inhibitors targeting the region. In this study, we have used an in silico Virtual Screening and "Fragment-based" method to design small molecules based on the gp120 V3 loop interactions with a potent broadly neutralizing human monoclonal antibody, 447-52D. From the in silico analysis a potent scaffold, 1,3,5-triazine was identified for further development. Derivatives of 1,3,5-triazine with specific functional groups were designed and synthesized keeping the interaction with co-receptor intact. Finally, preliminary evaluation of molecules for HIV-1 inhibition on two different virus strains (clade C, clade B) yielded IC50 5.0 μM. The approach used to design molecules based on broadly neutralizing antibody, was useful for development of target specific potent antiviral agents to prevent HIV entry. The study reported promising inhibitors that could be further developed and studied.

Published

2021

26. Difficult-to-neutralize global HIV-1 isolates are neutralized by antibodies targeting open envelope conformations

Author

Robert J. Edwards, Kevin O. Saunders, Bette Korber, Ashley M. Trama, David C. Montefiori, John R. Mascola, Seaman, R.K. Reed, Julia A. Jones, Nathan I. Nicely, Barton F. Haynes, S.M. Alam, Mark K. Louder, Katayoun Mansouri, Xiaoying Shen, Mattia Bonsignori, Qifeng Han, and Georgia D. Tomaras

Subjects

0301 basic medicine, Glycosylation, Protein Conformation, Science, viruses, Amino Acid Motifs, Adaptive immunity, General Physics and Astronomy, HIV Infections, 02 engineering and technology, HIV Antibodies, V3 loop, Article, General Biochemistry, Genetics and Molecular Biology, Neutralization, Virus, 03 medical and health sciences, chemistry.chemical_compound, Protein structure, Antigen, Neutralization Tests, Animals, Humans, lcsh:Science, chemistry.chemical_classification, Vaccines, Multidisciplinary, biology, fungi, env Gene Products, Human Immunodeficiency Virus, virus diseases, food and beverages, General Chemistry, 021001 nanoscience & nanotechnology, Antibodies, Neutralizing, Macaca mulatta, Virology, 3. Good health, Amino acid, 030104 developmental biology, chemistry, HIV-1, biology.protein, lcsh:Q, Antibody, 0210 nano-technology

Abstract

The HIV-1 envelope (Env) is the target for neutralizing antibodies and exists on the surface of virions in open or closed conformations. Difficult-to-neutralize viruses (tier 2) express Env in a closed conformation antigenic for broadly neutralizing antibodies (bnAbs) but not for third variable region (V3) antibodies. Here we show that select V3 macaque antibodies elicited by Env vaccination can neutralize 26% of otherwise tier 2 HIV-1 isolates in standardized virus panels. The V3 antibodies only bound to Env in its open conformation. Thus, Envs on tier 2 viruses sample a state where the V3 loop is not in its closed conformation position. Envelope second variable region length, glycosylation sites and V3 amino acids were signatures of neutralization sensitivity. This study determined that open conformations of Env with V3 exposed are present on a subset of otherwise neutralization-resistant virions, therefore neutralization of tier 2 HIV-1 does not always indicate bnAb induction., Here, the authors report that specific monoclonal antibodies isolated from vaccinated rhesus macaques can neutralize a subset of Tier 2 difficult-to-neutralize HIV-1 that express Env in an open conformation, suggesting that V3 loop-specific targeting can bias the estimation of vaccine-induced bnAbs.

Published

2019

27. Functional clustering of B cell receptors using sequence and structural features

Author

Tomohiro Kurosaki, Sarah Leach, Kazuo Yamashita, Shunsuke Teraguchi, Ryo Shinnakasu, Takeshi Inoue, Songling Li, John Rozewicki, Daron M. Standley, and Zichang Xu

Subjects

biology, Process Chemistry and Technology, B-cell receptor, Biomedical Engineering, breakpoint cluster region, Energy Engineering and Power Technology, Hemagglutinin (influenza), Computational biology, V3 loop, Industrial and Manufacturing Engineering, Epitope, Antigen, Chemistry (miscellaneous), Materials Chemistry, biology.protein, Chemical Engineering (miscellaneous), Antibody, Binding selectivity

Abstract

The repertoires of B cell receptors (BCRs), which can be captured by single cell-resolution sequencing technologies, contain a personal history of a donor's antigen exposure. One of the current challenges in analyzing such BCR sequence data is to assign sequences to groups with similar antigen and epitope binding specificity. This is a non-trivial task given the paucity of experimentally-determined antibody–antigen structures and the fact that different gene combinations in B cells can lead to receptors that target the same antigen and epitope. Here, we describe a method for clustering BCRs based on sequence and predicted structural features in order to predict groups with similar antigen and epitope binding specificity. We show that all known experimentally-determined structures of antibody–antigen complexes can be clustered accurately (AUC 0.981) and that use of predicted structural features improved the accuracy of the epitope classification. We next show that an independent and non-redundant set of 104 anti-HIV antibody sequences could be clustered corresponding to manually-assigned epitopes with a specificity of 99.7% and a sensitivity of 61.93%, with the imbalance in sensitivity due almost entirely to one group of antibodies—those that target the gp120 V3 loop, which do not form a single, well-defined cluster. We next examined a diverse set of anti-hemagglutinin BCR sequences from humans and mice. We observed clusters that included human or mouse sequences with anti-hemagglutinin antibodies of known structure. We also observed clusters that included both human and mouse sequences. Importantly, to the extent that the epitopes have been experimentally characterized, none of the observed clusters erroneously grouped different hemagglutinin binding regions. Taken together, these results demonstrate that the proposed clustering method provides high-throughput prediction of BCRs with common binding specificity across clonal lineages, donors and even species.

Published

2019

28. Species-Specific Valid Ternary Interactions of HIV-1 Env-gp120, CD4, and CCR5 as Revealed by an Adaptive Single-Amino Acid Substitution at the V3 Loop Tip

Author

Hayato Okubo, Masako Nomaguchi, Takaaki Koma, Masaru Yokoyama, Nina Nakanishi, Akio Adachi, Osamu Kotani, Hironori Sato, Shun Adachi, and Naoya Doi

Subjects

Receptors, CCR5, viruses, Immunology, Allosteric regulation, HIV Envelope Protein gp120, Molecular Dynamics Simulation, Biology, V3 loop, medicine.disease_cause, 01 natural sciences, Microbiology, Cell Line, 03 medical and health sciences, Species Specificity, Adaptive mutation, Viral entry, Virology, 0103 physical sciences, medicine, Animals, Humans, Lymphocytes, Receptor, Tropism, 030304 developmental biology, 0303 health sciences, Mutation, 010304 chemical physics, virus diseases, Virus-Cell Interactions, Cell biology, Macaca fascicularis, Viral Tropism, HEK293 Cells, Amino Acid Substitution, Viral replication, Insect Science, CD4 Antigens, HIV-1, Receptors, Virus, HeLa Cells

