Your search keyword '"HIV Envelope Protein gp160"' showing total 1,056 results

1. A Universal CAR-NK Cell Targeting Various Epitopes of HIV-1 gp160

Author

Anjie Zhen, Jianming Xie, Rebecca Marie Lim, and Liang Rong

Subjects

0301 basic medicine, Cell, Biology, Gp41, 01 natural sciences, Biochemistry, Article, Epitope, HIV Envelope Protein gp160, Flow cytometry, Epitopes, 03 medical and health sciences, Antigen, medicine, Humans, Receptors, Chimeric Antigen, medicine.diagnostic_test, 010405 organic chemistry, virus diseases, General Medicine, Flow Cytometry, Virology, Chimeric antigen receptor, 0104 chemical sciences, Killer Cells, Natural, 030104 developmental biology, medicine.anatomical_structure, Cell culture, HIV-1, biology.protein, Molecular Medicine, Antibody, Genetic Engineering

Abstract

Engineering T cells and natural killer (NK) cells with anti-HIV chimeric antigen receptors (CAR) has emerged as a promising strategy to eradicate HIV-infected cells. However, current anti-HIV CARs are limited by targeting a single epitope of the HIV envelope glycoprotein gp160, which cannot counter the enormous diversity and mutability of viruses. Here, we report the development of a universal CAR-NK cell, which recognizes 2,4-dinitrophenyl (DNP) and can subsequently be redirected to target various epitopes of gp160 using DNP-conjugated antibodies as adaptor molecules. We show that this CAR-NK cell can recognize and kill mimic HIV-infected cell lines expressing subtypes B and C gp160. We additionally find that anti-gp160 antibodies targeting membrane-distal epitopes (including V1/V2, V3, and CD4bs) are more likely to activate universal CAR-NK cells against gp160(+) target cells, compared with those targeting membrane-proximal epitopes located in the gp41 MPER. Finally, we confirm that HIV-infected primary human CD4(+) T cells can be effectively killed using the same approach. Given that numerous anti-gp160 antibodies with different antigen specificities are readily available, this modular universal CAR-NK cell platform can potentially overcome HIV diversity, thus providing a promising strategy to eradicate HIV-infected cells.

Published

2020

2. Quantitative HIV-1-specific antibodies as predictors of peripheral blood cell-associated HIV-1 DNA concentrations

Author

Deborah Persaud, Kunjal Patel, Brad Karalius, Margaret M. McManus, and Katherine Luzuriaga

Subjects

0301 basic medicine, Adolescent, Sustained Virologic Response, Anti-HIV Agents, viruses, Immunology, Enzyme-Linked Immunosorbent Assay, HIV Infections, HIV Antibodies, Gp41, Polymerase Chain Reaction, Peripheral blood mononuclear cell, Article, HIV Envelope Protein gp160, 03 medical and health sciences, 0302 clinical medicine, Acquired immunodeficiency syndrome (AIDS), Antiretroviral Therapy, Highly Active, Humans, Immunology and Allergy, Medicine, Digital polymerase chain reaction, Peripheral blood cell, 030212 general & internal medicine, Child, Antigens, Viral, biology, business.industry, Area under the curve, virus diseases, medicine.disease, HIV Envelope Protein gp41, 030104 developmental biology, Infectious Diseases, Child, Preschool, Immunoglobulin G, DNA, Viral, HIV-1, Leukocytes, Mononuclear, biology.protein, RNA, Viral, Antibody, business, Cohort study

Abstract

Objective This study evaluated HIV-1 antibody levels as predictors of cell-associated HIV-1 DNA levels in perinatally infected (PHIV) children with long-term viral suppression on antiretroviral therapy (ART). Design HIV-1 antibody and HIV-1 DNA levels were measured in blood specimens from 61 children and adolescents from the Pediatric HIV/AIDS Cohort Study: Adolescent Master Protocol. Twenty perinatally HIV-1-exposed, uninfected children studied through 2 years served as controls. Methods HIV-1 IgG antibodies to six HIV-1 proteins were measured by quantitative ELISA; HIV-1 DNA levels were measured by droplet digital PCR. Results Among 13 children with viral suppression at less than 1 year, antibodies to gp160 and gp41 were low but stable longitudinally; antibodies to p17, p24, and RT decreased, and antibodies to p31 were low or undetectable. Among 48 children with viral suppression between 1 and 5 years, antibody levels to all six HIV-1 proteins were higher than in children with earlier viral suppression and remained high over time. A receiver operator curve approach identified gp41 and gp160 as useful predictors of HIV-1 DNA less than 10 or less than 100 copies per million PBMC (cpm); C-statistics including all antibodies ranged from 0.75 to 0.77. An ensemble learning approach also identified gp41 and gp160 as important predictors of HIV-1 DNA less than 10 or less than 100 cpm; area under the curve estimates utilizing all HIV-1 antibodies ranged from 0.70 to 0.81. Conclusion Quantitative HIV-1 gp41 and gp160 antibody levels may serve as rapid, inexpensive screening tools for low PBMC HIV-1 DNA levels in children with viral suppression on ART, facilitating inclusion into remission protocols.

Published

2020

3. New Insights into the Structure of Kappa/Beta-Carrageenan: A Novel Potential Inhibitor of HIV-1

Author

Irina M. Yermak, Anna O. Kravchenko, Vladimir S. Prassolov, Valery P. Glazunov, William Helbert, Pavel Spirin, Stanislav D. Anastyuk, and Andrey Shulgin

Subjects

QH301-705.5, HIV Infections, Polysaccharide, Jurkat cells, Antiviral Agents, Catalysis, Article, HIV Envelope Protein gp160, Inorganic Chemistry, chemistry.chemical_compound, Transduction (genetics), Jurkat Cells, oligosaccharides, Humans, structure, Biology (General), Physical and Theoretical Chemistry, Beta (finance), carrageenan, HIV-1, QD1-999, Molecular Biology, Spectroscopy, chemistry.chemical_classification, Chemistry, Depolymerization, Organic Chemistry, Lentivirus, General Medicine, Computer Science Applications, Carrageenan, Enzyme, Biochemistry, Kappa

Abstract

New insights into the structure of the hybrid κ/β-carrageenan (κ/β-CRG) of the red alga Tichocarpus crinitus have been obtained. Carrageenan oligosaccharides were prepared through the chemical and enzymatic depolymerization of κ/β-CRG with κ-carrageenase and its the enzyme-resistant fraction. The composition and distribution of the repetition units of κ/β- CRG were investigated by using the negative ion tandem MALDI-TOFMS and ESIMS method, which made it possible to prove and characterize the hybrid structure of this polysaccharide. An analysis revealed the blockwise distribution of the long β-blocks along the polysaccharide chain, with the inclusion of κ/β, μ/ν-blocks and some ι-blocks. Furthermore, the desulfated κ/β-CRG was shown to contain of –G–D– repeating units up to 3.5 kDa. Previous studies have demonstrated that CRGs suppress the replication of several viruses. Here, we established that κ/β-CRG and its oligosaccharides significantly inhibit the transduction efficiency of replication-defective lentiviral particles pseudotyped with the envelope proteins of three different viruses. We found that the polysaccharide and its oligosaccharides strongly reduced the transduction efficiency of lentiviral particles pseudotyped with GP160—the envelope protein of the human immunodeficiency virus HIV-1—when added to T-lymphocyte Jurkat cells. The CRG oligosaccharides displayed significantly higher antiviral activity.

Published

2021

4. CD4+ T Cells Are Dispensable for Induction of Broad Heterologous HIV Neutralizing Antibodies in Rhesus Macaques

Author

Sanghita Sarkar, David A. Spencer, Javier Rangel-Moreno, Philip Barnette, James J. Kobie, John D. Cleveland, Ann J. Hessell, Shilpi Pandey, Michael C. Keefer, Alexander F. Rosenberg, Reuben E. Burch, Madhubanti Basu, Nancy L. Haigwood, and William F. Sutton

Subjects

CD4-Positive T-Lymphocytes, Male, rhesus, T cell, HIV - human immunodeficiency virus, Immunology, Immunization, Secondary, Simian Acquired Immunodeficiency Syndrome, Heterologous, Somatic hypermutation, Context (language use), Cross Reactions, HIV Antibodies, Biology, Antibodies, Viral, HIV Envelope Protein gp160, CD4+ T cell, Phagocytosis, vaccine, antibody, Vaccine Development, medicine, Animals, Immunology and Allergy, HIV vaccine, B cell, Original Research, AIDS Vaccines, Vaccines, Synthetic, Antibody-Dependent Cell Cytotoxicity, env Gene Products, Human Immunodeficiency Virus, Antibody titer, virus diseases, RC581-607, Viral Load, Germinal Center, Antibodies, Bacterial, Macaca mulatta, Virology, neutralizing, medicine.anatomical_structure, HIV-1, biology.protein, Female, Simian Immunodeficiency Virus, Immunologic diseases. Allergy, Antibody, Broadly Neutralizing Antibodies

Abstract

Induction of broadly neutralizing antibodies (bNAbs) is a major goal for HIV vaccine development. HIV envelope glycoprotein (Env)-specific bNAbs isolated from HIV-infected individuals exhibit substantial somatic hypermutation and correlate with T follicular helper (Tfh) responses. Using the VC10014 DNA-protein co-immunization vaccine platform consisting of gp160 plasmids and gp140 trimeric proteins derived from an HIV-1 infected subject that developed bNAbs, we determined the characteristics of the Env-specific humoral response in vaccinated rhesus macaques in the context of CD4+ T cell depletion. Unexpectedly, both CD4+ depleted and non-depleted animals developed comparable Tier 1 and 2 heterologous HIV-1 neutralizing plasma antibody titers. There was no deficit in protection from SHIV challenge, no diminution of titers of HIV Env-specific cross-clade binding antibodies, antibody dependent cellular phagocytosis, or antibody-dependent complement deposition in the CD4+ depleted animals. These collective results suggest that in the presence of diminished CD4+ T cell help, HIV neutralizing antibodies were still generated, which may have implications for developing effective HIV vaccine strategies.

Published

2021

5. Intramolecular quality control: HIV-1 envelope gp160 signal-peptide cleavage as a functional folding checkpoint

Author

McCaul, Nicholas, Quandte, Matthias, Bontjer, Ilja, van Zadelhoff, Guus, Land, Aafke, Crooks, Ema T., Binley, James M., Sanders, Rogier W., Braakman, Ineke, Sub Cellular Protein Chemistry, Cellular Protein Chemistry, Sub Cellular Protein Chemistry, Cellular Protein Chemistry, Medical Microbiology and Infection Prevention, and AII - Infectious diseases

Subjects

Signal peptide, disulfide isomerization, envelope glycoprotein, membrane tethering, HIV Envelope Protein gp120, Protein Sorting Signals, Virus Replication, Cleavage (embryo), Biochemistry, General Biochemistry, Genetics and Molecular Biology, HIV Envelope Protein gp160, Structure-Activity Relationship, chemistry.chemical_compound, 03 medical and health sciences, Protein structure, Biosynthesis, protein folding, Humans, Protein Interaction Domains and Motifs, signal peptide, Cysteine, 030304 developmental biology, 0303 health sciences, Protein Stability, Chemistry, Biochemistry, Genetics and Molecular Biology(all), Endoplasmic reticulum, C-terminus, 030302 biochemistry & molecular biology, Viral Load, redox-active cysteine, Cell biology, 3. Good health, Folding (chemistry), N-terminus, gp120, endoplasmic reticulum, HEK293 Cells, Secretory protein, Intramolecular force, Biophysics, HIV-1, Protein folding, disulfide bond, Protein Processing, Post-Translational, HeLa Cells, Genetics and Molecular Biology(all)

Abstract

SummaryRemoval of the membrane-tethering signal peptides that target secretory proteins to the endoplasmic reticulum is a prerequisite for proper folding. While generally thought to be removed well before translation termination, we here report two novel post-targeting functions for the HIV-1 gp120 signal peptide, which remains attached until gp120 folding triggers its removal. First, the signal peptide improves fidelity of folding by enhancing conformational plasticity of gp120 by driving disulfide isomerization through a redox-active cysteine, at the same time delaying folding by tethering the N-terminus to the membrane, which needs assembly with the C-terminus. Second, its carefully timed cleavage represents intramolecular quality control and ensures release and stabilization of (only) natively folded gp120. Postponed cleavage and the redox-active cysteine both are highly conserved and important for viral fitness. Considering the ∼15% secretory proteins in our genome and the frequency of N-to-C contacts in protein structures, these regulatory roles of the signal peptide are bound to be more common in secretory-protein biosynthesis.

Published

2021

6. Combinations of Single Chain Variable Fragments From HIV Broadly Neutralizing Antibodies Demonstrate High Potency and Breadth

Author

Rebecca T van Dorsten, Kshitij Wagh, Lynn Morris, and Penny L. Moore

Subjects

Immunology, HIV prevention, Human immunodeficiency virus (HIV), chemical and pharmacologic phenomena, HIV Infections, Single chain, HIV Antibodies, medicine.disease_cause, Neutralization, HIV Envelope Protein gp160, Neutralization Tests, medicine, Immunology and Allergy, Potency, Humans, combinations of scFv, IC50, Original Research, biology, Chemistry, broadly neutralizing antibodies, Immunization, Passive, HIV, RC581-607, respiratory system, Virology, Independent action, Titer, HEK293 Cells, biology.protein, HIV-1, Antibody, Immunologic diseases. Allergy, Genetic Engineering, Single-Chain Antibodies, single chain variable fragments

Abstract

Broadly neutralizing antibodies (bNAbs) are currently being assessed in clinical trials for their ability to prevent HIV infection. Single chain variable fragments (scFv) of bNAbs have advantages over full antibodies as their smaller size permits improved diffusion into mucosal tissues and facilitates vector-driven gene expression. We have previously shown that scFv of bNAbs individually retain significant breadth and potency. Here we tested combinations of five scFv derived from bNAbs CAP256-VRC26.25 (V2-apex), PGT121 (N332-supersite), 3BNC117 (CD4bs), 8ANC195 (gp120-gp41 interface) and 10E8v4 (MPER). Either two or three scFv were combined in equimolar amounts and tested in the TZM-bl neutralization assay against a multiclade panel of 17 viruses. Experimental IC50 and IC80 data were compared to predicted neutralization titers based on single scFv titers using the Loewe additive and the Bliss-Hill model. Like full-sized antibodies, combinations of scFv showed significantly improved potency and breadth compared to single scFv. Combinations of two or three scFv generally followed an independent action model for breadth and potency with no significant synergy or antagonism observed overall although some exceptions were noted. The Loewe model underestimated potency for some dual and triple combinations while the Bliss-Hill model was better at predicting IC80 titers of triple combinations. Given this, we used the Bliss-Hill model to predict the coverage of scFv against a 45-virus panel at concentrations that correlated with protection in the AMP trials. Using IC80 titers and concentrations of 1μg/mL, there was 93% coverage for one dual scFv combination (3BNC117+10E8v4), and 96% coverage for two of the triple combinations (CAP256.25+3BNC117+10E8v4 and PGT121+3BNC117+10E8v4). Combinations of scFv, therefore, show significantly improved breadth and potency over individual scFv and given their size advantage, have potential for use in passive immunization.