Abstract

Molecular interactions of the variable envelope gp120 subunit of HIV-1 with two cellular receptors are the first step of viral infection, thereby playing pivotal roles in determining viral infectivity and cell tropism. However, the underlying regulatory mechanisms for interactions under gp120 spontaneous variations largely remain unknown. Here, we show an allosteric mechanism in which a single gp120 mutation remotely controls the ternary interactions between gp120 and its receptors for the switch of viral cell tropism. Virological analyses showed that a G310R substitution at the tip of the gp120 V3 loop selectively abolished the viral replication ability in human cells, despite evoking enhancement of viral replication in macaque cells. Molecular dynamics (MD) simulations predicted that the G310R substitution at a site away from the CD4 interaction site selectively impeded the binding ability of gp120 to human CD4. Consistently, virions with the G310R substitution exhibited a reduced binding ability to human lymphocyte cells. Furthermore, the G310R substitution influenced the gp120-CCR5 interaction in a CCR5-type dependent manner as assessed by MD simulations and an infectivity assay using exogenously expressed CCR5s. Interestingly, an I198M mutation in human CCR5 restored the infectivity of the G310R virus in human cells. Finally, MD simulation predicted amino acid interplays that physically connect the V3 loop and gp120 elements for the CD4 and CCR5 interactions. Collectively, these results suggest that the V3 loop tip is a cis-allosteric regulator that remotely controls intra- and intermolecular interactions of HIV-1 gp120 for balancing ternary interactions with CD4 and CCR5. IMPORTANCE Understanding the molecular bases for viral entry into cells will lead to the elucidation of one of the major viral survival strategies, and thus to the development of new effective antiviral measures. As shown recently, HIV-1 is highly mutable and adaptable in growth-restrictive cells, such as those of macaque origin. HIV-1 initiates its infection by sequential interactions of Env-gp120 with two cell surface receptors, CD4 and CCR5. A recent epoch-making structural study has disclosed that CD4-induced conformation of gp120 is stabilized upon binding of CCR5 to the CD4-gp120 complex, whereas the biological significance of this remains totally unknown. Here, from a series of mutations found in our extensive studies, we identified a single-amino acid adaptive mutation at the V3 loop tip of Env-gp120 critical for its interaction with both CD4 and CCR5 in a host cell species-specific way. This remarkable finding could certainly provoke and accelerate studies to precisely clarify the HIV-1 entry mechanism.

Published

2021

29. Highly prevalent Russian HIV-1 V3-loop sequence variants are susceptible to maraviroc

Author

D Kireev, Marilyn Lewis, Becky Jubb, E van der Ryst, M Bobkova, Paul Simpson, SL Butler, Charles Craig, Mike Westby, and A Lopatukhin

Subjects

Short Communication, Human immunodeficiency virus (HIV), HIV Infections, Infectious and parasitic diseases, RC109-216, 030312 virology, Biology, V3 loop, medicine.disease_cause, human immunodeficiency virus, maraviroc, V3 loop, Russia, genotype, phenotype, susceptibility, Russia, Maraviroc, 03 medical and health sciences, chemistry.chemical_compound, HIV Seropositivity, medicine, Humans, 030304 developmental biology, Sequence (medicine), chemistry.chemical_classification, 0303 health sciences, General Medicine, Virology, In vitro, Amino acid, chemistry, HIV-1

Abstract

Introduction Maraviroc inhibits CCR5-tropic HIV-1 across different subtypes in vitro and has demonstrated efficacy in clinical trials. V3-loop amino acid variants observed in individual maraviroc-resistant viruses have not been found to be predictive of reduced susceptibility. Sequence-database searches have demonstrated that approximately 7.3% of viruses naturally encode these variants, raising concerns regarding potential pre-existing resistance. A study from Russia reported that combinations of these same amino acids are present in the V3 loops of the Russian variant subtype A (IDU-A, now A6) with a much greater prevalence (range: 74.4%–92.3%) depending on the combination. However, these studies and database searches did not include phenotypic evaluation. Methods Sixteen Russian HIV-1 isolates (including sub-subtype A6 viruses) were assessed for V3 loop sequence and phenotypic susceptibility to maraviroc. Results All 12 of the A6 viruses and 2/4 subtype B isolates encoded V3-loop variants that have previously been identified in individual virus isolates with reduced susceptibility to maraviroc. However, despite the prevalence of these V3-loop amino acid variants among the tested viruses, phenotypic sensitivity to maraviroc was observed in all instances. Similarly, reduced susceptibility to maraviroc was not found in virus from participants who experienced virologic failure in a clinical study of maraviroc in Russia (A4001101, [NCT01275625]). Discussion Altogether, these data confirm that the presence of individual or combinations of V3-loop amino acid residues in sub-subtype A6 viruses alone does not predict natural resistance to maraviroc and that V3-loop genotype analysis of R5 virus prior to treatment is not helpful in predicting clinical outcome.

Published

2021

30. A diverse collection of B cells responded to HIV infection in infant BG505

Author

Theodore A Gobillot, Vrasha Chohan, Ruth Nduati, Laura E Doepker, Julie Overbaugh, Hannah L. Itell, Brianna Hennessy, Cassandra A. Simonich, Evan M. Cale, Nicole A. Doria-Rose, Meghan Garrett, and Mackenzie M. Shipley

Subjects

Adult, Male, Medicine (General), Immunogen, HIV Infections, V3 loop, HIV Antibodies, General Biochemistry, Genetics and Molecular Biology, Virus, Epitopes, R5-920, Antigen, Report, Humans, Amino Acid Sequence, Neutralizing antibody, BG505, Antibody-dependent cell-mediated cytotoxicity, B-Lymphocytes, biology, V3, polyclonal, Antibody-Dependent Cell Cytotoxicity, HIV, neutralizing antibody, Virology, infant, Antibodies, Neutralizing, Clone Cells, Polyclonal B cell response, Child, Preschool, Immunoglobulin G, biology.protein, HIV-1, Antibody, ADCC

Abstract

Summary Increasing evidence suggests infants develop unique neutralizing antibody (nAb) responses to HIV compared to adults. Here, we dissected the nAb response of an infant whose virus is in clinical trials as a vaccine immunogen, with a goal of characterizing the broad responses in the infant to this antigen. We isolated 73 nAbs from infant BG505 and identified a large number of clonal families. Twenty-six antibodies neutralized tier 2 viruses—in some cases, viruses from the same clade as BG505, and in others, a different clade, although none showed notable breadth. Several nAbs demonstrated antibody-dependent cellular cytotoxicity activity and targeted the V3 loop. These findings suggest an impressive polyclonal response to HIV infection in infant BG505, adding to the growing evidence that the nAb response to HIV in infants is polyclonal—a desirable vaccine response to a rapidly evolving virus like HIV., Graphical abstract, Highlights Infant BG505 developed a broad and polyclonal antibody response to HIV-1 We isolate 73 neutralizing antibodies spanning 19 clonal lineages from BG505 Many antibodies mediate cell killing but show limited neutralization breadth V3 is a common epitope target of the BG505 antibodies, Although BG505 Envelope trimer is reputable in the HIV field, this infant’s antibody response was unknown. Simonich et al. isolated 73 neutralizing antibodies encompassing 19 clonal lineages from BG505 at 27 months of age. BG505 developed a vast polyclonal antibody response to HIV, an advantageous response to elicit by vaccination.

Published

2021

31. Performance of Genotypic Tools for Prediction of Tropism in HIV-1 Subtype C V3 Loop Sequences.

Author

Gupta, Soham, Neogi, Ujjwal, Srinivasa, Hiresave, and Shet, anita

Subjects

*GENOTYPES, *VIRAL tropism, *PREDICTION theory, *NUCLEOTIDE sequence, *MACHINE learning, *GENETIC algorithms

Abstract

Currently, there is no consensus on the genotypic tools to be used for tropism analysis in HIV-1 subtype C strains. Thus, the aim of the study was to evaluate the performance of the different V3 loop-based genotypic algorithms available. We compiled a dataset of 645 HIV-1 subtype C V3 loop sequences of known coreceptor phenotypes (531 R5-tropic/non-syncytium-inducing and 114 X4-tropic/R5X4-tropic/syncytium-inducing sequences) from the Los Alamos database (http://www.hiv.lanl.gov/) and previously published literature. Coreceptor usage was predicted based on this dataset using different software-based machine-learning algorithms as well as simple classical rules. All the sophisticated machine-learning methods showed a good concordance of above 85%. Geno2Pheno (false-positive rate cutoff of 5-15%) and CoRSeqV3-C were found to have a high predicting capability in determining both HIV-1 subtype C X4-tropic and R5-tropic strains. The current sophisticated genotypic tropism tools based on V3 loop perform well for tropism prediction in HIV-1 subtype C strains and can be used in clinical settings. © 2015 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2015

32. p62 promotes HIV-1 gp120 V3 loop-mediated microglial inflammation by promoting noncanonical activation of Nrf2

Author

Sisi Liu, Haijie Tang, Rui Pan, Limeng Gan, Saixian Wen, Yongmei Fu, Hanyang He, Guangming Li, Huili Wang, Jun Dong, and Xueqin Yan

Subjects

Text mining, business.industry, Human immunodeficiency virus (HIV), Cancer research, Medicine, Inflammation, V3 loop, medicine.symptom, business, medicine.disease_cause

Abstract

Combined antiretroviral therapy (cART) has significantly increased the life expectancy of AIDS patients; however, the prevalence of the neurocognitive impairment associated with HIV-1 continues to rise. HIV-1 gp120, an important subunit of the envelope spikes that decorate the surface of virions, is found to activate microglia in central nervous system (CNS) which leads to the cognitive and behavioral dysfunction known as HIV-1 associated neurocognitive disorder(HAND), and the V3 loop is the most important toxic domain of gp120. A study has shown that autophagy plays key role in the activation of microglia, p62 is an important autophagy substrate protein that is elevated in neuroinflammation. In this study, we sought to explore the role of p62 in gp120 V3 loop-mediated microglial activation. Our results demonstrated that exposure of CHME-5 cells to the gp120 V3 loop resulted in elevated inflammatory cytokines, accompanied by autophagy dysfunction and p62 upregulation. Subsequently, we found that the p62-dependent Nrf2 noncanonical signaling pathway was activated and that HO-1, the target protein of Nrf2, was also upregulated. Interestingly, the elevation of inflammatory factors caused by the gp120 V3 loop was significantly alleviated after knocking down p62, Nrf2 and HO-1. Further investigation revealed that in the microglial inflammation induced by the gp120 V3 loop, up-regulated HO-1 promoted the expression of iNOS by interacting with iNOS, while enhanced autophagy by RAPA promoted the degradation of iNOS and alleviated inflammation. These findings provide a new perspective on the relationship between noncanonical Nrf2 activation and autophagy in microglial inflammation and an experimental basis for HAND prevention and treatment.

Published

2021

33. Variations in Env at amino acids 328 and 330 affect HIV-1 replicative fitness and entry inhibitor sensitivity

Author

Rongge Yang, Ming Sun, Dongshan Yan, Wenying Wu, Bingxiang Li, Ya Li, Xiaoyong Zhu, Yang Li, Mingyu Li, and Hongye Wang

Subjects

Cancer Research, Glycosylation, V3 loop, Biology, medicine.disease_cause, Virus Replication, Peripheral blood mononuclear cell, Virus, 03 medical and health sciences, chemistry.chemical_compound, Polymorphism (computer science), Virology, medicine, Humans, Amino Acids, 030304 developmental biology, chemistry.chemical_classification, Genetics, 0303 health sciences, Mutation, 030306 microbiology, env Gene Products, Human Immunodeficiency Virus, Entry inhibitor, Amino acid, Infectious Diseases, chemistry, HIV-1, Leukocytes, Mononuclear, Genetic Fitness, medicine.drug

Abstract

While the variations in the HIV-1 Env V3 loop have been the focus of much research to explore its functional effect, how specific mutations of certain amino acids in the V3 loop affect viral fitness remains unclear. In this study, we evaluated a series of natural polymorphisms at positions 328 and 330 with different combinations of adjacent glycosylation sites in the HIV-1 subtype B backbone to address their role in replicative fitness and sensitivity to entry inhibitors based on analysis of env sequence frequency at the population level. Pairwise growth competition experiment showed that wild-type virus with major consensus amino acids obviously had higher replicative fitness (P < 0.001). A change at position 328 to a less frequently occurring amino acid, K, together with a mutated N332 glycosylation site harbored lower fitness and became more sensitive to coreceptor antagonists (AMD3100), fusion inhibitors (T20) and sCD4. A change at position 330 to a less frequently occurring amino acid, Y, together with a mutated N332 glycosylation site resulted in higher fitness and less sensitivity to entry inhibitors (T20, AMD3100, and sCD4), and viruses containing both changes showed intermediate activity. It seems that the H330Y mutation compensated for the reduced replicative capacity caused by the Q328 K mutation. Moreover, viruses that showed lower replicative fitness also exhibited slower entry kinetics, lower levels of replication intermediates and protein packaging, and a lower ability to replicate in primary peripheral blood mononuclear cells (PBMCs). The findings highlight the functional effect of variations at 328 and 330 in the V3 loop on replicative fitness and may benefit HIV-1 treatment by helping predict the sensitivity to entry inhibitors.

Published

2021

34. Exploring Viral Interference Using Peptides: Molecular Determinants of HIV-1 Inhibition by a Peptide Derived from Human Pegivirus-1 Envelope Protein E2

Author

Barbara Schmidt, Anette Rohrhofer, Tamara Ruegamer, Rebecca Hoffmann, Jutta Eichler, Peter Kirmeß, Karen M. Fiebig, and Johanna Schaubächer

Subjects

Pegivirus, Peptide, GB virus C, viral interference, V3 loop, HIV Envelope Protein gp120, 01 natural sciences, Biochemistry, Viral Proteins, Drug Discovery, Amino Acid Sequence, General Pharmacology, Toxicology and Pharmaceutics, Binding site, Viral Interference, Pharmacology, chemistry.chemical_classification, Binding Sites, biology, Tetrapeptide, Full Paper, 010405 organic chemistry, Organic Chemistry, gp120 V3 loop, virus diseases, human pegivirus, Full Papers, Envelope glycoprotein GP120, biology.organism_classification, Peptide Fragments, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, chemistry, Mutation, biology.protein, HIV-1, peptides, Molecular Medicine, Cysteine, Protein Binding

Abstract

Co‐infection with the human pegivirus 1 (HPgV‐1) often has a beneficial effect on disease progression in HIV‐1‐infected individuals. Several HPgV‐1 proteins and peptides, including a 20‐mer peptide (P6‐2) derived from the N‐terminal region of the HPgV‐1 surface protein E2, have been associated with this phenomenon, which is referred to as viral interference. We identified the cysteine residues, the hydrophobic core tetrapeptide, as well as the C‐terminal negative charge as key factors for the HIV‐1 inhibitory activity of P6‐2. Analysis of mutations in P6‐2‐resistant HIV‐1 indicated a binding site for the peptide in the HIV‐1 envelope glycoprotein gp120. In fact, P6‐2 was shown to bind to soluble gp120, as well as to a peptide presenting the gp120 V3 loop. Furthermore, the HIV‐1 inhibitory activity of P6‐2 could be revoked by the V3 loop peptide, thus indicating a molecular mechanism that involves interaction of P6‐2 with the gp120 V3 loop., Virus versus virus The HIV‐1 inhibitory activity of P6‐2, a peptide derived from the HPgV‐1 E2 protein, is linked to its cysteine residues, hydrophobic core, and C‐terminal negative charge. Similar to the HIV‐1 coreceptors, P6‐2 binds to the V3 loop of HIV‐1 gp120, which mighty point to a molecular mechanism of viral interference of HPgV‐1 with HIV‐1 infection.