Published

2021

7. Molecular Mechanism of HIV-1 Entry

Author

Bing Chen

Subjects

Models, Molecular, Microbiology (medical), Receptors, CXCR4, Receptors, CCR5, Chemokine receptor CCR5, viruses, Cell, HIV Infections, Gp41, Membrane Fusion, Microbiology, Article, HIV Envelope Protein gp160, 03 medical and health sciences, Viral entry, Virology, medicine, Protein Interaction Domains and Motifs, Receptor, 030304 developmental biology, chemistry.chemical_classification, Life Cycle Stages, 0303 health sciences, biology, 030306 microbiology, virus diseases, Lipid bilayer fusion, Virus Internalization, Cell biology, Infectious Diseases, medicine.anatomical_structure, Structural biology, chemistry, CD4 Antigens, HIV-1, biology.protein, Glycoprotein

Abstract

HIV-1 envelope glycoprotein [Env; trimeric (gp160)(3) cleaved to (gp120/gp41)(3)] attaches the virion to a susceptible cell and induces fusion of viral and cell membranes to initiate infection. It interacts with the primary receptor CD4 and coreceptor (e.g., chemokine receptor CCR5 or CXCR4) to allow viral entry by triggering large structural rearrangements and unleashing the fusogenic potential of gp41 to induce membrane fusion. Recent advances in structural biology of HIV-1 Env and its complexes with the cellular receptors have revealed molecular details of HIV-1 entry and yielded new mechanistic insights. In this review, I summarize our latest understanding of the HIV-1 membrane fusion process and discuss possible pathways for productive viral entry.

Published

2019

8. Anti-idiotypic antibodies elicit anti-HIV-1–specific B cell responses

Author

Harald Hartweger, Joy A. Pai, Michel C. Nussenzweig, Gray, Andrew T. McGuire, Marie Pancera, Justin J. Taylor, Pia Dosenovic, Connor Weidle, Ervin E. Kara, Junli Feng, K.R. Parks, Leonidas Stamatatos, K. Bhullar, Abigail Wall, Eddy S. Thientosapol, and Anna-Klara Pettersson

Subjects

0301 basic medicine, Immunology, HIV Infections, Mice, Transgenic, Complementarity determining region, HIV Antibodies, Immunoglobulin light chain, Article, HIV Envelope Protein gp160, Serology, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, Antigen, medicine, Animals, Humans, Immunology and Allergy, Research Articles, B cell, B-Lymphocytes, biology, Antibodies, Neutralizing, Virology, Antibodies, Anti-Idiotypic, 3. Good health, 030104 developmental biology, medicine.anatomical_structure, Polyclonal antibodies, HIV-1, biology.protein, Antibody, 030217 neurology & neurosurgery

Abstract

We developed an anti-idiotypic antibody that specifically engages target B cells while mitigating off-target responses. This approach can be used as a vaccine strategy for variable pathogens where specific precursor B cells have been identified to correlate with protection., Human anti-HIV-1 broadly neutralizing antibodies (bNAbs) protect against infection in animal models. However, bNAbs have not been elicited by vaccination in diverse wild-type animals or humans, in part because B cells expressing the precursors of these antibodies do not recognize most HIV-1 envelopes (Envs). Immunogens have been designed that activate these B cell precursors in vivo, but they also activate competing off-target responses. Here we report on a complementary approach to expand specific B cells using an anti-idiotypic antibody, iv8, that selects for naive human B cells expressing immunoglobulin light chains with 5–amino acid complementarity determining region 3s, a key feature of anti-CD4 binding site (CD4bs)–specific VRC01-class antibodies. In mice, iv8 induced target cells to expand and mature in the context of a polyclonal immune system and produced serologic responses targeting the CD4bs on Env. In summary, the results demonstrate that an anti-idiotypic antibody can specifically recognize and expand rare B cells that express VRC01-class antibodies against HIV-1., Graphical Abstract

Published

2019

9. A Multiplex HIV Incidence Assay for Inferring Recent HIV-1 Transmission and Time of Infection

Author

Philip J. Peters, Jessica Gentry, Debra L. Hanson, Kelly A. Curtis, Sara J. Blosser, Joan Duwve, Ellsworth M. Campbell, Donna L. Rudolph, Sherry M. Owen, William M. Switzer, and Judith Lovchik

Subjects

Indiana, medicine.medical_specialty, HIV Antigens, MEDLINE, HIV Infections, HIV Antibodies, HIV Envelope Protein gp120, 030312 virology, Sensitivity and Specificity, HIV Envelope Protein gp160, 03 medical and health sciences, Internal medicine, HIV Seropositivity, Humans, Medicine, Pharmacology (medical), Multiplex, Seroconversion, 0303 health sciences, business.industry, Public health, Incidence (epidemiology), Hiv incidence, HIV Envelope Protein gp41, Infectious Diseases, Hiv 1 transmission, HIV-1, business, Algorithms

Abstract

Laboratory assays for determining recent HIV-1 infection are an important public health tool for aiding in the estimation of HIV incidence. Some incidence assay analytes are remarkably predictive of time since seroconversion and may be useful for additional applications, such as predicting recent transmission events during HIV outbreaks and informing prevention strategies.Plasma samples (n = 154) from a recent HIV-1 outbreak in a rural community in Indiana were tested with the customized HIV-1 Multiplex assay, based on the Bio-Rad Bio-Plex platform, which measures antibody response to HIV envelope antigens, gp120, gp160, and gp41. Assay cutoffs for each analyte were established to determine whether an individual seroconverted within 30, 60, or 90 days of the sample collection date. In addition, a novel bioinformatics method was implemented to infer infection dates of persons newly diagnosed with HIV during the outbreak.Sensitivity/specificity of the HIV-1 Multiplex assay for predicting seroconversion within 30, 60, and 90 days, based on a training data set, was 90.5%/95.4%, 94.1%/90%, and 89.4%/82.9%, respectively. Of 154 new diagnoses in Indiana between December 2014 and August 2016, the majority (71%) of recent infections (≤3 months since seroconversion) were identified between February and May 2016. The epidemiologic curve derived from the bioinformatics analysis indicated HIV transmission began as early as 2010, grew exponentially in 2014, and leveled off in April 2015.The HIV-1 Multiplex assay has the potential to identify and monitor trends in recent infection during an epidemic to assess the efficacy of programmatic or treatment interventions.

Published

2019

10. Mapping of Neutralizing Antibody Epitopes on the Envelope of Viruses Obtained from Plasma Samples Exhibiting Broad Cross-Clade Neutralization Potential Against HIV-1

Author

Manohar Nesakumar, D. Vadakkupattu Ramanathan, S. Kalyanaraman Vaniambadi, Babu Hemalatha, Jagadish Chandrabose Sundaramurthi, Manickam Ashokkumar, Brahmaiah Anangi, Luke Elizabeth Hanna, Srikanth Tripathy, Soumya Swaminathan, K. K. Vidya Vijayan, and Narayanaiah Cheedarla

Subjects

Adult, Male, 0301 basic medicine, Glycan, In silico, Immunology, HIV Infections, HIV Antibodies, Epitope, Neutralization, HIV Envelope Protein gp160, Epitopes, 03 medical and health sciences, 0302 clinical medicine, Viral envelope, Virology, Humans, 030212 general & internal medicine, Binding site, Neutralizing antibody, Vaccines, biology, Sequence Analysis, DNA, Middle Aged, Antibodies, Neutralizing, 030104 developmental biology, Infectious Diseases, HIV-1, biology.protein, Female, Antibody, Epitope Mapping

Abstract

Several broadly neutralizing antibodies (bNAbs) that can target HIV strains with large degrees of variability have recently been identified. However, efforts to induce synthesis of such bNAbs that can protect against HIV infection have not met with much success. Identification of specific epitopes encoded in the HIV-1 envelope (Env) that can direct the host to synthesize bNAbs remains a challenge. In a previous study, we identified 12 antiretroviral therapy-naive HIV-1-infected individuals whose plasma exhibited broad cross-clade neutralization property against different clades of HIV-1. In this study, we sequenced the full-length HIV-1 gp160 from 11 of these individuals and analyzed the sequences to identify bNAb epitopes. We identified critical residues in the viral envelopes that contribute to the formation of conformational epitopes and possibly induce the production of bNAbs, using in silico methods. We found that many of the sequences had conserved glycans at positions N160 (10/11) and N332 (9/11), which are known to be critical for the binding of PG9/PG16-like and PGT128-like bNAbs, respectively. We also observed conservation of critical glycans at positions N234 and N276 critical for the interaction with CD4 binding site bNAbs in 8/11 and 11/11 sequences, respectively. We modeled the three-dimensional structure of the 11 HIV-1 envelopes and found that though each had structural differences, the critical residues were mostly present on the surface of the Env structures. The identified critical residues are proposed as candidates for further evaluation as bNAb epitopes.

Published

2019

11. Design of immunogens to elicit broadly neutralizing antibodies against HIV targeting the CD4 binding site

Author

Martin Karplus, Kevin J. Kaczorowski, Dennis R. Burton, Arup K. Chakraborty, Katelyn Porter, Simone Conti, Raiees Andrabi, and Ge Song

Subjects

CD4-Positive T-Lymphocytes, Models, Molecular, Protein Conformation, alpha-Helical, Human immunodeficiency virus (HIV), HIV Infections, HIV Antibodies, HIV Envelope Protein gp120, Crystallography, X-Ray, Protein Engineering, medicine.disease_cause, Virus, HIV Envelope Protein gp160, Affinity maturation, Epitopes, Antigen, Acquired immunodeficiency syndrome (AIDS), medicine, Humans, Protein Interaction Domains and Motifs, Amino Acid Sequence, Binding site, Antigens, Viral, AIDS Vaccines, Binding Sites, Multidisciplinary, biology, medicine.disease, Virology, HIV Envelope Protein gp41, Immunization, Mutation, Physical Sciences, HIV-1, biology.protein, Protein Conformation, beta-Strand, Antibody, Broadly Neutralizing Antibodies, Protein Binding

Abstract

A vaccine which is effective against the HIV virus is considered to be the best solution to the ongoing global HIV/AIDS epidemic. In the past thirty years, numerous attempts to develop an effective vaccine have been made with little or no success, due, in large part, to the high mutability of the virus. More recent studies showed that a vaccine able to elicit broadly neutralizing antibodies (bnAbs), that is, antibodies that can neutralize a high fraction of global virus variants, has promise to protect against HIV. Such a vaccine has been proposed to involve at least three separate stages: First, activate the appropriate precursor B cells; second, shepherd affinity maturation along pathways toward bnAbs; and, third, polish the Ab response to bind with high affinity to diverse HIV envelopes (Env). This final stage may require immunization with a mixture of Envs. In this paper, we set up a framework based on theory and modeling to design optimal panels of antigens to use in such a mixture. The designed antigens are characterized experimentally and are shown to be stable and to be recognized by known HIV antibodies.

Published

2021

12. Domain-Scan: Combinatorial Sero-Diagnosis of Infectious Diseases Using Machine Learning

Author

Oren Avram, Dmitry Shcherbakov, Yaakov Maor, Tal Pupko, Ella H. Sklan, Haim Ashkenazy, Naama Wagner, Yael Weiss-Ottolenghi, Jonathan M. Gershoni, and Smadar Hada-Neeman

Subjects

lcsh:Immunologic diseases. Allergy, 0301 basic medicine, Phage display, Sample (material), Immunology, DNA barcodes, Genetic Vectors, DNA, Recombinant, HIV Core Protein p24, Oligonucleotides, HIV Infections, Computational biology, Biology, HIV Antibodies, Communicable Diseases, Polymerase Chain Reaction, DNA sequencing, Epitope, Virus, HIV Envelope Protein gp160, Antigen-Antibody Reactions, Machine Learning, 03 medical and health sciences, Epitopes, 0302 clinical medicine, Peptide Library, Immunology and Allergy, DNA Barcoding, Taxonomic, Humans, Serologic Tests, Amino Acid Sequence, Pathogen, Original Research, Base Sequence, AIDS Serodiagnosis, High-Throughput Nucleotide Sequencing, Hepatitis C Antibodies, sero-diagnostics, Hepatitis C, Peptide Fragments, 030104 developmental biology, Feature (computer vision), biology.protein, next-generation sequencing, phage-display, Antibody, Hepatitis C Antigens, lcsh:RC581-607, 030217 neurology & neurosurgery

Abstract

The presence of pathogen-specific antibodies in an individual’s blood-sample is used as an indication of previous exposure and infection to that specific pathogen (e.g., virus or bacterium). Measurement of the diagnostic antibodies is routinely achieved using solid phase immuno-assays such as ELISA tests and western blots. Here, we describe a sero-diagnostic approach based on phage-display of epitope arrays we term “Domain-Scan”. We harness Next-generation sequencing (NGS) to measure the serum binding to dozens of epitopes derived from HIV-1 and HCV simultaneously. The distinction of healthy individuals from those infected with either HIV-1 or HCV, is modeled as a machine-learning classification problem, in which each determinant (“domain”) is considered as a feature, and its NGS read-out provides values that correspond to the level of determinant-specific antibodies in the sample. We show that following training of a machine-learning model on labeled examples, we can very accurately classify unlabeled samples and pinpoint the domains that contribute most to the classification. Our experimental/computational Domain-Scan approach is general and can be adapted to other pathogens as long as sufficient training samples are provided.

Published

2021

13. Dendronized Gold Nanoparticles as Carriers for gp160 (HIV-1) Peptides: Biophysical Insight into Complex Formation

Author

Maria Bryszewska, Francisco Javier de la Mata, Maksim Ionov, Sopio Melikishvili, Tibor Hianik, Elzbieta Pedziwiatr-Werbicka, Iveta Waczulíková, Rafael Gomez-Ramirez, Zuzana Garaiova, and Sylwia Michlewska

Subjects

Circular dichroism, Nanoparticle, Metal Nanoparticles, Peptide, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, HIV Envelope Protein gp160, Dynamic light scattering, Microscopy, Electron, Transmission, Electrochemistry, Humans, General Materials Science, Spectroscopy, chemistry.chemical_classification, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Fluorescence, 0104 chemical sciences, chemistry, Colloidal gold, Agarose gel electrophoresis, Biophysics, HIV-1, Gold, 0210 nano-technology, Peptides, Fluorescence anisotropy

Abstract

The unavailability of effective and safe human immunodeficiency virus (HIV) vaccines incites several approaches for development of the efficient antigen/adjuvant vaccination composite. In this study, three different dendronized gold nanoparticles (AuNPs 13-15) were investigated for a complexation ability with gp160 synthetic peptides derived from an HIV envelope. It has been shown that HIV peptides interacted with nanoparticles as evident from the changes in their secondary structures, restricted the mobility of the attached fluorescence dye, and enhanced peptide helicity confirmed by the fluorescence polarization and circular dichroism results. Transmission electron microscopy visualized complexes as cloud-like structures with attached nanoparticles. AuNP 13-15 nanoparticles bind negatively charged peptides depending on the number of functional groups; the fastest saturation and peptide retardation were observed for the most dendronized nanoparticle as indicated from dynamic light scattering, laser Doppler velocimetry, and agarose gel electrophoresis experiments. Dendronized gold nanoparticles can be considered one of the potential HIV peptide-based vaccination platforms.