Published

2020

35. Characterization of HIV-1 Envelope V3 Region Sequences from Virologically Controlled HIV-Infected Older Patients on Long Term Antiretroviral Therapy

Author

Stephen A. Klotz, Dana Bernhardt, Maria Love, Nafees Ahmad, Anne M. Wertheimer, Nicole E. Behrens, and Meghana Bandlamuri

Subjects

0301 basic medicine, Receptors, CCR5, Immunology, Viremia, HIV Infections, Biology, V3 loop, HIV Envelope Protein gp120, Epitope, 03 medical and health sciences, 0302 clinical medicine, Virology, medicine, Cytotoxic T cell, Humans, 030212 general & internal medicine, Genetic variability, Phylogeny, Aged, medicine.disease, Peptide Fragments, CTL, 030104 developmental biology, Infectious Diseases, biology.protein, HIV-1, Leukocytes, Mononuclear, Antibody, Viral load

Abstract

Although many HIV-infected patients have attained older age owing to the success of antiretroviral therapy (ART) in controlling viremia and increasing CD4 T cell counts, HIV continues to persist in several target cells. We have characterized 514 HIV-1 envelope V3 region sequences (94-96 amino acids [aa]) from 25 HIV-infected older patients' peripheral blood mononuclear cell DNA on long-term ART with controlled viremia (undetectable viral load) and improved CD4 T cell counts. Phylogenetic analysis revealed that the V3 region sequences of each patient formed distinct clusters that were well separated and discriminated from other patients' sequences. The coding potential of the V3 region, including several patient-specific amino acid motifs and functional domains, including the two cysteines sandwiching the V3 loop, the central GPGR motif with variation at one position in some sequences, the base GDIR motif, and the N-glycosylation sites were generally conserved. The patients' V3 region sequences contained amino acid motifs conferring affinity mostly for CCR5 coreceptor, suggesting R5 phenotype. There was a low degree of heterogeneity and lower estimates of genetic diversity in all 25 patients' V3 region sequences. Twelve of 25 patients' V3 region sequences were found to be under positive selection pressure. Analysis of the several cytotoxic T lymphocytes (CTL) epitopes showed variation, whereas some of known neutralizing antibodies (nAbs) epitopes showed conservation in patients' V3 region sequences. In conclusion, a low degree of genetic variability and maintenance of functional domains with R5 phenotypes, and variation in CTL and conservation of nAb epitopes were the hallmarks of V3 region sequences from our 25 virologically controlled HIV-infected older patients on long-term ART.

Published

2020

36. Withdrawal Notice: Elucidating the Disparate Inhibitory Mechanisms of Novel 1-Heteroaryl-1,3-Propanediamine Derivatives and Maraviroc towards C-C Chemokine Receptor 5: Insights for Structural Modifications in HIV-1 Drug Discovery

Author

Patrick Appiah-Kubi, Fisayo A. Olotu, and Mahmoud E. S. Soliman

Subjects

chemistry.chemical_compound, Chemokine receptor, Non-competitive inhibition, Chemistry, Drug discovery, Drug Discovery, Triazole, Biophysics, Tropane, V3 loop, G protein-coupled receptor, Maraviroc

Abstract

INTRODUCTION Blocking Human Immunodeficiency Virus type 1 (HIV-1) entry via C-C chemokine receptor 5 (CCR5) inhibition has remained an essential strategy in HIV drug discovery. This underlies the development of CCR5 blockers, such as Maraviroc, which, however, elicits undesirable side effects despite its potency. BACKGROUND Recent lead optimization efforts led to the discovery of novel 1-heteroaryl-1,3-propanediamine derivatives; Compd-21 and -34, which were ~3 times more potent than Maraviroc, with improved pharmacokinetics. However, atomistic molecular interaction mechanism of how slight structural variance between these inhibitors significantly affects their binding profiles have not been elucidated. METHOD This study employed explicit lipid bilayer molecular dynamics (MD) simulations, and advance analyses to explore these inhibitory discrepancies. RESULTS Findings revealed that the thiophene moiety substitution common to Compd-21 and -34 enhanced their CCR5- inhibitory activities due to complementary high-affinity interactions with Trp862.60, Tyr1083.32, Tyr2516.51, Glu2837.39. These cumulatively accounted for their ΔGbind which were higher than Maraviroc. Binding dynamics further revealed that the compounds mediated direct competitive inhibition at CCR5 by blocking the gp120 V3 loop. Furthermore, constituent tropane and triazole moieties in the compounds commonly engaged in interactions with Glu2837.39 and Trp862.60, respectively. Structural analyses also revealed that both Compd-21 and -34 elicited distinct internal dynamic effect on CCR5 relative to Maraviroc. CONCLUSION Structural modifications at the thiophene substituent and the addition of new functional groups to the triazole ring may enhance inhibitor competition with gp120 V3-loop. Findings herein highlighted would contribute to future structure-based design of inhibitors of HIV-1 CCR5 with improved potencies.

Published

2020

37. HIV-1C env and gag Variation in the Cerebrospinal Fluid and Plasma of Patients with HIV-Associated Cryptococcal Meningitis in Botswana

Author

Simani Gaseitsiwe, Natasha O. Moraka, Mompati Mogwele, Baitshepi Mokaleng, Doreen Ditshwanelo, Ishmael Kasvosve, Nametso Kelentse, David S Lawrence, Tshepo B Leeme, Rosemary Musonda, Joseph N Jarvis, Sikhulile Moyo, Thomas S. Harrison, and Kwana Lechiile

Subjects

Male, 0301 basic medicine, co-receptor, Co-receptor, viruses, lcsh:QR1-502, HIV Infections, Meningitis, Cryptococcal, V3 loop, gag Gene Products, Human Immunodeficiency Virus, lcsh:Microbiology, Epitope, Cerebrospinal fluid, cryptococcal meningitis, Cytotoxic T cell, education.field_of_study, Botswana, env Gene Products, Human Immunodeficiency Virus, virus diseases, Middle Aged, Viral Load, escape mutations, Infectious Diseases, RNA, Viral, Female, Disease Susceptibility, Adult, 030106 microbiology, Population, Biology, Article, cerebrospinal fluid, Virus, Immunocompromised Host, 03 medical and health sciences, Virology, Humans, Amino Acid Sequence, education, plasma, CXCR4, AIDS-Related Opportunistic Infections, CD4 Lymphocyte Count, human immunodeficiency virus (HIV), CTL, Cross-Sectional Studies, 030104 developmental biology, Amino Acid Substitution, Mutation, CCR5

Abstract

HIV-1 compartmentalization in reservoir sites remains a barrier to complete HIV eradication. It is unclear whether there is variation in HIV-1 env and gag between cerebrospinal fluid (CSF) and plasma of individuals with HIV-associated cryptococcal meningitis (CM). We compared HIV-1 env characteristics and the gag cytotoxic T-lymphocyte (CTL) escape mutations from CSF and plasma samples. Employing population-based Sanger sequencing, we sequenced HIV-1 env from CSF of 25 patients and plasma of 26 patients. For gag, 15 CSF and 21 plasma samples were successfully sequenced. Of these, 18 and 9 were paired env and gag CSF/plasma samples, respectively. There was no statistically significant difference in the proportion of CCR5-using strains in the CSF and plasma, (p = 0.50). Discordant CSF/plasma virus co-receptor use was found in 2/18 pairs (11.1%). The polymorphisms in the HIV-1 V3 loop were concordant between the two compartments. From the HIV-1 gag sequences, three pairs had discordant CTL escape mutations in three different epitopes of the nine analyzed. These findings suggest little variation in the HIV-1 env between plasma and CSF and that the CCR5-using strains predominate in both compartments. HIV-1 gag CTL escape mutations also displayed little variation in CSF and plasma suggesting similar CTL selective pressure.

Published

2020

38. Vaccine focusing to cross-subtype HIV-1 gp120 variable loop epitopes.

Author

Cardozo, Timothy, Wang, Shixia, Jiang, Xunqing, Kong, Xiang-Peng, Hioe, Catarina, and Krachmarov, Chavdar

Subjects

*HIV-1 glycoprotein 120, *EPITOPES, *HIV prevention, *AIDS vaccines, *ANTIGEN-antibody reactions, *LABORATORY rabbits, *ANIMAL vaccination

Abstract

We designed synthetic, epitope-focused immunogens that preferentially display individual neutralization epitopes targeted by cross-subtype anti-HIV V3 loop neutralizing monoclonal antibodies (mAbs). Vaccination of rabbits with these immunogens resulted in the elicitation of distinct polyclonal serum Abs that exhibit cross-subtype neutralization specificities mimicking the mAbs that guided the design. Our results prove the principle that a predictable range of epitope-specific polyclonal cross-subtype HIV-1 neutralizing Abs can be intentionally elicited in mammals by vaccination. The precise boundaries of the epitopes and conformational flexibility in the presentation of the epitopes in the immunogen appeared to be important for successful elicitation. This work may serve as a starting point for translating the activities of human broadly neutralizing anti-HIV-1 monoclonal antibodies (bNAbs) into matched immunogens that can contribute to an efficacious HIV-1 vaccine. [ABSTRACT FROM AUTHOR]

Published

2014

39. A virus–envelope paired competitive assay to study entry efficiency of human immunodeficiency virus type 1 in vitro.

Author

Schwalbe, Birco, Hauser, Heiko, and Schreiber, Michael

Subjects

*BIOLOGICAL assay, *COMPETITION (Biology), *HIV, *VIROLOGY, *GENETIC mutation, *AMINO acids

Abstract

Highlights: [•] We developed a new competitive assay to study viral entry of HIV-1. [•] In this new assay virus entry is measured in competition to soluble envelope of a second virus. [•] By using different virus–gp120 combinations we have identified gp120 effects on virus inhibition and enhancement. [ABSTRACT FROM AUTHOR]

Published

2014

40. DETERMINATION OF VIRAL TROPISM BY GENOTYPING AND PHENOTYPING ASSAYS IN BRAZILIAN HIV-1-INFECTED PATIENTS.

Author

ARRUDA, Liã Bárbara, de ARAÚJO, Marilia Ladeira, MARTINEZ, Maira Luccia, GONSALEZ, Claudio Roberto, da Silva DUARTE, Alberto José, COAKLEY, Eoin, LIE, Yolanda, and CASSEB, Jorge

Subjects

VIRAL tropism, PHENOTYPES, HIV-positive persons, CHEMOKINE receptors, BIOINFORMATICS

Abstract

Copyright of Revista do Instituto de Medicina Tropical de São Paulo is the property of Instituto de Medicina Tropical de Sao Paulo and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2014

41. Antigenic and 3D structural characterization of soluble X4 and hybrid X4-R5 HIV-1 Env trimers.

Author

Arnold, Philipp, Himmels, Patricia, Weiß, Svenja, Decker, Tim-Michael, Markl, Jürgen, Gatterdam, Volker, Tampé, Robert, Bartholomäus, Patrick, Dietrich, Ursula, and Dürr, Ralf

Subjects

*EPITOPES, *GLYCOPROTEIN analysis, *GLYCOPROTEIN synthesis, *BIOCHEMICAL variation, *ELECTRON microscopy, *HIV infection complications, *PROGNOSIS

Abstract

Background HIV-1 is decorated with trimeric glycoprotein spikes that enable infection by engaging CD4 and a chemokine coreceptor, either CCR5 or CXCR4. The variable loop 3 (V3) of the HIV-1 envelope protein (Env) is the main determinant for coreceptor usage. The predominant CCR5 using (R5) HIV-1 Env has been intensively studied in function and structure, whereas the trimeric architecture of the less frequent, but more cytopathic CXCR4 using (X4) HIV-1 Env is largely unknown, as are the consequences of sequence changes in and near V3 on antigenicity and trimeric Env structure. Results Soluble trimeric gp140 Env constructs were used as immunogenic mimics of the native spikes to analyze their antigenic properties in the context of their overall 3D structure. We generated soluble, uncleaved, gp140 trimers from a prototypic T-cell line-adapted (TCLA) X4 HIV-1 strain (NL4-3) and a hybrid (NL4-3/ADA), in which the V3 spanning region was substituted with that from the primary R5 isolate ADA. Compared to an ADA (R5) gp140, the NL4-3 (X4) construct revealed an overall higher antibody accessibility, which was most pronounced for the CD4 binding site ( CD4bs), but also observed for mAbs against CD4 induced (CD4i) epitopes and gp41 mAbs. V3 mAbs showed significant binding differences to the three constructs, which were refined by SPR analysis. Of interest, the NL4-3/ADA construct with the hybrid NL4-3/ADA CD4bs showed impaired CD4 and CD4bs mAb reactivity despite the presence of the essential elements of the CD4bs epitope. We obtained 3D reconstructions of the NL4-3 and the NL4-3/ADA gp140 trimers via electron microscopy and single particle analysis, which indicates that both constructs inherit a propeller-like architecture. The first 3D reconstruction of an Env construct from an X4 TCLA HIV-1 strain reveals an open conformation, in contrast to recently published more closed structures from R5 Env. Exchanging the X4 V3 spanning region for that of R5 ADA did not alter the open Env architecture as deduced from its very similar 3D reconstruction. Conclusions 3D EM analysis showed an apparent open trimer configuration of X4 NL4-3 gp140 that is not modified by exchanging the V3 spanning region for R5 ADA. [ABSTRACT FROM AUTHOR]

Published

2014

42. Structural dynamics of V3 loop in a trimeric ambiance, a molecular dynamics study on gp120–CD4 trimeric mimic.

Author

Chandramouli, Balasubramanian, Chillemi, Giovanni, and Desideri, Alessandro

Subjects

*STRUCTURAL dynamics, *MOLECULAR dynamics, *CD4 antigen, *HIV-1 glycoprotein 120, *CELL receptors, *ELECTROSTATICS