Published

2021

14. Investigating host-virus interaction mechanism and phylogenetic analysis of viral proteins involved in the pathogenesis

Author

Ahmad Abu Turab Naqvi, Farah Anjum, Alaa Shafie, Sufian Badar, Abdelbaset Mohamed Elasbali, Dharmendra Kumar Yadav, and Md. Imtaiyaz Hassan

Subjects

RNA viruses, Computer and Information Sciences, Coronaviruses, Alphaviruses, viruses, Science, Pathogenesis, Pathology and Laboratory Medicine, Microbiology, HIV Envelope Protein gp160, Togaviruses, Viral Proteins, Virology, Medicine and Health Sciences, Influenza viruses, Humans, Evolutionary Systematics, Microbial Pathogens, Phylogeny, Taxonomy, Data Management, Evolutionary Biology, Multidisciplinary, Chikungunya Virus, Flaviviruses, Host Cells, Organisms, Biology and Life Sciences, Phylogenetic Analysis, Dengue Virus, Phylogenetics, Medical Microbiology, Influenza A virus, Virus Diseases, Viral Pathogens, Host-Pathogen Interactions, Viruses, Medicine, Pathogens, Viral Transmission and Infection, Research Article, Orthomyxoviruses

Abstract

Since the emergence of yellow fever in the Americas and the devastating 1918 influenza pandemic, biologists and clinicians have been drawn to human infecting viruses to understand their mechanisms of infection better and develop effective therapeutics against them. However, the complex molecular and cellular processes that these viruses use to infect and multiply in human cells have been a source of great concern for the scientific community since the discovery of the first human infecting virus. Viral disease outbreaks, such as the recent COVID-19 pandemic caused by a novel coronavirus, have claimed millions of lives and caused significant economic damage worldwide. In this study, we investigated the mechanisms of host-virus interaction and the molecular machinery involved in the pathogenesis of some common human viruses. We also performed a phylogenetic analysis of viral proteins involved in host-virus interaction to understand the changes in the sequence organization of these proteins during evolution for various strains of viruses to gain insights into the viral origin’s evolutionary perspectives.

Published

2021

15. Probing the Structure of the HIV-1 Envelope Trimer Using Aspartate Scanning Mutagenesis

Author

Rohini Datta, Raghavan Varadarajan, and Raksha Das

Subjects

viruses, Immunology, Mutant, Genetic Vectors, Gene Expression, Context (language use), Trimer, Biology, HIV Envelope Protein gp120, Gp41, Microbiology, HIV Envelope Protein gp160, 03 medical and health sciences, Viral entry, Virology, Vaccines and Antiviral Agents, Humans, Cloning, Molecular, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Aspartic Acid, Protein Stability, 030302 biochemistry & molecular biology, Mutagenesis, virus diseases, HIV Envelope Protein gp41, Recombinant Proteins, Intrinsically Disordered Proteins, HEK293 Cells, Ectodomain, chemistry, Amino Acid Substitution, Insect Science, CD4 Antigens, Proteolysis, Biophysics, HIV-1, Protein Multimerization, Glycoprotein

Abstract

HIV-1 envelope (Env) glycoprotein gp160 exists as a trimer of heterodimers on the viral surface. In most structures of the soluble ectodomain of trimeric HIV-1 envelope glycoprotein, the regions from 512 to 517 of the fusion peptide and from 547 to 568 of the N-heptad repeat are disordered. We used aspartate scanning mutagenesis of subtype B strain JRFL Env as an alternate method to probe residue burial in the context of cleaved, cell surface-expressed Env, as buried residues should be intolerant to substitution with Asp. The data are inconsistent with a fully disordered 547 to 568 stretch, as residues 548, 549, 550, 555, 556, 559, 562, and 566 to 569 are all sensitive to Asp substitution. In the fusion peptide region, residues 513 and 515 were also sensitive to Asp substitution, suggesting that the fusion peptide may not be fully exposed in native Env. gp41 is metastable in the context of native trimer. Introduction of Asp at residues that are exposed in the prefusion state but buried in the postfusion state is expected to destabilize the postfusion state and any intermediate states where the residue is buried. We therefore performed soluble CD4 (sCD4)-induced gp120 shedding experiments to identify Asp mutants at residues 551, 554 to 559, 561 to 567, and 569 that could prevent gp120 shedding. We also observed similar mutational effects on shedding for equivalent mutants in the context of clade C Env from isolate 4-2J.41. These substitutions can potentially be used to stabilize native-like trimer derivatives that are used as HIV-1 vaccine immunogens. IMPORTANCE In most crystal structures of the soluble ectodomain of the HIV-1 Env trimer, some residues in the fusion and N-heptad repeat regions are disordered. Whether this is true in the context of native, functional Env on the virion surface is not known. This knowledge may be useful for stabilizing Env in its prefusion conformation and will also help to improve understanding of the viral entry process. Burial of the charged residue Asp in a protein structure is highly destabilizing. We therefore used Asp scanning mutagenesis to probe the burial of apparently disordered residues in native Env and to examine the effect of mutations in these regions on Env stability and conformation as probed by antibody binding to cell surface-expressed Env, CD4-induced shedding of HIV-1 gp120, and viral infectivity studies. Mutations that prevent shedding can potentially be used to stabilize native-like Env constructs for use as vaccine immunogens.

Published

2020

16. Anti-HIV-1 antibodies based confirmatory results in Wuhan, China, 2012-2018

Author

Li Tang, Wang Zhou, Pan Liu, Xia Wang, Peng Xiao, Ze-Rong Zhu, Wen-Hua Kong, and Man-Qing Liu

Subjects

0301 basic medicine, Male, RNA viruses, Time Factors, Physiology, HIV Antibodies, HIV Envelope Protein gp120, Pathology and Laboratory Medicine, Gastroenterology, Biochemistry, Serology, HIV Envelope Protein gp160, 0302 clinical medicine, Immunodeficiency Viruses, Immune Physiology, HIV Seropositivity, Medicine and Health Sciences, 030212 general & internal medicine, Enzyme-Linked Immunoassays, Child, Virus Testing, education.field_of_study, Multidisciplinary, Immune System Proteins, Plasma samples, biology, medicine.diagnostic_test, virus diseases, HIV screening, HIV diagnosis and management, Middle Aged, Specific antibody, Bioassays and Physiological Analysis, Medical Microbiology, Viral Pathogens, Viruses, Medicine, Infectious diseases, Female, Antibody, Pathogens, Research Article, HIV infections, Anti hiv 1, Adult, Medical conditions, medicine.medical_specialty, China, Adolescent, Science, Population, Immunology, Enzyme-Linked Immunosorbent Assay, Viral diseases, Research and Analysis Methods, Microbiology, Antibodies, 03 medical and health sciences, Young Adult, Western blot, Diagnostic Medicine, Internal medicine, Retroviruses, medicine, Humans, Serologic Tests, education, Immunoassays, Microbial Pathogens, Retrospective Studies, Enzyme Assays, Biology and life sciences, business.industry, Lentivirus, Organisms, HIV, Proteins, 030104 developmental biology, biology.protein, HIV-1, Immunologic Techniques, business, Biochemical Analysis

Abstract

The number, intensity and order of emergence of HIV-1 specific antibodies in serum or plasma were associated with the stage of HIV-1 infection. In this study, we retrospectively analyzed the HIV-1 confirmatory results tested by western blot (WB) or recombination immunoblot assay (RIBA) in Wuhan, 2012-2018, to access the profiles of HIV-1 specific antibodies. A total of 14432 HIV-suspected serum or plasma samples collected from local hospitals and other HIV screening laboratories were further screened by two 4th generation enzyme-linked immunosorbent assay (ELISA) kits in our laboratory, of which 11068 specimens (76.69%) had at least one positive ELISA result and thereby were finally confirmed with WB or RIBA. RIBA had identified 652 (81.09%) positive and 13 (1.62%) indeterminate cases from July 1, 2014 to January 7, 2015, while WB had identified 8358 (81.43%) positive and 643 (6.26%) indeterminate cases in the other times during 2012-2018. The indeterminate rate of WB was significant higher than that of RIBA (p

Published

2020

17. Rapid Induction of Multifunctional Antibodies in Rabbits and Macaques by Clade C HIV-1 CAP257 Envelopes Circulating During Epitope-Specific Neutralization Breadth Development

Author

Delphine C. Malherbe, Constantinos Kurt Wibmer, Molati Nonyane, Jason Reed, D. Noah Sather, David A. Spencer, Jason T. Schuman, Biwei Guo, Shilpi Pandey, Harlan Robins, Byung Park, Deborah H. Fuller, Jonah B. Sacha, Penny L. Moore, Ann J. Hessell, and Nancy L. Haigwood

Subjects

lcsh:Immunologic diseases. Allergy, Male, 0301 basic medicine, Antigenicity, Time Factors, HIV vaccine, medicine.drug_class, Immunology, rabbit, HIV Infections, NHP, HIV Antibodies, Biology, Monoclonal antibody, Epitope, Neutralization, HIV Envelope Protein gp160, Epitopes, 03 medical and health sciences, Immunogenicity, Vaccine, 0302 clinical medicine, Vaccines, DNA, medicine, Animals, Immunology and Allergy, neutralizing antibodies, Avidity, Neutralizing antibody, Original Research, AIDS Vaccines, TFH responses, Immunogenicity, env Gene Products, Human Immunodeficiency Virus, envelope immunogen, co-immunization, Macaca mulatta, Virology, Immunity, Humoral, 030104 developmental biology, HIV-1, biology.protein, Female, Immunization, Rabbits, lcsh:RC581-607, ADCC, Broadly Neutralizing Antibodies, 030215 immunology

Abstract

We report here on HIV-1 immunization results in rabbits and macaques co-immunized with clade C gp160 DNA and gp140 trimeric envelope vaccines, a strategy similar to a recent clinical trial that showed improved speed and magnitude of humoral responses. Clade C envelopes were isolated from CAP257, an individual who developed a unique temporal pattern of neutralization breadth development, comprising three separate “Waves” targeting distinct Env epitopes and different HIV clades. We used phylogeny and neutralization criteria to down-select envelope vaccine candidates, and confirmed antigenicity of our antigens by interaction with well-characterized broadly neutralizing monoclonal antibodies. Using these envelopes, we performed rabbit studies that screened for immunogenicity of CAP257 Envs from timepoints preceding peak neutralization breadth in each Wave. Selected CAP257 envelopes from Waves 1 and 2, during the first 2 years of infection that were highly immunogenic in rabbits were then tested in macaques. We found that in rabbits and macaques, co-immunization of DNA, and protein envelope-based vaccines induced maximum binding and neutralizing antibody titers with three immunizations. No further benefit was obtained with additional immunizations. The vaccine strategies recapitulated the Wave-specific epitope targeting observed in the CAP257 participant, and elicited Tier 1A, 1B, and Tier 2 heterologous neutralization. CAP257 envelope immunogens also induced the development of ADCC and TFH responses in macaques, and these responses positively correlated with heterologous neutralization. Together, the results from two animal models in this study have implications for identifying effective vaccine immunogens. We used a multi-step strategy to (1) select an Env donor with well-characterized neutralization breadth development; (2) study Env phylogeny for potential immunogens circulating near peak breadth timepoints during the first 2 years of infection; (3) test down-selected Envs for antigenicity; (4) screen down-selected Envs in an effective vaccine regimen in rabbits; and (5) advance the most immunogenic Envs to NHP studies. The results were an induction of high titers of HIV-1 envelope-specific antibodies with increasing avidity and cross-clade neutralizing antibodies with effector functions that together may improve the potential for protection in a pre-clinical SHIV model.

Published

2020

18. Retraction for Khattar et al., 'Newcastle Disease Virus Expressing Human Immunodeficiency Virus Type 1 Envelope Glycoprotein Induces Strong Mucosal and Serum Antibody Responses in Guinea Pigs'

Author

Peter L. Collins, Sunil K. Khattar, Siba K. Samal, Sweety Samal, and Anthony L. DeVico

Subjects

Genetic Vectors, Guinea Pigs, Immunology, Immunization, Secondary, Newcastle disease virus, Human immunodeficiency virus (HIV), HIV Antibodies, Biology, medicine.disease_cause, Microbiology, Newcastle disease, Serum antibody, Virus, HIV Envelope Protein gp160, Virology, medicine, Animals, Immunity, Mucosal, Envelope (waves), AIDS Vaccines, chemistry.chemical_classification, Drug Carriers, Vaccination, biology.organism_classification, Retraction, chemistry, Insect Science, HIV-1, Female, Glycoprotein

Abstract

Human immunodeficiency virus type 1 (HIV-1) is transmitted mainly through mucosal sites. Optimum strategies to elicit both systemic and mucosal immunity are critical for the development of vaccines against HIV-1. We therefore sought to evaluate the induction of systemic and mucosal immune responses by the use of Newcastle disease virus (NDV) as a vaccine vector. We generated a recombinant NDV, designated rLaSota/gp160, expressing the gp160 envelope (Env) protein of HIV-1 from an added gene. The gp160 protein expressed by rLaSota/gp160 virus was detected on an infected cell surface and was incorporated into the NDV virion. Biochemical studies showed that gp160 present in infected cells and in the virion formed a higher-order oligomer that retained recognition by conformationally sensitive monoclonal antibodies. Expression of gp160 did not increase the virulence of recombinant NDV (rNDV) strain LaSota. Guinea pigs were administered rLaSota/gp160 via the intranasal (i.n.) or intramuscular (i.m.) route in different prime-boost combinations. Systemic and mucosal antibody responses specific to the HIV-1 envelope protein were assessed in serum and vaginal washes, respectively. Two or three immunizations via the i.n. or i.m. route induced a more potent systemic and mucosal immune response than a single immunization by either route. Priming by the i.n. route was more immunogenic than by the i.m. route, and the same was true for the boosts. Furthermore, immunization with rLaSota/gp160 by any route or combination of routes induced a Th1-type response, as reflected by the induction of stronger antigen-specific IgG2a than IgG1 antibody responses. Additionally, i.n. immunization elicited a stronger neutralizing serum antibody response to laboratory-adapted HIV-1 strain MN.3. These data illustrate that it is feasible to use NDV as a vaccine vector to elicit potent humoral and mucosal responses to the HIV-1 envelope protein.