Abstract

Abstract: Entry of HIV virus into the host cell is initiated by the interaction of its surface exposed gp120 protein with the cell surface CD4 receptor and a co-receptor that can be either CCR5 or CXCR4. The third variable region (V3 loop) of gp120 has an important role in co-receptor selection by gp120 and forms an epitope for neutralizing antibodies. In this work the dynamical behavior of the V3 loop in a trimeric environment has been investigated by generating an atomistic trimer model of gp120–CD4 complex and has been compared with the result of a monomeric gp120–CD4 complex. The main results coming from this work are that the three V3 loops belonging to the three subunits of the trimer display a different dynamical behavior in terms of its flexibility, spatial orientation, motion along the principal modes, conformations, solvent exposure and electrostatic potential distribution. We propose that the ability of the V3 loop to present, in the trimeric environment, simultaneous multiple alternative conformations that increase its capability of co-receptor recognition, is at least in part due to the effect of electrostatic potential generated by two subunits over the third one. [Copyright &y& Elsevier]

Published

2014

43. SERINC5 Inhibits HIV-1 Infectivity by Altering the Conformation of gp120 on HIV-1 Particles

Author

Austin Featherstone and Christopher Aiken

Subjects

Glycan, medicine.drug_class, viruses, Immunology, HIV Infections, HIV Envelope Protein gp120, Biology, V3 loop, Monoclonal antibody, Microbiology, Protein Structure, Secondary, Epitope, Virus, Virology, medicine, Humans, Infectivity, chemistry.chemical_classification, Membrane Proteins, virus diseases, Virus-Cell Interactions, Cell biology, HEK293 Cells, chemistry, Insect Science, CD4 Antigens, HIV-1, biology.protein, Antibody, Glycoprotein

Abstract

SERINC5 is a 10-transmembrane-domain cellular protein that is incorporated into budding HIV-1 particles and reduces HIV-1 infectivity by inhibiting virus-cell fusion. HIV-1 susceptibility to SERINC5 is determined by sequences in the viral Env glycoprotein gp120, and the antiviral effect of SERINC5 is counteracted by the viral accessory protein Nef. While the precise mechanism by which SERINC5 inhibits HIV-1 infectivity is unclear, previous studies have suggested that SERINC5 affects Env conformation. To define the effects of SERINC5 on Env conformation, we quantified the binding of HIV-1 particles to immobilized Env-specific monoclonal antibodies. We observed that SERINC5 reduced the binding of HIV-1 particles bearing a SERINC5-susceptible Env to antibodies that recognize the V3 loop, a soluble CD4 (sCD4)-induced epitope, and an N-linked glycan. In contrast, SERINC5 did not alter the capture of HIV-1 particles bearing the SERINC5-resistant Env protein. Moreover, the effect of SERINC5 on antibody-dependent virus capture was abrogated by Nef expression. Our results indicate that SERINC5 inhibits HIV-1 infectivity by altering the conformation of gp120 on virions and/or physical masking of specific HIV-1 Env epitopes. IMPORTANCE SERINC5 is a host cell protein that inhibits the infectivity of HIV-1 by a novel and poorly understood mechanism. Here, we provide evidence that the SERINC5 protein alters the conformation of the HIV-1 Env proteins and that this action is correlated with SERINC5’s ability to inhibit HIV-1 infectivity. Defining the specific effects of SERINC5 on the HIV-1 glycoprotein conformation may be useful for designing new antiviral strategies targeting Env.

Published

2020

44. Probing intrinsic dynamics and conformational transition of HIV gp120 by molecular dynamics simulation

Author

Xue Yuan, Xiao-Ling Zhang, Jiang-Chun Hou, Li-Quan Yang, Yi Li, and Peng Sang

Subjects

0303 health sciences, Transition (genetics), Chemistry, General Chemical Engineering, Dynamics (mechanics), Relaxation (NMR), Immune escape, General Chemistry, HIV Envelope Glycoprotein gp120, V3 loop, 03 medical and health sciences, Molecular dynamics, 0302 clinical medicine, Chemical physics, Hiv gp120, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

The HIV envelope glycoprotein gp120 has evolved two distinct conformational states to balance viral infection and immune escape. One is a closed state resistant to most neutralization antibodies, and the other is an open state responsible for the binding of the receptor and coreceptors. Although the structures of gp120 in these two conformational states have been determined, a detailed molecular mechanism involving intrinsic dynamics and conformational transition is still elusive. In this study, μs-scale molecular dynamics simulation is performed to probe molecular dynamics and conformational transition away from the open state and approach the closed state. Our results reveal that open gp120 shows a larger structural deviation, higher conformational flexibility, and more conformational diversity than the form in the closed state, providing a structural explanation for receptor or coreceptor affinity at the open state and the neutralization resistance of closed conformation. Seven regions with greatly decreased coupled motions in the open states have been observed by dynamic cross-correlation analysis, indicating that conformational transition can be mainly attributed to the relaxation of intrinsic dynamics. Three conformations characterized by the structural orientations of the V1/V2 region and the V3 loop, suggesting gp120 is intrinsically dynamic from the open state to the closed state. Taken together, these findings shed light on the understanding of the conformational control mechanism of HIV.

Published

2020

45. Diversity and Function of Maternal HIV-1-Specific Antibodies at the Time of Vertical Transmission

Author

Theodore A Gobillot, Meghan Garrett, Ruth Nduati, Frederick A. Matsen, Cassandra A. Simonich, Mackenzie M. Shipley, Vladimir Vigdorovich, Laura E Doepker, D. Noah Sather, Duncan Ralph, and Julie Overbaugh

Subjects

medicine.drug_class, Immunology, HIV Infections, V3 loop, HIV Antibodies, Monoclonal antibody, Microbiology, Virus, 03 medical and health sciences, Epitopes, 0302 clinical medicine, Immune system, Antibody Specificity, Pregnancy, Virology, medicine, Humans, HIV vaccine, Pregnancy Complications, Infectious, 030304 developmental biology, Antibody-dependent cell-mediated cytotoxicity, AIDS Vaccines, 0303 health sciences, biology, Transmission (medicine), env Gene Products, Human Immunodeficiency Virus, Antibodies, Monoclonal, Infant, Antibodies, Neutralizing, Infectious Disease Transmission, Vertical, Insect Science, biology.protein, HIV-1, Pathogenesis and Immunity, Female, Antibody, 030217 neurology & neurosurgery

Abstract

Infants of HIV-positive mothers can acquire HIV infection by various routes, but even in the absence of antiviral treatment, the majority of these infants do not become infected. There is evidence that maternal antibodies provide some protection from infection, but gestational maternal antibodies have not yet been characterized in detail. One of the most studied vertically infected infants is BG505, as the virus from this infant yielded an Envelope protein that was successfully developed as a stable trimer. Here, we isolated and characterized 39 HIV-specific neutralizing monoclonal antibodies (nAbs) from MG505, the mother of BG505, at a time point just prior to vertical transmission. These nAbs belonged to 21 clonal families and employed a variety of VH genes. Many were specific for the HIV-1 Env V3 loop, and this V3 specificity correlated with measurable antibody-dependent cellular cytotoxicity (ADCC) activity. The isolated nAbs did not recapitulate the full breadth of heterologous or autologous virus neutralization by contemporaneous plasma. Notably, we found that the V3-targeting nAb families neutralized one particular maternal Env variant, even though all tested variants had low V3 sequence diversity and were measurably bound by these nAbs. None of the nAbs neutralized BG505 transmitted virus. Furthermore, the MG505 nAb families were found at relatively low frequencies within the maternal B cell repertoire; all were less than 0.25% of total IgG sequences. Our findings illustrate an example of the diversity of HIV-1 nAbs within one mother, cumulatively resulting in a collection of antibody specificities that can contribute to the transmission bottleneck. IMPORTANCE Mother-to-child-transmission of HIV-1 offers a unique setting in which maternal antibodies both within the mother and passively transferred to the infant are present at the time of viral exposure. Untreated HIV-exposed human infants are infected at a rate of 30 to 40%, meaning that some infants do not get infected despite continued exposure to virus. Since the potential of HIV-specific immune responses to provide protection against HIV is a central goal of HIV vaccine design, understanding the nature of maternal antibodies may provide insights into immune mechanisms of protection. In this study, we isolated and characterized HIV-specific antibodies from the mother of an infant whose transmitted virus has been well studied.

Published

2020

46. HIV-1 Coreceptor Usage and Variable Loop Contact Impact V3 Loop Broadly Neutralizing Antibody Susceptibility

Author

Nina Lin, Yvetane Moreau, Timothy J. Henrich, Ludy Registre, Manish Sagar, Sila Toksoz Ataca, and Surya Pulukuri

Subjects

Male, Models, Molecular, Receptors, CCR5, Chemokine receptor CCR5, Immunology, Viremia, HIV Antibodies, V3 loop, Microbiology, Protein Structure, Secondary, Neutralization, Epitope, Virus, Epitopes, 03 medical and health sciences, 0302 clinical medicine, Virology, medicine, Humans, Homology modeling, 030304 developmental biology, 0303 health sciences, biology, medicine.disease, Antibodies, Neutralizing, Insect Science, HIV-1, biology.protein, Pathogenesis and Immunity, Female, Antibody, 030217 neurology & neurosurgery

Abstract

In clinical trials, HIV-1 broadly neutralizing antibodies (bnAbs) effectively lower plasma viremia and delay virus reemergence. The presence of less neutralization-susceptible strains prior to treatment decreases the efficacy of these antibody-based treatments, but neutralization sensitivity often cannot be predicted by sequence analysis alone. We found that phenotypically confirmed CXCR4-utilizing strains are less neutralization sensitive, especially to variable loop 3 (V3 loop)-directed bnAbs, than exclusively CCR5-utilizing strains in some, but not all, cases. Homology modeling suggested that the primary V3 loop bnAb epitope is equally accessible among CCR5- and CXCR4-using strains, although variants that exclusively use CXCR4 have V3 loop protrusions that interfere with CCR5 receptor interactions. Homology modeling also showed that among some, but not all, envelopes with decreased neutralization sensitivity, V1 loop orientation interfered with V3 loop-directed bnAb binding. Thus, there are likely different structural reasons for the coreceptor usage restriction and the different bnAb susceptibilities. Importantly, we show that individuals harboring envelopes with higher likelihood of using CXCR4 or greater predicted V1 loop interference have faster virus rebound and a lower maximum decrease in plasma viremia, respectively, after treatment with a V3 loop bnAb. Knowledge of receptor usage and homology models may be useful in developing future algorithms that predict treatment efficacy with V3 loop bnAbs. IMPORTANCE The efficacy of HIV-1 broadly neutralizing antibody (bnAb) therapies may be compromised by the preexistence of less susceptible variants. Sequence-based methods are needed to predict pretreatment variants’ neutralization sensitivities. HIV-1 strains that exclusively use the CXCR4 receptor rather than the CCR5 receptor are less neutralization susceptible, especially to variable loop 3 (V3 loop) bnAbs in some, but not all, instances. While the inability to utilize the CCR5 receptor maps to a predicted protrusion in the envelope V3 loop, this viral determinant does not directly influence V3 loop bnAb sensitivity. Homology modeling predicts that contact between the envelope V1 loop and the antibody impacts V3 loop bnAb susceptibility in some cases. Among pretreatment envelopes, increased probability of using CXCR4 and greater predicted V1 interference are associated with faster virus rebound and a smaller decrease in the plasma virus level, respectively, after V3 loop bnAb treatment. Receptor usage information and homology models may be useful for predicting V3 loop bnAb therapy efficacy.

Published

2020

47. Next generation sequencing reveals a high frequency of CXCR4 utilizing viruses in HIV-1 chronically infected drug experienced individuals in South Africa

Author

Pascal O. Bessong, Denis M. Tebit, Marie-Louise Hammarskjold, Laurie R. Gray, Nontokozo D. Matume, and David Rekosh

Subjects

Adult, Male, 0301 basic medicine, Receptors, CXCR4, Adolescent, Genotype, Genotyping Techniques, viruses, Virus Attachment, Salvage therapy, HIV Infections, Viral quasispecies, Biology, V3 loop, Article, Maraviroc, South Africa, Young Adult, 03 medical and health sciences, chemistry.chemical_compound, Receptors, HIV, 0302 clinical medicine, Proviruses, Virology, Humans, 030212 general & internal medicine, Child, Genotyping, Tropism, Aged, High-Throughput Nucleotide Sequencing, Middle Aged, Viral Tropism, 030104 developmental biology, Infectious Diseases, Anti-Retroviral Agents, chemistry, Child, Preschool, HIV-1, Leukocytes, Mononuclear, Tissue tropism, Female

Abstract

Background Entry inhibitors, such as Maraviroc, bind to CCR5 inhibiting entry of CCR5 utilizing viruses (R5 viruses). In the course of HIV infection, CXCR4 utilizing viruses (X4 viruses) may emerge and outgrow R5 viruses, and potentially limit the effectiveness of Maraviroc. The use of Maraviroc is reserved for salvage therapy in South Africa. Objective In this study, we examined the frequency of R5 and X4 viruses, using next generation sequencing, in patients under treatment to draw inferences on the utility of Maraviroc in a South African population. Study design Proviral DNA was isolated from peripheral blood mononuclear cells (PBMC) of 72 chronically HIV infected patients on antiretroviral treatment. HIV V3 loop gene was amplified and sequenced on an Illumina MiniSeq platform. Viral subtypes were determined by the jumping profile Hidden Markov Model (jpHMM) and REGA genotyping tools. De Novo consensus sequences were derived for the majority and minority populations for each patient using Geneious® software version 8.1.5. HIV-1 tropism was inferred using PSSMsinsi, Geno2pheno and Phenoseq-C web-based tools. Results Quality V3 loop sequences were obtained from 72 patients, with 5 years (range: 0–16) median duration on treatment. Subtypes A1, B and C viruses were identified at frequencies of 4% (3/72), 4% (3/72) and 92% (66/72) respectively. Fifty four percent (39/72) of patients exclusively harboured R5 viral quasispecies; and 21% (15/72) exclusively harbored X4 viral quasispecies. Twenty five percent of patients (18/72) harbored dual/mixture of R5X4 quasispecies. Of these 18 patients, about 28% (5/18) harbored the R5+X4, a mixture with a majority R5 and minority X4 viruses, while about 72% (13/18) harbored the R5X4+ mixture with a majority X4 and minority R5 viruses. The proportion of all patients who harbored X4 viruses either exclusively or dual/mixture was 46% (33/72). Thirty-five percent (23/66) of the patients who were of HIV-1 subtype C harboured X4 viruses (χ2 = 3.58; p = .058), and 57% of these (13/23) harbored X4 viruses exclusively. CD4+ cell count less than 350 cell/μl was associated with the presence of X4 viruses (χ2 = 4.99; p = .008). Conclusion The effectiveness of Maraviroc as a component in salvage therapy may be compromised for a significant number of chronically infected patients harboring CXCR4 utilizing viruses.