Published

2020

19. Neutralization Breadth and Potency of Single-Chain Variable Fragments Derived from Broadly Neutralizing Antibodies Targeting Multiple Epitopes on the HIV-1 Envelope

Author

Bronwen E. Lambson, Rebecca T van Dorsten, Constantinos Kurt Wibmer, Marc S. Weinberg, Lynn Morris, and Penny L. Moore

Subjects

medicine.drug_class, medicine.medical_treatment, Immunology, chemical and pharmacologic phenomena, Passive immunity, HIV Antibodies, Monoclonal antibody, Immunoglobulin light chain, Microbiology, Neutralization, Epitope, HIV Envelope Protein gp160, 03 medical and health sciences, 0302 clinical medicine, Antibody Specificity, Virology, Vaccines and Antiviral Agents, medicine, Humans, Potency, 030304 developmental biology, 0303 health sciences, biology, respiratory system, Antibodies, Neutralizing, Epitope mapping, 030220 oncology & carcinogenesis, Insect Science, HIV-1, biology.protein, Antibody, Single-Chain Antibodies

Abstract

Passive administration of HIV-directed broadly neutralizing antibodies (bNAbs) can prevent infection in animal models, and human efficacy trials are under way. Single-chain variable fragments (scFv), comprised of only the variable regions of antibody heavy and light chains, are smaller molecules that may offer advantages over full-length IgG. We designed and expressed scFv of HIV bNAbs prioritized for clinical testing that target the V2-apex (CAP256-VRC26.25), V3-glycan supersite (PGT121), CD4 binding site (3BNC117), and MPER (10E8v4). The use of either a 15- or 18-amino-acid glycine-serine linker between the heavy- and light-chain fragments provided adequate levels of scFv expression. When tested against a 45-multisubtype virus panel, all four scFv retained good neutralizing activity, although there was variable loss of function compared to the parental IgG antibodies. For CAP256-VRC26.25, there was a significant 138-fold loss of potency that was in part related to differential interaction with charged amino acids at positions 169 and 170 in the V2 epitope. Potency was reduced for the 3BNC117 (13-fold) and PGT121 (4-fold) scFv among viruses lacking the N276 and N332 glycans, respectively, and in viruses with a longer V1 loop for PGT121. This suggested that scFv interacted with their epitopes in subtly different ways, with variation at key residues affecting scFv neutralization more than the matched IgGs. Remarkably, the scFv of 10E8v4 maintained breadth of 100% with only a minor reduction in potency. Overall, scFv of clinically relevant bNAbs had significant neutralizing activity, indicating that they are suitable for passive immunization to prevent HIV-1 infection. IMPORTANCE Monoclonal antibodies have been isolated against conserved epitopes on the HIV trimer and are being investigated for passive immunization. Some of the challenges associated with full-sized antibody proteins may be overcome by using single-chain variable fragments (scFv). These smaller forms of antibodies can be produced more efficiently, may show fewer off-target effects with increased tissue penetration, and are more adaptable to vectored-mediated expression than IgG. Here, we demonstrate that scFv of four HIV-directed bNAbs (CAP256-VRC26.25, PGT121, 3BNC117, and 10E8v4) had significant neutralizing activity against diverse global strains of HIV. Loss of potency and/or breadth was shown to be due to increased dependence of the scFv on key residues within the epitope. These smaller antibody molecules with functional activity in the therapeutic range may be suitable for further development as passive immunity for HIV prevention.

Published

2020

20. Mutational networks of escape from transmitted HIV-1 infection

Author

Elma H. Akand, Stephen J. Maher, and John M. Murray

Subjects

RNA viruses, Glycosylation, Glycobiology, Human immunodeficiency virus (HIV), Network structure, HIV Infections, Pathology and Laboratory Medicine, medicine.disease_cause, Biochemistry, HIV Envelope Protein gp160, Database and Informatics Methods, Immunodeficiency Viruses, Medicine and Health Sciences, Post-Translational Modification, Genetics, Multidisciplinary, Transmission (medicine), Microbial Mutation, env Gene Products, Human Immunodeficiency Virus, Medical Microbiology, Viral Pathogens, Viral evolution, Viruses, Medicine, Pathogens, Sequence Analysis, Coreceptors, Research Article, Signal Transduction, Protein Binding, Multiple Alignment Calculation, Bioinformatics, Science, Sequence alignment, Biology, Research and Analysis Methods, Microbiology, Viral Evolution, Virus, Immune system, Virology, Retroviruses, Computational Techniques, medicine, Humans, Microbial Pathogens, Immune Evasion, Evolutionary Biology, Chronic stage, Lentivirus, Organisms, Immunity, Biology and Life Sciences, HIV, Proteins, Computational Biology, CD coreceptors, Cell Biology, Split-Decomposition Method, Organismal Evolution, Microbial Evolution, Mutation, HIV-1, Sequence Alignment

Abstract

Human immunodeficiency virus (HIV) is subject to immune selective pressure soon after it establishes infection at the founder stage. As an individual progresses from the founder to chronic stage of infection, immune pressure forces a history of mutations that are embedded in envelope sequences. Determining this pathway of coevolving mutations can assist in understanding what is different with the founder virus and the essential pathways it takes to maintain infection. We have combined operations research and bioinformatics methods to extract key networks of mutations that differentiate founder and chronic stages for 156 subtype B and 107 subtype C envelope (gp160) sequences. The chronic networks for both subtypes revealed strikingly different hub-and-spoke topologies compared to the less structured transmission networks. This suggests that the hub nodes are impacted by the immune response and the resulting loss of fitness is compensated by mutations at the spoke positions. The major hubs in the chronic C network occur at positions 12, 137 (within the N136 glycan), and 822, and at position 306 for subtype B. While both founder networks had a more heterogeneous connected network structure, interestingly founder B subnetworks around positions 640 and 837 preferentially contained CD4 and coreceptor binding domains. Finally, we observed a differential effect of glycosylation between founder and chronic subtype B where the latter had mutational pathways significantly driven by N-glycosylation. Our study provides insights into the mutational pathways HIV takes to evade the immune response, and presents features more likely to establish founder infection, valuable for effective vaccine design.

Published

2020

21. Combination therapy with anti-HIV-1 antibodies maintains viral suppression

Author

Theodora K. Karagounis, Christoph Wyen, Lilian Nogueira, Anthony P. West, Cecilia Unson-O’Brien, Gisela Kremer, Nico Pfeifer, Thiago Y. Oliveira, Yehuda Z. Cohen, Henning Gruell, Tim Kümmerle, Isabelle Suárez, Carola Ruping, Lisa Handl, Roshni Patel, Eleonore Thomas, Irina Shimeliovich, Roy M. Gulick, Maggi Witmer-Pack, Gerd Fätkenheuer, Ching-Lan Lu, Joy A. Pai, Michel C. Nussenzweig, Pilar Mendoza, Katrina G. Millard, Pamela J. Bjorkman, Michael S. Seaman, Clara Lehmann, Allison L. Butler, Julio C. C. Lorenzi, Georgia D. Tomaras, Kelly E. Seaton, Jill Horowitz, Maike Schlotz, Florian Klein, and Marina Caskey

Subjects

Male, 0301 basic medicine, medicine.medical_treatment, HIV Infections, Drug resistance, HIV Antibodies, HIV Envelope Protein gp160, 0302 clinical medicine, Medicine, 030212 general & internal medicine, Young adult, Infusions, Intravenous, Phylogeny, Multidisciplinary, biology, Antibodies, Monoclonal, Middle Aged, Virus Latency, 3. Good health, Drug Combinations, Carrier State, Monoclonal, Female, Antibody, Adult, Adolescent, Combination therapy, Anti-HIV Agents, medicine.drug_class, Antibodies, Monoclonal, Humanized, Monoclonal antibody, Article, Young Adult, 03 medical and health sciences, Drug Resistance, Viral, Humans, Viremia, Aged, business.industry, Historically Controlled Study, Immunotherapy, Antibodies, Neutralizing, Clinical trial, 030104 developmental biology, Immunology, HIV-1, biology.protein, Virus Activation, Binding Sites, Antibody, business, Broadly Neutralizing Antibodies

Abstract

Individuals infected with HIV-1 require lifelong antiretroviral therapy, because interruption of treatment leads to rapid rebound viraemia. Here we report on a phase 1b clinical trial in which a combination of 3BNC117 and 10-1074, two potent monoclonal anti-HIV-1 broadly neutralizing antibodies that target independent sites on the HIV-1 envelope spike, was administered during analytical treatment interruption. Participants received three infusions of 30 mg kg^(−1) of each antibody at 0, 3 and 6 weeks. Infusions of the two antibodies were generally well-tolerated. The nine enrolled individuals with antibody-sensitive latent viral reservoirs maintained suppression for between 15 and more than 30 weeks (median of 21 weeks), and none developed viruses that were resistant to both antibodies. We conclude that the combination of the anti-HIV-1 monoclonal antibodies 3BNC117 and 10-1074 can maintain long-term suppression in the absence of antiretroviral therapy in individuals with antibody-sensitive viral reservoirs.

Published

2018

22. HIV-1 latent reservoir size and diversity are stable following brief treatment interruption

Author

Pablo Tebas, Robert F. Siliciano, Mohamed Abdel-Mohsen, Jun Lai, E. Turner Overton, Kevin McCormick, James A. Hoxie, Randall Tressler, Scott Sherrill-Mix, Janet M. Siliciano, Jonathan Z. Li, D. Brenda Salantes, Richard A. Koup, Tuhina Srivastava, Yu Zheng, Felicity Mampe, Gerald H. Learn, Frederic D. Bushman, Subul A. Beg, and Katharine J. Bar

Subjects

Adult, CD4-Positive T-Lymphocytes, Male, 0301 basic medicine, Human immunodeficiency virus (HIV), HIV Infections, Viremia, HIV Antibodies, Biology, medicine.disease_cause, Genes, env, Drug Administration Schedule, Virus, HIV Envelope Protein gp160, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Proviruses, medicine, Humans, 030212 general & internal medicine, Phylogeny, Phylogenetic tree, Antibodies, Monoclonal, Genetic Variation, RNA, General Medicine, Middle Aged, Viral Load, medicine.disease, Virology, Virus Latency, Chronic infection, 030104 developmental biology, Anti-Retroviral Agents, chemistry, DNA, Viral, HIV-1, Brief treatment, Clinical Medicine, Broadly Neutralizing Antibodies, DNA

Abstract

BACKGROUND. The effect of a brief analytical treatment interruption (ATI) on the HIV-1 latent reservoir of individuals who initiate antiretroviral therapy (ART) during chronic infection is unknown. METHODS. We evaluated the impact of transient viremia on the latent reservoir in participants who underwent an ATI and at least 6 months of subsequent viral suppression in a clinical trial testing the effect of passive infusion of the broadly neutralizing Ab VRC01 during ATI. RESULTS. Measures of total HIV-1 DNA, cell-associated RNA, and infectious units per million cells (IUPM) (measured by quantitative viral outgrowth assay [QVOA]) were not statistically different before or after ATI. Phylogenetic analyses of HIV-1 env sequences from QVOA and proviral DNA demonstrated little change in the composition of the virus populations comprising the pre- and post-ATI reservoir. Expanded clones were common in both QVOA and proviral DNA sequences. The frequency of clonal populations differed significantly between QVOA viruses, proviral DNA sequences, and the viruses that reactivated in vivo. CONCLUSIONS. The results indicate that transient viremia from ATI does not substantially alter measures of the latent reservoir, that clonal expansion is prevalent within the latent reservoir, and that characterization of latent viruses that can reactivate in vivo remains challenging. TRIAL REGISTRATION. ClinicalTrials.gov {"type":"clinical-trial","attrs":{"text":"NCT02463227","term_id":"NCT02463227"}}NCT02463227 FUNDING. Funding was provided by the NIH.

Published

2018

23. Fitness landscape of the human immunodeficiency virus envelope protein that is targeted by antibodies

Author

Raymond H. Y. Louie, Kevin J. Kaczorowski, Arup K. Chakraborty, John P. Barton, and Matthew R. McKay

Subjects

0301 basic medicine, and promotion of well-being, Immunogen, Fitness landscape, Genetic Fitness, medicine.disease_cause, HIV Envelope Protein gp160, 0302 clinical medicine, Immunology and Inflammation, Models, Neutralizing, Mutation, Multidisciplinary, biology, Biological Sciences, Vaccination, Infectious Diseases, 3.4 Vaccines, PNAS Plus, Physical Sciences, CD4 Antigens, HIV/AIDS, Antibody, Infection, Biotechnology, statistical inference, fitness landscape, Computational biology, Virus, Antibodies, Vaccine Related, 03 medical and health sciences, Genetic, medicine, Computer Simulation, Vaccine Related (AIDS), Immune Evasion, Binding Sites, Models, Genetic, Prevention, broadly neutralizing antibodies, HIV, Prevention of disease and conditions, Antibodies, Neutralizing, Biophysics and Computational Biology, envelope protein, 030104 developmental biology, Good Health and Well Being, biology.protein, Immunization, Binding Sites, Antibody, 030217 neurology & neurosurgery, Function (biology)

Abstract

Significance An effective vaccine for HIV is still not available, although recent hope has emerged through the discovery of antibodies capable of neutralizing diverse HIV strains. Nonetheless, there exist mutational pathways through which HIV can evade known broadly neutralizing antibody responses. An ideal vaccine would elicit broadly neutralizing antibodies that target parts of the virus’s spike proteins where mutations severely compromise the virus’s fitness. Here, we employ a computational approach that allows estimation of the fitness landscape (fitness as a function of sequence) of the polyprotein that comprises HIV’s spike. We validate the inferred landscape through comparisons with diverse experimental measurements. The availability of this fitness landscape will aid the rational design of immunogens for effective vaccines., HIV is a highly mutable virus, and over 30 years after its discovery, a vaccine or cure is still not available. The isolation of broadly neutralizing antibodies (bnAbs) from HIV-infected patients has led to renewed hope for a prophylactic vaccine capable of combating the scourge of HIV. A major challenge is the design of immunogens and vaccination protocols that can elicit bnAbs that target regions of the virus’s spike proteins where the likelihood of mutational escape is low due to the high fitness cost of mutations. Related challenges include the choice of combinations of bnAbs for therapy. An accurate representation of viral fitness as a function of its protein sequences (a fitness landscape), with explicit accounting of the effects of coupling between mutations, could help address these challenges. We describe a computational approach that has allowed us to infer a fitness landscape for gp160, the HIV polyprotein that comprises the viral spike that is targeted by antibodies. We validate the inferred landscape through comparisons with experimental fitness measurements, and various other metrics. We show that an effective antibody that prevents immune escape must selectively bind to high escape cost residues that are surrounded by those where mutations incur a low fitness cost, motivating future applications of our landscape for immunogen design.

Published

2018

24. HIV-1 Envelope Glycoproteins Proteolytic Cleavage Protects Infected Cells from ADCC Mediated by Plasma from Infected Individuals

Author

Hung-Ching Chen, Andrés Finzi, Beatrice H. Hahn, Amos B. Smith, Jérémie Prévost, Dani Vézina, and Halima Medjahed

Subjects

CD4-Positive T-Lymphocytes, Protein Conformation, viruses, Amino Acid Motifs, nnAbs, HIV Infections, HIV Antibodies, Cleavage (embryo), Microbiology, Epitope, HIV Envelope Protein gp160, 03 medical and health sciences, Virology, Humans, furin cleavage site, Furin, 030304 developmental biology, chemistry.chemical_classification, Antibody-dependent cell-mediated cytotoxicity, 0303 health sciences, biology, Communication, Endoplasmic reticulum, Cell Membrane, 030302 biochemistry & molecular biology, Antibody-Dependent Cell Cytotoxicity, Virion, env Gene Products, Human Immunodeficiency Virus, Wild type, virus diseases, HIV+ plasma, QR1-502, 3. Good health, Cell biology, CD4 mimetics, Infectious Diseases, chemistry, Temsavir, Mutation, Proteolysis, HIV-1, biology.protein, Env glycoprotein, Antibody, ADCC, Glycoprotein

Abstract

The HIV-1 envelope glycoprotein (Env) is synthesized in the endoplasmic reticulum as a trimeric gp160 precursor, which requires proteolytic cleavage by a cellular furin protease to mediate virus-cell fusion. Env is conformationally flexible, but controls its transition from the unbound “closed” conformation (State 1) to downstream CD4-bound conformations (States 2/3), which are required for fusion. In particular, HIV-1 has evolved several mechanisms that reduce the premature “opening” of Env which exposes highly conserved epitopes recognized by non-neutralizing antibodies (nnAbs) capable of mediating antibody-dependent cellular cytotoxicity (ADCC). Env cleavage decreases its conformational transitions favoring the adoption of the “closed” conformation. Here we altered the gp160 furin cleavage site to impair Env cleavage and to examine its impact on ADCC responses mediated by plasma from HIV-1-infected individuals. We found that infected primary CD4+ T cells expressing uncleaved, but not wildtype, Env are efficiently recognized by nnAbs and become highly susceptible to ADCC responses mediated by plasma from HIV-1-infected individuals. Thus, HIV-1 limits the exposure of uncleaved Env at the surface of HIV-1-infected cells at least in part to escape ADCC responses.