Published

2018

48. SCOTCH: subtype A coreceptor tropism classification in HIV-1

Author

Hannah F. Löchel, Mona Riemenschneider, Dominik Heider, and Dmitrij Frishman

Subjects

0301 basic medicine, Statistics and Probability, Receptors, CXCR4, Receptors, CCR5, viruses, Human immunodeficiency virus (HIV), HIV Infections, Computational biology, HIV Envelope Protein gp120, V3 loop, Biology, medicine.disease_cause, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Sequence Analysis, Protein, medicine, Humans, Molecular Biology, Tropism, Computational Biology, virus diseases, Antiretroviral therapy, Computer Science Applications, Viral Tropism, Computational Mathematics, 030104 developmental biology, Computational Theory and Mathematics, CCR5 Receptor Antagonists, HIV-1, Coreceptor tropism, Software, 030217 neurology & neurosurgery

Abstract

Motivation The V3 loop of the gp120 glycoprotein of the Human Immunodeficiency Virus 1 (HIV-1) is considered to be responsible for viral coreceptor tropism. gp120 interacts with the CD4 receptor of the host cell and subsequently V3 binds either CCR5 or CXCR4. Due to the fact that the CCR5 coreceptor is targeted by entry inhibitors, a reliable prediction of the coreceptor usage of HIV-1 is of great interest for antiretroviral therapy. Although several methods for the prediction of coreceptor tropism are available, almost all of them have been developed based on only subtype B sequences, and it has been shown in several studies that the prediction of non-B sequences, in particular subtype A sequences, are less reliable. Thus, the aim of the current study was to develop a reliable prediction model for subtype A viruses. Results Our new model SCOTCH is based on a stacking approach of classifier ensembles and shows a significantly better performance for subtype A sequences compared to other available models. In particular for low false positive rates (between 0.05 and 0.2, i.e. recommendation in the German and European Guidelines for tropism prediction), SCOTCH shows significantly better prediction performances in terms of partial area under the curves and diagnostic odds ratios compared to existing tools, and thus can be used to reliably predict coreceptor tropism for subtype A sequences. Availability and implementation SCOTCH can be downloaded/accessed at http://www.heiderlab.de.

Published

2018

49. Effects of Cross-Presentation, Antigen Processing, and Peptide Binding in HIV Evasion of T Cell Immunity

Author

Jay A. Berzofsky, Bin Yu, David H. Margulies, Phillip W. Berman, Lisa F. Boyd, Rolf Billeskov, Blake Frey, Gwen P. Tatsuno, Shahram Solaymani-Mohammadi, Jiansheng Jiang, and Yongjun Sui

Subjects

CD4-Positive T-Lymphocytes, 0301 basic medicine, T cell, Immunology, Epitopes, T-Lymphocyte, HIV Infections, Vaccinia virus, Peptide binding, HIV Envelope Protein gp120, V3 loop, Major histocompatibility complex, Article, Epitope, Mice, 03 medical and health sciences, Cross-Priming, MHC class I, medicine, Animals, Humans, Immunology and Allergy, Immune Evasion, Antigen Presentation, Mice, Inbred BALB C, biology, Immunodominant Epitopes, Antigen processing, Chemistry, Histocompatibility Antigens Class I, HIV, Cross-presentation, Dendritic Cells, Cathepsins, Cell biology, HEK293 Cells, 030104 developmental biology, medicine.anatomical_structure, biology.protein, Peptides

Abstract

Unlike cytosolic processing and presentation of viral antigens by virus-infected cells, antigens first expressed in an infected non-professional antigen-presenting cell, such as CD4(+) T cells in the case of HIV, and then taken up by dendritic cells are cross-presented. This generally requires entry through the endocytic pathway, where endosomal proteases have first access for processing. Thus, understanding virus escape during cross-presentation requires an understanding of resistance to endosomal proteases such as cathepsin S. We have modified HIV-1(MN) gp120 (gp120(MN)) by mutating a key cathepsin S cleavage site T(322)T(323) in the V3 loop of the immunodominant epitope IGPGRAFYTT to IGPGRAFYVV to prevent digestion. We found this mutation to facilitate cross-presentation, and provide evidence from both MHC-binding and X-ray crystallographic structural studies that this results from preservation of the epitope rather than an increased epitope affinity for the class I MHC molecule. In contrast, when the protein is expressed by a vaccinia virus in the cytosol, the wild type protein is immunogenic without this mutation. These results demonstrate proof-of-concept that a virus like HIV, infecting predominantly non-professional presenting cells, can escape T cell recognition by incorporating a cathepsin S cleavage site that leads to destruction of an immunodominant epitope when the antigen undergoes endosomal cross-presentation.

Published

2018

50. A novel amyloid designable scaffold and potential inhibitor inspired by GAIIG of amyloid beta and the HIV-1 V3 loop

Author

Sai Vamshi R. Jonnalagadda, Chrysoula Kokotidou, Matthew W. Bowler, Phanourios Tamamis, Mark J. van Raaij, Estelle Mossou, Apostolos Chatzoudis, V. Trevor Forsyth, Chrysanthi Pinelopi Apostolidou, Mateo Seoane-Blanco, Antonio L. Llamas-Saiz, Marianna Kotzabasaki, Joseph M. Jakubowski, Anna Mitraki, Edward P. Mitchell, and Asuka A. Orr

Subjects

0301 basic medicine, Scaffold, Amyloid, Amyloid beta, Biophysics, Human immunodeficiency virus (HIV), Sequence (biology), Peptide, HIV Envelope Protein gp120, V3 loop, Crystallography, X-Ray, medicine.disease_cause, Biochemistry, Protein Structure, Secondary, 03 medical and health sciences, Structural Biology, mental disorders, Genetics, medicine, Humans, Molecular Biology, chemistry.chemical_classification, Amyloid beta-Peptides, biology, Cell Biology, Amyloid fibril, 030104 developmental biology, chemistry, HIV-1, biology.protein

Abstract

The GAIIG sequence, common to the amyloid beta peptide (residues 29-33) and to the HIV-1 gp120 (residues 24-28 in a typical V3 loop), self-assembles into amyloid fibrils, as suggested by theory and the experiments presented here. The longer YATGAIIGNII sequence from the V3 loop also self-assembles into amyloid fibrils, of which the first three and the last two residues are outside the amyloid GAIIG core. We postulate that this sequence, with suitably selected modifications at the flexible positions, can serve as a designable scaffold for novel amyloid-based materials. Moreover, we report the single crystal X-ray structure of the beta-breaker peptide GAIPIG at 1.05 Å resolution. The structural information provided in this study could serve as the basis for structure-based design of potential inhibitors of amyloid formation.

Published

2018