Published

2021

25. Rapid elicitation of broadly neutralizing antibodies to HIV by immunization in cows

Author

Khoa Le, Dennis R. Burton, Michael F. Criscitiello, Waithaka Mwangi, Devin Sok, Chi-Hui Liang, Vaughn V. Smider, Jennifer Ruiz, Melissa L. Vadnais, Andrew B. Ward, Karen L. Saye-Francisco, Zachary T. Berndsen, Jonathan L. Torres, Ian A. Wilson, Leopold Kong, Alejandra Ramos, Joseph G. Jardine, Robyn L. Stanfield, and Patricia L. Chen

Subjects

0301 basic medicine, Immunity, Herd, Immunogen, medicine.drug_class, Biology, Monoclonal antibody, Epitope, Article, HIV Envelope Protein gp160, 03 medical and health sciences, 0302 clinical medicine, Antibody Repertoire, medicine, Humans, Animals, Amino Acid Sequence, Multidisciplinary, Vaccination, HIV, HIV envelope protein, Virology, Antibodies, Neutralizing, 3. Good health, HEK293 Cells, 030104 developmental biology, Immunization, Immunology, biology.protein, Cattle, Female, Antibody, 030217 neurology & neurosurgery

Abstract

Immunization of cows with a recombinant HIV envelope protein leads to the rapid development of potent, broadly neutralizing antibodies against HIV. HIV infection gives rise to the generation of broadly neutralizing antibodies in a subset of infected subjects. However, it has been difficult to induce such antibodies through vaccination in humans and a variety of animal models. In this study, Dennis Burton and colleagues immunized four cows with a recombinant HIV envelope protein (BG505 SOSIP) and found that broadly neutralizing antibodies developed rapidly after repeated immunization. For example, one cow developed cross-neutralizing activity just 42 days after a vaccine boost. No immunogen to date has reliably elicited broadly neutralizing antibodies to HIV in humans or animal models. Advances in the design of immunogens that antigenically mimic the HIV envelope glycoprotein (Env), such as the soluble cleaved trimer BG505 SOSIP1, have improved the elicitation of potent isolate-specific antibody responses in rabbits2 and macaques3, but so far failed to induce broadly neutralizing antibodies. One possible reason for this failure is that the relevant antibody repertoires are poorly suited to target the conserved epitope regions on Env, which are somewhat occluded relative to the exposed variable epitopes. Here, to test this hypothesis, we immunized four cows with BG505 SOSIP. The antibody repertoire of cows contains long third heavy chain complementary determining regions (HCDR3) with an ultralong subset that can reach more than 70 amino acids in length4,5,6,7,8,9. Remarkably, BG505 SOSIP immunization resulted in rapid elicitation of broad and potent serum antibody responses in all four cows. Longitudinal serum analysis for one cow showed the development of neutralization breadth (20%, n = 117 cross-clade isolates) in 42 days and 96% breadth (n = 117) at 381 days. A monoclonal antibody isolated from this cow harboured an ultralong HCDR3 of 60 amino acids and neutralized 72% of cross-clade isolates (n = 117) with a potent median IC50 of 0.028 μg ml−1. Breadth was elicited with a single trimer immunogen and did not require additional envelope diversity. Immunization of cows may provide an avenue to rapidly generate antibody prophylactics and therapeutics to address disease agents that have evolved to avoid human antibody responses.

Published

2017

26. Effects of partially dismantling the CD4 binding site glycan fence of HIV-1 Envelope glycoprotein trimers on neutralizing antibody induction

Author

James M. Binley, Tommy Tong, William R. Schief, Samantha L. Grimley, Robert G. Whalen, Yang D. Dai, Ema T. Crooks, Daniel W. Kulp, Keiko Osawa, and Sergey Menis

Subjects

0301 basic medicine, Glycan, CD4 antigen, Heterologous, HIV Antibodies, HIV Envelope Protein gp120, Biology, Article, Epitope, Cell Line, HIV Envelope Protein gp160, Epitopes, 03 medical and health sciences, chemistry.chemical_compound, Neutralization Tests, Virology, Animals, Humans, Binding site, Neutralizing antibody, chemistry.chemical_classification, Binding Sites, Antibodies, Neutralizing, HIV Envelope Protein gp41, carbohydrates (lipids), HEK293 Cells, 030104 developmental biology, chemistry, CD4 Antigens, HIV-1, biology.protein, Female, Immunization, Rabbits, Antibody, Glycoprotein

Abstract

Previously, VLPs bearing JR-FL strain HIV-1 Envelope trimers elicited potent neutralizing antibodies (nAbs) in 2/8 rabbits (PLoS Pathog 11(5): e1004932) by taking advantage of a naturally absent glycan at position 197 that borders the CD4 binding site (CD4bs). In new immunizations, we attempted to improve nAb responses by removing the N362 glycan that also lines the CD4bs. All 4 rabbits developed nAbs. One targeted the N197 glycan hole like our previous sera. Two sera depended on the N463 glycan, again suggesting CD4bs overlap. Heterologous boosts appeared to reduce nAb clashes with the N362 glycan. The fourth serum targeted a N362 glycan-sensitive epitope. VLP manufacture challenges prevented us from immunizing larger rabbit numbers to empower a robust statistical analysis. Nevertheless, trends suggest that targeted glycan removal may improve nAb induction by exposing new epitopes and that it may be possible to modify nAb specificity using rational heterologous boosts.

Published

2017

27. Antigenicity-defined conformations of an extremely neutralization-resistant HIV-1 envelope spike

Author

Yongfei Cai, Andrea Carfi, Bing Chen, Kshitij Wagh, James Theiler, Michael S. Seaman, Stephen C. Harrison, Sophia Rits-Volloch, Selen Karaca-Griffin, Christine E. Linton, Nicholas Fredette, Sai Tian, Jia Chen, Jianming Lu, and Bette T. Korber

Subjects

0301 basic medicine, Antigenicity, Protein Conformation, viruses, Trimer, HIV Antibodies, HIV Envelope Protein gp120, Biology, Gp41, Neutralization, Epitope, HIV Envelope Protein gp160, Epitopes, 03 medical and health sciences, Antigen, Humans, Antigens, Multidisciplinary, 030102 biochemistry & molecular biology, Antibodies, Monoclonal, virus diseases, Biological Sciences, Antibodies, Neutralizing, Virology, HEK293 Cells, 030104 developmental biology, Ectodomain, HIV-1, biology.protein, Antibody

Abstract

The extraordinary genetic diversity of the HIV-1 envelope spike [Env; trimeric (gp160)3, cleaved to (gp120/gp41)3] poses challenges for vaccine development. Envs of different clinical isolates exhibit different sensitivities to antibody-mediated neutralization. Envs of difficult-to-neutralize viruses are thought to be more stable and conformationally homogeneous trimers than those of easy-to-neutralize viruses, thereby providing more effective concealment of conserved, functionally critical sites. In this study we have characterized the antigenic properties of an Env derived from one of the most neutralization-resistant HIV-1 isolates, CH120.6. Sequence variation at neutralizing epitopes does not fully account for its exceptional resistance to antibodies. The full-length, membrane-bound CH120.6 Env is indeed stable and conformationally homogeneous. Its antigenicity correlates closely with its neutralization sensitivity, and major changes in antigenicity upon CD4 engagement appear to be restricted to the coreceptor site. The CH120.6 gp140 trimer, the soluble and uncleaved ectodomain of (gp160)3, retains many antigenic properties of the intact Env, consistent with a conformation close to that of Env spikes on a virion, whereas its monomeric gp120 exposes many nonneutralizing or strain-specific epitopes. Thus, trimer organization and stability are important determinants not only for occluding many epitopes but also for conferring resistance to neutralization by all but a small set of antibodies. Env preparations derived from neutralization-resistant viruses may induce irrelevant antibody responses less frequently than do other Envs and may be excellent templates for developing soluble immunogens.

Published

2017

28. Mapping out the intricate relationship of the HIV envelope protein and the membrane environment

Author

Roland Schwarzer, Yoel A. Klug, Etai Rotem, and Yechiel Shai

Subjects

0301 basic medicine, Protein Conformation, T-Lymphocytes, viruses, Medizin, Receptors, Antigen, T-Cell, Biophysics, Gene Expression, HIV Budding, HIV Envelope Protein gp120, Biology, Membrane Fusion, Biochemistry, HIV Envelope Protein gp160, 03 medical and health sciences, Membrane Microdomains, Protein structure, Viral entry, Humans, Amino Acid Sequence, Virus Release, Virus Assembly, virus diseases, Lipid bilayer fusion, Cell Biology, HIV envelope protein, Viral membrane, Fusion protein, HIV Envelope Protein gp41, Sphingomyelins, Cell biology, 030104 developmental biology, Host-Pathogen Interactions, HIV-1

Abstract

The HIV gp160 envelope fusion protein is situated in the viral membrane and mediates virus entry into its host cell. Increasing evidence suggests that virtually all parts of the HIV envelope are structurally and functionally dependent on membranes. Protein-lipid interactions and membrane properties influence the dynamics of a manifold of gp160 biological activities such as membrane fusion, immune suppression and gp160 incorporation into virions during HIV budding and assembly. In the following we will summarize our current understanding of this interdependence between membrane interaction, structural conformation and functionality of the different gp160 domains. This article is part of a Special Issue entitled: Lipid order/lipid defects and lipid-control of protein activity edited by Dirk Schneider.

Published

2017

29. Cryo-EM structure of full-length HIV-1 Env bound with the Fab of antibody PG16

Author

Junhua Pan, Bing Chen, Stephen C. Harrison, and Hanqin Peng

Subjects

Antigenicity, Immunogen, Cryo-electron microscopy, viruses, Trimer, Gp41, Article, HIV Envelope Protein gp160, 03 medical and health sciences, 0302 clinical medicine, Structural Biology, Native state, Humans, Molecular Biology, 030304 developmental biology, 0303 health sciences, Chemistry, Immunogenicity, Cryoelectron Microscopy, env Gene Products, Human Immunodeficiency Virus, virus diseases, Antibodies, Neutralizing, HEK293 Cells, Ectodomain, HIV-1, Biophysics, 030217 neurology & neurosurgery, Protein Binding

Abstract

The HIV-1 envelope protein (Env) is the target of neutralizing antibodies and the template for vaccine immunogen design. The dynamic conformational equilibrium of trimeric Env influences its antigenicity and potential immunogenicity. Antibodies that bind at the trimer apex stabilize a “closed” conformation characteristic of the most difficult to neutralize isolates. A goal of vaccine development is therefore to mimic the closed conformation in a designed immunogen. A disulfide-stabilized, trimeric Env ectodomain -- the “SOSIP” construct -- has many of the relevant properties; it is also particularly suitable for structure determination. Some single-molecule studies have, however, suggested that the SOSIP trimer is not a good representation of Env on the surface of a virion or an infected cell. We isolated Env (fully cleaved to gp120 and gp41) from the surface of expressing cells using tagged, apex-binding Fab PG16 and determined the structure of the PG16-Env complex by cryo-EM to an overall resolution of 4.6 Å. Placing the only purification tag on the Fab ensured that the isolated Env was continuously stabilized in its closed, native conformation. The Env structure in this complex corresponds closely to the SOSIP structures determined by both x-ray crystallography and cryo-EM. Although the membrane-interacting elements are not resolved in our reconstruction, we can make inferences about the connection between ectodomain and membrane-proximal external region (MPER) by reference to the published cryo-tomography structure of an Env “spike” and the NMR structure of the MPER-transmembrane segment. We discuss these results in view of the conflicting interpretations in the literature.

Published

2019

30. Comparisons of Human Immunodeficiency Virus Type 1 Envelope Variants in Blood and Genital Fluids near the Time of Male-to-Female Transmission

Author

Rachel Payant, Anna Wald, Corey A. Williams-Wietzikoski, Wendy Stevens, Airin Lam, Connie Celum, James I. Mullins, Glenda Gray, Hannah Huang, Jairam R. Lingappa, Helen Rees, Hong Zhao, Lisa M. Frenkel, Mary S. Campbell, Carey Farquhar, and Simon, Viviana

Subjects

Male, viral compartmentalization, viruses, HIV Infections, Medical and Health Sciences, HIV Envelope Protein gp160, 0302 clinical medicine, Blood plasma, Receptors, 2.2 Factors relating to the physical environment, Viral, Aetiology, Clade, Phylogeny, 0303 health sciences, education.field_of_study, coreceptor usage, Transmission (medicine), Biological Sciences, 030220 oncology & carcinogenesis, RNA, Viral, HIV/AIDS, Female, Infection, Sequence Analysis, Adult, Receptors, CXCR4, N-linked glycosylation, Receptors, CCR5, Immunology, Population, Semen, Biology, Microbiology, Virus, Vaccine Related, 03 medical and health sciences, Young Adult, Clinical Research, Virology, Humans, Sex organ, Genitalia, education, Heterosexuality, 030304 developmental biology, CXCR4, Agricultural and Veterinary Sciences, heterosexual transmission, Prevention, RNA, HIV, Good Health and Well Being, Insect Science, HIV-1, Pathogenesis and Immunity, Immunization, CCR5, genetic bottleneck

Abstract

To better understand the transmission of human immunodeficiency virus type 1 (HIV-1), the genetic characteristics of blood and genital viruses from males were compared to those of the imputed founding virus population in their female partners. Initially serodiscordant heterosexual African couples with sequence-confirmed male-to-female HIV-1 transmission and blood and genital specimens collected near the time of transmission were studied. Single viral templates from blood plasma and genital tract RNA and DNA were sequenced across HIV-1 env gp160. Eight of 29 couples examined yielded viral sequences from both tissues. Analysis of these couples’ sequences demonstrated, with one exception, that the women’s founding viral populations arose from a single viral variant and were CCR5 tropic, even though CXCR4 variants were detected within four males. The median genetic distance of the imputed most recent common ancestor of the women’s founder viruses showed that they were closer to the semen viruses than to the blood viruses of their transmitting male partner, but this finding was biased by detection of a greater number of viral clades in the blood. Using multiple assays, the blood and genital viruses were consistently found to be compartmentalized in only two of eight men. No distinct amino acid signatures in the men’s viruses were found to link to the women’s founders, nor did the women’s env sequences have shorter variable loops or fewer N-linked glycosylation sites. The lack of selective factors, except for coreceptor tropism, is consistent with others’ findings in male-to-female and high-risk transmissions. The infrequent compartmentalization between the transmitters’ blood and semen viruses suggests that cell-free blood virus likely includes HIV-1 sequences representative of those of viruses in semen. IMPORTANCE Mucosal transmissions account for the majority of HIV-1 infections. Identification of the viral characteristics associated with transmission would facilitate vaccine design. This study of HIV strains from transmitting males and their seroconverting female partners found that the males’ genital tract viruses were rarely distinct from the blood variants. The imputed founder viruses in women were genetically similar to both the blood and genital tract variants of their male partners, indicating a lack of evidence for genital tract-specific lineages. These findings suggest that targeting vaccine responses to variants found in blood are likely to also protect from genital tract variants.

Published

2019

31. Evidence for both Intermittent and Persistent Compartmentalization of HIV-1 in the Female Genital Tract

Author

Gordon William Harkins, Jo-Ann S. Passmore, Salim S. Abdool Karim, Carolyn Williamson, Bronwen E. Lambson, Lynn Morris, Darren P. Martin, Dale Kitchin, Lindi Masson, Mushal Allam, Kavisha Ramdayal, Cathrine Scheepers, Batsirai Mabvakure, and Penny L. Moore

Subjects

Adult, Adolescent, viruses, Immunology, Viremia, HIV Infections, HIV Antibodies, Microbiology, Reproductive Tract Infections, Proinflammatory cytokine, HIV Envelope Protein gp160, 03 medical and health sciences, South Africa, Virology, HIV Seropositivity, medicine, Humans, Sex organ, Longitudinal Studies, Phylogeny, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, Vaginal microbicide, env Gene Products, Human Immunodeficiency Virus, Genitalia, Female, Compartmentalization (psychology), Middle Aged, Viral Load, medicine.disease, Microbicides for sexually transmitted diseases, Chronic infection, Genetic Diversity and Evolution, Organ Specificity, Insect Science, Vagina, biology.protein, HIV-1, RNA, Viral, Female, Antibody

Abstract

HIV-1 has been shown to evolve independently in different anatomical compartments, but studies in the female genital tract have been inconclusive. Here, we examined evidence of compartmentalization using HIV-1 subtype C envelope (Env) glycoprotein genes (gp160) obtained from matched cervicovaginal lavage (CVL) and plasma samples over 2 to 3 years of infection. HIV-1 gp160 amplification from CVL was achieved for only 4 of 18 acutely infected women, and this was associated with the presence of proinflammatory cytokines and/or measurable viremia in the CVL. Maximum likelihood trees and divergence analyses showed that all four individuals had monophyletic compartment-specific clusters of CVL- and/or plasma-derived gp160 sequences at all or some time points. However, two participants (CAP177 and CAP217) had CVL gp160 diversity patterns that differed from those in plasma and showed restricted viral flow from the CVL. Statistical tests of compartmentalization revealed evidence of persistent compartment-specific gp160 evolution in CAP177, while in CAP217 this was intermittent. Lastly, we identified several Env sites that distinguished viruses in these two compartments; for CAP177, amino acid differences arose largely through positive selection, while insertions/deletions were more common in CAP217. In both cases these differences contributed to substantial charge changes spread across the Env. Our data indicate that, in some women, HIV-1 populations within the genital tract can have Env genetic features that differ from those of viruses in plasma, which could impact the sensitivity of viruses in the genital tract to vaginal microbicides and vaccine-elicited antibodies. IMPORTANCE Most HIV-1 infections in sub-Saharan Africa are acquired heterosexually through the genital mucosa. Understanding the properties of viruses replicating in the female genital tract, and whether these properties differ from those of more commonly studied viruses replicating in the blood, is therefore important. Using longitudinal CVL and plasma-derived sequences from four HIV-1 subtype C-infected women, we found fewer viral migrations from the genital tract to plasma than in the opposite direction, suggesting a mucosal sieve effect from the genital tract to the blood compartment. Evidence for both persistent and intermittent compartmentalization between the genital tract and plasma viruses during chronic infection was detected in two of four individuals, perhaps explaining previously conflicting findings. In cases where compartmentalization occurred, comparison of CVL- and plasma-derived HIV sequences indicated that distinct features of viral populations in the CVL may affect the efficacy of microbicides and vaccines designed to provide mucosal immunity.

Published

2019

32. Analysis of herpes simplex type 1 gB, gD, and gH/gL on production of infectious HIV-1: HSV-1 gD restricts HIV-1 by exclusion of HIV-1 Env from maturing viral particles

Author

Wyatt Henke, Sachith Polpitiya Arachchige, Edward B. Stephens, and Maria Kalamvoki

Subjects

lcsh:Immunologic diseases. Allergy, gB, gp120/gp41, gD, Env incorporation, viruses, Clone (cell biology), Herpesvirus 1, Human, HIV Envelope Protein gp120, Virus restriction, Gp41, Virus, Cell Line, HIV Envelope Protein gp160, 03 medical and health sciences, gH/gL, Viral Envelope Proteins, Virology, Humans, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Membrane Glycoproteins, biology, 030306 microbiology, Research, virus diseases, Transfection, Virus Internalization, HSV-1, 3. Good health, Infectious Diseases, chemistry, Cytoplasm, Cell culture, biology.protein, HIV-1, Antibody, Glycoprotein, lcsh:RC581-607

Abstract

Background We previously showed that the gM of HSV-1 could restrict the release of infectious HIV-1 from cells. In this study, we analyzed if the four HSV-1 glycoproteins (gD, gB, and gH/gL), which are the minimum glycoproteins required for HSV-1 entry, restricted the release of infectious HIV-1. Results Of these four glycoproteins, gD and gH/gL restricted the production of infectious HIV-1 from cells transfected with an infectious molecular clone of HIV-1 (strain NL4-3) while gB had no significant effect. Pulse-chase analyses indicated that gD did not affect the biosynthesis and processing of gp160 into gp120/gp41, the transport of the gp120/gp41 to the cell surface, or the release of HIV-1 particles from the cell surface. Our analyses revealed that gD was incorporated into HIV-1 virus particles while gp120/gp41 was excluded from released virus particles. Truncated mutants of gD revealed that the cytoplasmic domain was dispensable but that a membrane bound gD was required for the restriction of release of infectious HIV-1. Finally, cell lines expressing gD also potently restricted the release of infectious virus. Conclusions Due to its ability to exclude HIV-1 gp120/gp41 from maturing virus, gD may provide a useful tool in deciphering mechanisms of Env incorporation into maturing virus particles. Electronic supplementary material The online version of this article (10.1186/s12977-019-0470-5) contains supplementary material, which is available to authorized users.

Published

2018

33. Structure of the transmembrane domain of<scp>HIV</scp>‐1 envelope glycoprotein

Author

Bing Chen and James J. Chou

Subjects

Models, Molecular, 0301 basic medicine, Immunogen, Protein Conformation, viruses, Membrane Fusion, Biochemistry, Article, HIV Envelope Protein gp160, 03 medical and health sciences, Viral envelope, Amino Acid Sequence, Molecular Biology, chemistry.chemical_classification, Vaccines, Synthetic, Sequence Homology, Amino Acid, biology, Chemistry, virus diseases, Cell Biology, Transmembrane protein, Cell biology, Transmembrane domain, 030104 developmental biology, Membrane, Membrane protein, HIV-1, biology.protein, Antibody, Glycoprotein

Abstract

HIV-1 envelope spike (Env) is a heavily glycosylated, type I membrane protein that mediates fusion of viral and cell membranes to initiate infection. It is also a primary target of neutralizing antibodies and thus an important candidate for vaccine development. We have recently reported a nuclear magnetic resonance structure of the transmembrane (TM) domain of HIV-1 Env reconstituted in a membrane-like environment. Taking HIV-1 as an example, we discuss here how a TM domain can anchor, stabilize, and modulate a viral envelope spike and how its high-resolution structure can contribute to understanding viral membrane fusion and to immunogen design.

Published

2016

34. Membrane bound Indian clade C HIV-1 envelope antigen induces antibodies to diverse and conserved epitopes upon DNA prime/protein boost in rabbits

Author

Veena Menon, Sneha Priya Rangasamy, Priyanka Dhopeshwarkar, Ranajit Pal, Kalyanaraman S. Vaniambadi, and Sundarasamy Mahalingam

Subjects

0301 basic medicine, medicine.drug_class, Immunization, Secondary, HIV Antibodies, HIV Envelope Protein gp120, Biology, Monoclonal antibody, Gp41, Epitope, HIV Envelope Protein gp160, Epitopes, 03 medical and health sciences, Antigen, Neutralization Tests, Vaccines, DNA, medicine, Animals, Humans, AIDS Vaccines, General Veterinary, General Immunology and Microbiology, Linear epitope, Immunogenicity, Public Health, Environmental and Occupational Health, Antibodies, Monoclonal, Antibodies, Neutralizing, Virology, Molecular biology, 030104 developmental biology, Infectious Diseases, Epitope mapping, HIV-1, biology.protein, Molecular Medicine, Binding Sites, Antibody, Rabbits, Antibody, Epitope Mapping

Abstract

The partial success of RV144 human clinical trial demonstrated that ALVAC prime/envelope protein boost vaccine regimen may represent a promising strategy for the development of an effective HIV-1 vaccine. Our earlier study demonstrated that a trimeric HIV-1 envelope gp145 from an Indian clade C isolate elicited cross clade neutralizing antibodies primarily towards Tier 1 isolates. In the present study, we examined the immunogenicity of DNA prime/envelope protein boost vaccine in rabbits using gp160 DNA of the Indian clade C isolate with various cytoplasmic tail truncations and trimeric gp145 protein. Cytoplasmic tail mutants of gp160 exposed epitopes that reacted strongly with a number of broadly neutralizing human monoclonal antibodies against HIV-1. Overall, envelope specific titers were found to be similar in all rabbit groups with higher pseudovirus neutralization in protein only immunized rabbits. The complete linear epitope mapping of rabbit immune sera revealed strong binding to C1, C2, V3, C3 and C4 domains of gp145. Importantly, reactivity of gp41 ecto-domain peptides was observed in DNA prime/protein boost sera but not in the sera of rabbits immunized with protein alone. Moreover, membrane anchored but not soluble envelope encoding DNA immunization elicited antibodies against linear epitopes on the conserved gp41 ecto-domain. Together, these results suggest that priming with DNA encoding cytoplasmic domains of Env alters the quality of antibodies elicited following protein boost and hence may be utilized to generate protective immunity by HIV-1 vaccine.

Published

2016

35. Oral Immunization with Recombinant Vaccinia Virus Prime and Intramuscular Protein Boost Provides Protection against Intrarectal Simian-Human Immunodeficiency Virus Challenge in Macaques

Author

Baoping Tian, Wenjin Guo, Shiu Lok Hu, Rajesh Thippeshappa, Brad Cleveland, and Patricia Polacino

Subjects

0301 basic medicine, Microbiology (medical), viruses, 030106 microbiology, Clinical Biochemistry, Immunology, Vaccinia virus, HIV Antibodies, HIV Envelope Protein gp120, medicine.disease_cause, Immunoglobulin G, Virus, Cell Line, HIV Envelope Protein gp160, law.invention, 03 medical and health sciences, chemistry.chemical_compound, Immune system, law, Chlorocebus aethiops, medicine, Animals, Immunology and Allergy, Immunity, Mucosal, AIDS Vaccines, Vaccines, Synthetic, Vaccines, biology, business.industry, Immunogenicity, Vaccination, Simian immunodeficiency virus, Macaca mulatta, Virology, Fusion Proteins, gag-pol, Immunoglobulin A, 030104 developmental biology, chemistry, HIV-1, biology.protein, Recombinant DNA, Vaccinia, business

Abstract

Human immunodeficiency virus type 1 (HIV-1) acquisition occurs predominantly through mucosal transmission. We hypothesized that greater mucosal immune responses and protective efficacy against mucosal HIV-1 infection may be achieved by prime-boost immunization at mucosal sites. We used a macaque model to determine the safety, immunogenicity, and protective efficacy of orally delivered, replication-competent but attenuated recombinant vaccinia viruses expressing full-length HIV-1 SF162 envelope (Env) or simian immunodeficiency virus (SIV) Gag-Pol proteins. We examined the dose and route that are suitable for oral immunization with recombinant vaccinia viruses. We showed that sublingual inoculation of two vaccinia virus-naive pigtailed macaques with 5 × 10 8 PFU of recombinant vaccinia viruses was safe. However, sublingual inoculation with a higher dose or tonsillar inoculation resulted in secondary oral lesions, indicating the need to optimize the dose and route for oral immunization with replication-competent vaccinia virus vectors. Oral priming alone elicited antibody responses to vaccinia virus and to the SF162 Env protein. Intramuscular immunization with the SF162 gp120 protein at either 20 or 21 weeks postpriming resulted in a significant boost in antibody responses in both systemic and mucosal compartments. Furthermore, we showed that immune responses induced by recombinant vaccinia virus priming and intramuscular protein boosting provided protection against intrarectal challenge with the simian-human immunodeficiency virus SHIV-SF162-P4.

Published

2016

36. Safety and Immunogenicity of a Randomized Phase 1 Prime-Boost Trial With ALVAC-HIV (vCP205) and Oligomeric Glycoprotein 160 From HIV-1 Strains MN and LAI-2 Adjuvanted in Alum or Polyphosphazene

Author

John G. McNeil, Jerome H. Kim, Bruce L. Gilliam, Silvia Ratto-Kim, Jean-Louis Excler, Georgia D. Tomaras, Linda L. Jagodzinski, Deborah L. Birx, Raphaelle El-Habib, Merlin L. Robb, Lindsay Wieczorek, Victoria R. Polonis, Thomas C. VanCott, Robert J. O'Connell, Josephine H. Cox, Nelson L. Michael, Michelle Liu, and Robert Paris

Subjects

Adult, Male, 0301 basic medicine, Adolescent, HIV Antigens, Polymers, medicine.medical_treatment, HIV Infections, Canarypox virus, HIV Antibodies, complex mixtures, HIV Envelope Protein gp160, Young Adult, Major Articles and Brief Reports, 03 medical and health sciences, chemistry.chemical_compound, Organophosphorus Compounds, 0302 clinical medicine, Adjuvants, Immunologic, medicine, Humans, Immunology and Allergy, 030212 general & internal medicine, Alum adjuvant, Primary isolate, Neutralizing antibody, AIDS Vaccines, biology, Alum, business.industry, Immunogenicity, virus diseases, Middle Aged, Antibodies, Neutralizing, Virology, 030104 developmental biology, Infectious Diseases, chemistry, Immunology, HIV-1, Leukocytes, Mononuclear, biology.protein, Alum Compounds, Female, Immunization, business, Adjuvant

Abstract

Background Prime-boost regimens comprising ALVAC-HIV (prime) and human immunodeficiency virus type 1 (HIV) Env (boost) induce HIV-specific neutralizing antibody and cell-mediated immune responses, but the impact of boost schedule and adjuvant requires further definition. Methods A phase 1 trial was conducted. In part A (open label), 19 volunteers received oligomeric glycoprotein 160 from HIV strains MN and LAI-2 (ogp160 MN/LAI-2) with dose escalation (25, 50, 100 μg) and either polyphosphazene (pP) or alum adjuvant. In part B, 72 volunteers received either placebo (n=12) or recombinant canarypox virus expressing HIV antigens (ALVAC-HIV [vCP205]) with different doses and schedules of ogp160 MN/LAI-2 in pP or alum (n = 60). Results The vaccines were safe and well tolerated, with no vaccine-related serious adverse events. Anti-gp70 V1V2 antibody responses were detected in 17 of 19 part A volunteers (89%) and 10%-100% of part B volunteers. Use of a peripheral blood mononuclear cell-based assay revealed that US-1 primary isolate neutralization was induced in 2 of 19 recipients of ogp160 protein alone (10.5%) and 5 of 49 prime-boost volunteers (10.2%). Among ogp160 recipients, those who received pP were more likely than those who received alum to have serum that neutralized tier 2 viruses (12% vs 0%; P = .015). Conclusions Administration of ogp160 with pP induces primary isolate tier 2 neutralizing antibody responses in a small percentage of volunteers, demonstrating proof of concept and underscoring the importance of further optimization of prime-boost strategies for HIV infection prevention. Clinical trials registration NCT00004579.

Published

2016

37. Enhanced Immune Responses to HIV-1 Envelope Elicited by a Vaccine Regimen Consisting of Priming with Newcastle Disease Virus Expressing HIV gp160 and Boosting with gp120 and SOSIP gp140 Proteins

Author

Anthony L. DeVico, Siba K. Samal, David C. Montefiori, Celia C. LaBranche, Sunil K. Khattar, and Aruna Panda

Subjects

0301 basic medicine, animal diseases, viruses, Genetic Vectors, Guinea Pigs, Immunology, Newcastle disease virus, Priming (immunology), Enzyme-Linked Immunosorbent Assay, HIV Antibodies, HIV Envelope Protein gp120, Injections, Intramuscular, Microbiology, Newcastle disease, Virus, Immunoglobulin G, HIV Envelope Protein gp160, 03 medical and health sciences, Immune system, Neutralization Tests, Virology, Vaccines and Antiviral Agents, Animals, Neutralizing antibody, Administration, Intranasal, Immunization Schedule, AIDS Vaccines, Drug Carriers, Vaccines, Synthetic, biology, Vaccination, env Gene Products, Human Immunodeficiency Virus, virus diseases, Th1 Cells, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Antibodies, Neutralizing, 030104 developmental biology, Insect Science, biology.protein, Female, Antibody

Abstract

Newcastle disease virus (NDV) expressing HIV-1 BaL gp160 was evaluated either alone or with monomeric BaL gp120 and BaL SOSIP gp140 protein in a prime-boost combination in guinea pigs to enhance envelope (Env)-specific humoral and mucosal immune responses. We showed that a regimen consisting of an NDV prime followed by a protein boost elicited stronger serum and mucosal Th-1-biased IgG responses and neutralizing antibody responses than NDV-only immunizations. Additionally, these responses were higher after the gp120 than after the SOSIP gp140 protein boost.

Published

2016

38. Sulfonate modified Lactoferrin nanoparticles as drug carriers with dual activity against HIV-1

Author

Akhila Bommakanti, Anand K. Kondapi, Satyajit Mukhopadhyay, Jagadeesh Senapathi, and Suresh Mallepalli

Subjects

Scanning electron microscope, Nanoparticle, HIV Infections, HIV Envelope Protein gp160, Colloid and Surface Chemistry, Anti-Infective Agents, Dynamic light scattering, Humans, Physical and Theoretical Chemistry, Cells, Cultured, Host cell surface, Drug Carriers, biology, Chemistry, Lactoferrin, Surfaces and Interfaces, General Medicine, Drug delivery, HIV-1, Biophysics, biology.protein, Nanoparticles, Surface modification, Sulfonic Acids, Drug carrier, Biotechnology

Abstract

Intriguing properties and structural dynamics of Lactoferrin have been exploited in numerous applications, including its use as self-assembling, pH sensitive nanoparticles to deliver intended cargo at the disease site. In this study, we explore the possibility of surface modification of Lactoferrin nanoparticles to hone its specificity to target HIV-1 infected cells. Existence of free cysteine groups on Lactoferrin nanoparticles available for reaction with external molecules facilitates conjugation on the surface with Sodium 2-mercaptoethanesulfonate (MES). Conjugation with MES is used to edge a negative charge that can mimic CCR5 and Heparan sulfate (initial point of contact of HIV-1 env to host cell surface) electrostatic charge (Sulfate group). A simple sono-chemical irradiation method was employed for self-assembly of Nanoparticles and for surface modification. The nanoparticles serve dual purpose to abrogate extracellular entry and to target viral enzymes, when loaded with ART drugs. The morphology and size distribution of the formed particles were explored using Transmission Electron Microscope (TEM), Scanning Electron Microscope (SEM) and Dynamic Light Scattering. Raman SERS was employed to understand the difference in the protein upon surface modification. The anti-HIV property of the particles was confirmed in-vitro. The modified device demonstrated acceptable nanoparticle properties with controlled release and higher effective concentration in the area of infection.

Published

2020

39. Prediction of VRC01 neutralization sensitivity by HIV-1 gp160 sequence features

Author

Shelly Karuna, Paul T. Edlefsen, Bhavesh Borate, Craig A. Magaret, Adam S. Dingens, Srilatha Edugupanti, Marco Carone, Brian D. Williamson, Michal Juraska, Noah Simon, Christopher Simpkins, Galit Alter, Lindsay N. Carpp, David C. Montefiori, Wen-Han Yu, Ian Setliff, David Benkeser, Ivelin S. Georgiev, Peter B. Gilbert, and Nyaradzo Mgodi

Subjects

0301 basic medicine, Glycosylation, Sieve analysis, HIV Infections, Computational biology, Biology, HIV Antibodies, Gp41, Neutralization, Statistical power, HIV Envelope Protein gp160, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Genetics, Feature (machine learning), Humans, Computer Simulation, Amino Acid Sequence, Molecular Biology, lcsh:QH301-705.5, Ecology, Evolution, Behavior and Systematics, Binding Sites, Ecology, Nonparametric statistics, Antibodies, Monoclonal, Antibodies, Neutralizing, Regression, Titer, 030104 developmental biology, Computational Theory and Mathematics, lcsh:Biology (General), Modeling and Simulation, CD4 Antigens, HIV-1, 030217 neurology & neurosurgery, Broadly Neutralizing Antibodies, Forecasting, Protein Binding

Abstract

The broadly neutralizing antibody (bnAb) VRC01 is being evaluated for its efficacy to prevent HIV-1 infection in the Antibody Mediated Prevention (AMP) trials. A secondary objective of AMP utilizes sieve analysis to investigate how VRC01 prevention efficacy (PE) varies with HIV-1 envelope (Env) amino acid (AA) sequence features. An exhaustive analysis that tests how PE depends on every AA feature with sufficient variation would have low statistical power. To design an adequately powered primary sieve analysis for AMP, we modeled VRC01 neutralization as a function of Env AA sequence features of 611 HIV-1 gp160 pseudoviruses from the CATNAP database, with objectives: (1) to develop models that best predict the neutralization readouts; and (2) to rank AA features by their predictive importance with classification and regression methods. The dataset was split in half, and machine learning algorithms were applied to each half, each analyzed separately using cross-validation and hold-out validation. We selected Super Learner, a nonparametric ensemble-based cross-validated learning method, for advancement to the primary sieve analysis. This method predicted the dichotomous resistance outcome of whether the IC50 neutralization titer of VRC01 for a given Env pseudovirus is right-censored (indicating resistance) with an average validated AUC of 0.868 across the two hold-out datasets. Quantitative log IC50 was predicted with an average validated R2 of 0.355. Features predicting neutralization sensitivity or resistance included 26 surface-accessible residues in the VRC01 and CD4 binding footprints, the length of gp120, the length of Env, the number of cysteines in gp120, the number of cysteines in Env, and 4 potential N-linked glycosylation sites; the top features will be advanced to the primary sieve analysis. This modeling framework may also inform the study of VRC01 in the treatment of HIV-infected persons.

Published

2018

40. High throughput generation and characterization of replication-competent clade C transmitter-founder simian human immunodeficiency viruses

Author

Siddappa N. Byrareddy, Alisha Dalal, Debashis Dutta, Eric Hunter, Martin J. Deymier, and Samuel D. Johnson

Subjects

0301 basic medicine, RNA viruses, viruses, Simian Acquired Immunodeficiency Syndrome, HIV Infections, Monkeys, Pathology and Laboratory Medicine, Genome, Biochemistry, HIV Envelope Protein gp160, Immunodeficiency Viruses, Medicine and Health Sciences, vif Gene Products, Human Immunodeficiency Virus, HIV vaccine, Homologous Recombination, Mammals, Multidisciplinary, Microbial Genetics, virus diseases, Eukaryota, 3. Good health, Nucleic acids, Restriction site, SIV, Medical Microbiology, Viral Pathogens, Viruses, Vertebrates, Medicine, Viral Genetics, Simian Immunodeficiency Virus, Pathogens, Macaque, Research Article, Primates, DNA recombination, Science, Mutation, Missense, Zambia, Molecular cloning, Biology, Research and Analysis Methods, Microbiology, Cell Line, 03 medical and health sciences, Virology, Retroviruses, Old World monkeys, Genetics, Animals, Humans, Env Genes, Molecular Biology Techniques, Gene, Microbial Pathogens, Molecular Biology, Organisms, Genetically Modified, Lentivirus, Organisms, Biology and Life Sciences, HIV, DNA, Macaca mulatta, Viral Replication, Restriction enzyme, 030104 developmental biology, Viral replication, Amino Acid Substitution, Amniotes, Viral Genes, HIV-1, Homologous recombination, Cloning, Molecular Cloning

Abstract

Traditional restriction endonuclease-based cloning has been routinely used to generate replication-competent simian-human immunodeficiency viruses (SHIV) and simian tropic HIV (stHIV). This approach requires the existence of suitable restriction sites or the introduction of nucleotide changes to create them. Here, using an In-Fusion cloning technique that involves homologous recombination, we generated SHIVs and stHIVs based on epidemiologically linked clade C transmitted/founder HIV molecular clones from Zambia. Replacing vif from these HIV molecular clones with vif of SIVmac239 resulted in chimeric genomes used to generate infectious stHIV viruses. Likewise, exchanging HIV env genes and introducing N375 mutations to enhance macaque CD4 binding site and cloned into a SHIVAD8-EO backbone. The generated SHIVs and stHIV were infectious in TZMbl and ZB5 cells, as well as macaque PBMCs. Therefore, this method can replace traditional methods and be a valuable tool for the rapid generation and testing of molecular clones of stHIV and SHIV based on primary clinical isolates will be valuable to generate rapid novel challenge viruses for HIV vaccine/cure studies.

Published

2018

41. Complex interplay of kinetic factors governs the synergistic properties of HIV‐1 entry inhibitors

Author

Koree W. Ahn and Michael J. Root

Subjects

0301 basic medicine, Conformational change, Chemokine, Enfuvirtide, Anti-HIV Agents, Human immunodeficiency virus (HIV), medicine.disease_cause, Biochemistry, HIV Envelope Protein gp160, 03 medical and health sciences, Chemokine receptor, Viral entry, Genetics, medicine, Humans, Editors' Picks, Molecular Biology, chemistry.chemical_classification, biology, HEK 293 cells, Lipid bilayer fusion, Drug Synergism, Cell Biology, Virus Internalization, Chemokine receptor binding, Cell biology, Kinetics, HEK293 Cells, 030104 developmental biology, chemistry, HIV-1, biology.protein, Glycoprotein, Biotechnology, medicine.drug

Abstract

The homotrimeric HIV-1 envelope glycoprotein (Env) undergoes receptor-triggered structural changes that mediate viral entry through membrane fusion. This process is inhibited by chemokine receptor antagonists (CoRAs) that block Env–receptor interactions and by fusion inhibitors (FIs) that disrupt Env conformational transitions. Synergy between CoRAs and FIs has been attributed to a CoRA-dependent decrease in the rate of viral membrane fusion that extends the lifetime of the intermediate state targeted by FIs. Here, we demonstrated that the magnitude of CoRA/FI synergy unexpectedly depends on FI-binding affinity and the stoichiometry of chemokine receptor binding to trimeric Env. For C-peptide FIs (clinically represented by enfuvirtide), synergy waned as binding strength decreased until inhibitor combinations behaved additively. Curiously, this affinity dependence on synergy was absent for 5-Helix-type FIs. We linked this complex behavior to the CoRA dependence of Env deactivation following FI binding. For both FI classes, reducing chemokine receptor levels on target cells or eliminating competent chemokine receptor-binding sites on Env trimers resulted in a loss of synergistic activity. These data imply that the stoichiometry required for CoRA/FI synergy exceeds that required for HIV-1 entry. Our analysis suggests two distinct roles for chemokine receptor binding, one to trigger formation of the FI-sensitive intermediate state and another to facilitate subsequent conformational transitions. Together, our results could explain the wide variety of previously reported activities for CoRA/FI combinations. These findings also have implications for the combined use of CoRAs and FIs in antiviral therapies and point to a multifaceted role for chemokine receptor binding in promoting HIV-1 entry.

Published

2018

42. Honing a harder-hitting hammerhead improves broadly neutralizing antibody breadth and potency

Author

George K. Lewis

Subjects

Models, Molecular, 0303 health sciences, Heavy chain, 030306 microbiology, Extramural, medicine.drug_class, Broadly neutralizing antibody, General Medicine, Complementarity determining region, HIV Antibodies, Biology, Monoclonal antibody, Complementarity Determining Regions, Virology, HIV Envelope Protein gp160, 3. Good health, Vaccination, 03 medical and health sciences, HIV-1, medicine, Humans, Potency, Software, Research Article, 030304 developmental biology

Abstract

Several HIV envelope-targeting (Env-targeting) antibodies with broad and potent neutralizing activity have been identified and shown to have unusual features. Of these, the PG9 antibody has a long heavy chain complementarity determining region 3 (HCDR3) and possesses unique structural elements that interact with protein and glycan features of the HIV Env glycoprotein. Here, we used the Rosetta software suite to design variants of the PG9 antibody HCDR3 loop with the goal of identifying variants with increased potency and breadth of neutralization for diverse HIV strains. One variant, designated PG9_N100FY, possessed increased potency and was able to neutralize a diverse set of PG9-resistant HIV strains, including those lacking the Env N160 glycan, which is critical for PG9 binding. An atomic resolution structure of the PG9_N100FY fragment antigen binding (Fab) confirmed that the mutated residue retains the paratope surface when compared with WT PG9. Differential scanning calorimetry experiments revealed that the mutation caused a modest increase in thermodynamic stability of the Fab, a feature predicted by the computational model. Our findings suggest that thermodynamic stabilization of the long HCDR3 in its active conformation is responsible for the increased potency of PG9_N100FY, and strategies aimed at stabilizing this region in other HIV antibodies could become an important approach to in silico optimization of antibodies.

Published

2015

43. In vitro assembly of a viral envelope

Author

Peter Cassidy, Penny Miles, Lynn Donlon, Daniel Frankel, and Orr Yarkoni

Subjects

chemistry.chemical_classification, Virus Assembly, viruses, Vesicle, Lipid Bilayers, General Chemistry, Biology, Microscopy, Atomic Force, Condensed Matter Physics, Gp41, Herpesvirus glycoprotein B, Virology, HIV Envelope Protein gp41, Virus, HIV Envelope Protein gp160, Capsid, chemistry, Viral envelope, HIV-1, Biophysics, Humans, Lipid bilayer, Glycoprotein

Abstract

Viruses such as influenza and Ebola are enveloped in lipid bilayers annexed from host cells and containing glycoproteins essential for the infection process. At the molecular level little is known about the assembly process in terms of physical interactions between the lipids and glycoproteins. In this paper we assemble HIV glycoproteins in lipid vesicles in order to examine envelope assembly, a process that is usually only executed under control of a host cell. Using atomic force microscopy it was possible to observe fusion of individual envelope like particles, and contrast this with the behaviour of lipid vesicles without envelope glycoproteins. It was found that the inclusion of glycoproteins caused the vesicles to distort and that the subsequent fusion "footprint" with a lipid bilayer was related to the envelopes' unique morphology. This non-spherical morphology suggests that the presence of a viral capsid may be essential for the stability of an enveloped virus. Interactions between trans-membrane gp41 and gp120, the spikes protruding from a virion, were examined using supported lipid bilayers. Interactions between the gp120 and membrane-located gp41 resulted in the assembly of unusual molecular wires, one molecule in height and with a zigzag arrangement of gp120 molecules. In this work we have shown that purely physical/chemical interactions have dramatic effects on glycoprotein/lipid assembly and should be considered in the development of virus based technologies such as virosomes.

Published

2015

44. HLA-B*14:02-Restricted Env-Specific CD8 + T-Cell Activity Has Highly Potent Antiviral Efficacy Associated with Immune Control of HIV Infection

Author

Ying Qi, James J. Goedert, David W. Haas, Maureen P. Martin, Huabiao Chen, M. H. Tsai, Jacques Fellay, Otto O. Yang, Steven M. Wolinsky, Philippa C Matthews, Philip J. R. Goulder, Christian B. Willberg, Jeremy J. Martinson, Mary Carrington, Søren Buus, Asier Sáez-Cirión, Fabian Chen, Jeffrey N. Martin, Steven G. Deeks, Ellen M. Leitman, Bruce D. Walker, Alicja Piechocka-Trocha, Lynn Riddell, University of Oxford [Oxford], Harvard Medical School [Boston] (HMS), Nuffield Department of Medicine [Oxford, UK] (Big Data Institute), Ragon Institute of MGH, MIT and Harvard, Massachusetts General Hospital [Boston], University of Copenhagen = Københavns Universitet (KU), Royal Berkshire Hospital, NHS Foundation Trust [London], The Royal Marsden, Vanderbilt University School of Medicine [Nashville], Ecole Polytechnique Fédérale de Lausanne (EPFL), National Cancer Institute [Bethesda] (NCI-NIH), National Institutes of Health [Bethesda] (NIH), University of KwaZulu-Natal (UKZN), University of California [San Francisco] (UCSF), University of California, Northwestern University Feinberg School of Medicine, University of Pittsburgh (PITT), Pennsylvania Commonwealth System of Higher Education (PCSHE), Frederick National Laboratory for Cancer Research (FNLCR), HIV, Inflammation et persistance, Institut Pasteur [Paris], University of California [Los Angeles] (UCLA), John Radcliffe Hospital [Oxford University Hospital], This work was funded by grants from the National Institutes of Health (RO1AI46995 to P.J.R.G.), the Wellcome Trust (WT104748MA to P.J.R.G.), NIHR research capability funding (to P.C.M.), and the Clarendon Fund (to E.M.L.). This project has been funded in whole or in part with federal funds from the Frederick National Laboratory for Cancer Research, under contract no. HHSN261200800001E (to M.C.). The MACS is funded primarily by the National Institute of Allergy and Infectious Diseases (NIAID), U01-AI35042 (Johns Hopkins University Bloomberg School of Public Health, Joseph Margolick, principal investigator [PI]), U01-AI35039 (Northwestern University, Steven Wolinsky, PI), U01-AI35040 (University of California, Los Angeles, Roger Detels and Oto Martinez, MPI), U01-AI35041 (University of Pittsburgh, Charles Rinaldo, PI), and UM1-AI35043 (Johns Hopkins University Bloomberg School of Public Health, Lisa Jacobson, PI)., University of Oxford, University of Copenhagen = Københavns Universitet (UCPH), University of KwaZulu-Natal [Durban, Afrique du Sud] (UKZN), University of California [San Francisco] (UC San Francisco), University of California (UC), HIV, Inflammation et persistance - HIV, Inflammation and Persistence, Institut Pasteur [Paris] (IP), and Kirchhoff, Frank

Subjects

0301 basic medicine, [SDV]Life Sciences [q-bio], HIV Infections, CD8-Positive T-Lymphocytes, Medical and Health Sciences, HIV Envelope Protein gp160, MESH: HIV-1, HLA-B14 Antigen, 0302 clinical medicine, Cytotoxic T cell, immune control, CD8(+) T cells, MESH: Peptides, MESH: HIV Infections, Biological Sciences, MESH: CD8-Positive T-Lymphocytes, MESH: gag Gene Products, Human Immunodeficiency Virus, 3. Good health, Infectious Diseases, HIV/AIDS, MESH: HLA-B14 Antigen, [SDV.IMM]Life Sciences [q-bio]/Immunology, Infection, Human Immunodeficiency Virus, Adult, Subdominant, Immunology, HLA-B*14, CD8 T cells, Immunodominance, Biology, CD8+ T cells, Microbiology, Virus, MESH: Immunity, Cellular, Vaccine Related, 03 medical and health sciences, Virology, Humans, Inflammatory and Immune System, Avidity, Vaccine Related (AIDS), gag Gene Products, MESH: Humans, Agricultural and Veterinary Sciences, Prevention, Immunity, HIV, MESH: Adult, MESH: HIV Envelope Protein gp160, CTL, Good Health and Well Being, 030104 developmental biology, Viral replication, Insect Science, HIV-1, Immunization, Cellular, Peptides, CD8, 030215 immunology

Abstract

Immune control of human immunodeficiency virus type 1 (HIV) infection is typically associated with effective Gag-specific CD8 + T-cell responses. We here focus on HLA-B*14, which protects against HIV disease progression, but the immunodominant HLA-B*14-restricted anti-HIV response is Env specific (ERYLKDQQL, HLA-B*14-EL9). A subdominant HLA-B*14-restricted response targets Gag (DRYFKTLRA, HLA-B*14-DA9). Using HLA-B*14/peptide-saporin-conjugated tetramers, we show that HLA-B*14-EL9 is substantially more potent at inhibiting viral replication than HLA-B*14-DA9. HLA-B*14-EL9 also has significantly higher functional avidity ( P < 0.0001) and drives stronger selection pressure on the virus than HLA-B*14-DA9. However, these differences were HLA-B*14 subtype specific, applying only to HLA-B*14:02 and not to HLA-B*14:01. Furthermore, the HLA-B*14-associated protection against HIV disease progression is significantly greater for HLA-B*14:02 than for HLA-B*14:01, consistent with the superior antiviral efficacy of the HLA-B*14-EL9 response. Thus, although Gag-specific CD8 + T-cell responses may usually have greater anti-HIV efficacy, factors independent of protein specificity, including functional avidity of individual responses, are also critically important to immune control of HIV. IMPORTANCE In HIV infection, although cytotoxic T lymphocytes (CTL) play a potentially critical role in eradication of viral reservoirs, the features that constitute an effective response remain poorly defined. We focus on HLA-B*14, unique among HLAs associated with control of HIV in that the dominant CTL response is Env specific, not Gag specific. We demonstrate that Env-specific HLA-B*14-restricted activity is substantially more efficacious than the subdominant HLA-B*14-restricted Gag response. Env immunodominance over Gag and strong Env-mediated selection pressure on HIV are observed only in subjects expressing HLA-B*14:02, and not HLA-B*14:01. This reflects the increased functional avidity of the Env response over Gag, substantially more marked for HLA-B*14:02. Finally, we show that HLA-B*14:02 is significantly more strongly associated with viremic control than HLA-B*14:01. These findings indicate that, although Gag-specific CTL may usually have greater anti-HIV efficacy than Env responses, factors independent of protein specificity, including functional avidity, may carry greater weight in mediating effective control of HIV.

Published

2017

45. Identification of Novel Structural Determinants in MW965 Env That Regulate the Neutralization Phenotype and Conformational Masking Potential of Primary HIV-1 Isolates

Author

William J. Honnen, Alok Choudhary, Abraham Pinter, Zakiya M. Qualls, James E. Robinson, and Raja Prattipati

Subjects

0301 basic medicine, medicine.drug_class, Protein Conformation, viruses, Immunology, Clone (cell biology), HIV Infections, HIV Antibodies, HIV Envelope Protein gp120, In Vitro Techniques, Monoclonal antibody, Microbiology, Genes, env, Epitope, Neutralization, HIV Envelope Protein gp160, 03 medical and health sciences, Epitopes, Neutralization Tests, Virology, medicine, Humans, Amino Acid Sequence, Primary isolate, Genetics, Primary (chemistry), biology, Drug Substitution, env Gene Products, Human Immunodeficiency Virus, virus diseases, Phenotype, Antibodies, Neutralizing, HIV Envelope Protein gp41, 030104 developmental biology, HEK293 Cells, Insect Science, Mutation, biology.protein, HIV-1, Pathogenesis and Immunity, Antibody

Abstract

The subtype C HIV-1 isolate MW965.26 is a highly neutralization-sensitive tier 1a primary isolate that is widely used in vaccine studies, but the basis for the sensitive neutralization phenotype of this isolate is not known. Substituting the MW965.26 V1/V2 domain into a neutralization-sensitive SF162 Env clone resulted in high resistance to standard anti-V3 monoclonal antibodies, demonstrating that this region possesses strong masking activity in a standard Env backbone and indicating that determinants elsewhere in MW965.26 Env are responsible for its unusual neutralization sensitivity. Key determinants for this phenotype were mapped by generating chimeric Envs between MW965.26 Env and a typical resistant Env clone, the consensus C (ConC) clone, and localized to two residues, Cys384 in the C3 domain and Asn502 in the C5 domain. Substituting the sensitizing mutations Y384C and K502N at these positions into several resistant primary Envs resulted in conversion to neutralization-sensitive phenotypes, demonstrating the generalizability of this effect. In contrast to the sensitizing effects of these substitutions on normally masked epitopes, these mutations reduced the sensitivity of VRC01-like epitopes overlapping the CD4-binding domain, while they had no effect on several other classes of broadly neutralizing epitopes, including members of several lineages of V2-dependent quaternary epitopes and representatives of N332 glycan-dependent epitopes (PGT121) and quaternary, cleavage-dependent epitopes centered at the gp41-gp120 interface on intact HIV-1 Env trimers (PGT151). These results identify novel substitutions in gp120 that regulate the expression of alternative conformations of Env and differentially affect the exposure of different classes of epitopes, thereby influencing the neutralization phenotype of primary HIV-1 isolates. IMPORTANCE A better understanding of the mechanisms that determine the wide range of neutralization sensitivity of circulating primary HIV-1 isolates would provide important information about the natural structural and conformational diversity of HIV-1 Env and how this affects the neutralization phenotype. A useful way of studying this is to determine the molecular basis for the unusually high neutralization sensitivities of the limited number of available tier 1a viruses. This study localized the neutralization sensitivity of MW965.26, an extremely sensitive subtype C-derived primary isolate, to two rare substitutions in the C3 and C5 domains and demonstrated that the sequences at these positions differentially affect the presentation of epitopes recognized by different classes of standard and conformation-dependent broadly neutralizing antibodies. These results provide novel insight into how these regions regulate the neutralization phenotype and provide tools for controlling the Env conformation that could have applications both for structural studies and in vaccine design.

Published

2017

46. Analysis of Select Herpes Simplex Virus 1 (HSV-1) Proteins for Restriction of Human Immunodeficiency Virus Type 1 (HIV-1): HSV-1 gM Protein Potently Restricts HIV-1 by Preventing Intracellular Transport and Processing of Env gp160

Author

Wyatt Henke, Edward B. Stephens, Ankita Pramanik, Sachith Polpitiya Arachchige, and Maria Kalamvoki

Subjects

0301 basic medicine, viruses, Immunology, Herpesvirus 1, Human, Biology, HIV Envelope Protein gp120, Protein Serine-Threonine Kinases, Gp41, medicine.disease_cause, Virus Replication, Microbiology, Virus, Cell Line, HIV Envelope Protein gp160, Viral Matrix Proteins, 03 medical and health sciences, Viral Proteins, Virology, Vaccines and Antiviral Agents, medicine, Humans, Glycoproteins, chemistry.chemical_classification, Viral matrix protein, Glycoprotein transport, Transport protein, Protein Transport, 030104 developmental biology, Herpes simplex virus, Viral replication, chemistry, Insect Science, Proteolysis, HIV-1, Microbial Interactions, Glycoprotein

Abstract

Virus-encoded proteins that impair or shut down specific host cell functions during replication can be used as probes to identify potential proteins/pathways used in the replication of viruses from other families. We screened nine proteins from herpes simplex virus 1 (HSV-1) for the ability to enhance or restrict human immunodeficiency virus type 1 (HIV-1) replication. We show that several HSV-1 proteins (glycoprotein M [gM], US3, and UL24) potently restricted the replication of HIV-1. Unlike UL24 and US3, which reduced viral protein synthesis, we observed that gM restriction of HIV-1 occurred through interference with the processing and transport of gp160, resulting in a significantly reduced level of mature gp120/gp41 released from cells. Finally, we show that an HSV-1 gM mutant lacking the majority of the C-terminal domain (HA-gM[Δ345-473]) restricted neither gp160 processing nor the release of infectious virus. These studies identify proteins from heterologous viruses that can restrict viruses through novel pathways. IMPORTANCE HIV-1 infection of humans results in AIDS, characterized by the loss of CD4 + T cells and increased susceptibility to opportunistic infections. Both HIV-1 and HSV-1 can infect astrocytes and microglia of the central nervous system (CNS). Thus, the identification of HSV-1 proteins that directly restrict HIV-1 or interfere with pathways required for HIV-1 replication could lead to novel antiretroviral strategies. The results of this study show that select viral proteins from HSV-1 can potently restrict HIV-1. Further, our results indicate that the gM protein of HSV-1 restricts HIV-1 through a novel pathway by interfering with the processing of gp160 and its incorporation into virus maturing from the cell.

Published

2017

47. Discovery and Characterization of a Novel CD4-Binding Adnectin with Potent Anti-HIV Activity

Author

Mark Krystal, Sharon Zhang, Caryn Picarillo, Thomas McDonagh, Jonathan H. Davis, David Fabrizio, Zhufang Li, David L. Wensel, Yongnian Sun, and Mark I. Cockett

Subjects

0301 basic medicine, Glycosylation, Anti-HIV Agents, Plasma protein binding, HIV Envelope Protein gp120, Gp41, Antiviral Agents, Epitope, Cell Line, HIV Envelope Protein gp160, Epitopes, 03 medical and health sciences, chemistry.chemical_compound, Viral entry, Humans, mRNA display, Pharmacology (medical), Pharmacology, Molecular biology, In vitro, Fibronectins, HEK293 Cells, 030104 developmental biology, Infectious Diseases, chemistry, Cell culture, CD4 Antigens, HIV-1, Cell Surface Display Techniques, Protein Binding

Abstract

A novel fibronectin-based protein (Adnectin) HIV-1 inhibitor was generated using in vitro selection. This inhibitor binds to human CD4 with a high affinity (3.9 nM) and inhibits viral entry at a step after CD4 engagement and preceding membrane fusion. The progenitor sequence of this novel inhibitor was selected from a library of trillions of Adnectin variants using mRNA display and then further optimized for improved antiviral and physical properties. The final optimized inhibitor exhibited full potency against a panel of 124 envelope (gp160) proteins spanning 11 subtypes, indicating broad-spectrum activity. Resistance profiling studies showed that this inhibitor required 30 passages (151 days) in culture to acquire sufficient resistance to result in viral titer breakthrough. Resistance mapped to the loss of multiple potential N-linked glycosylation sites in gp120, suggesting that inhibition is due to steric hindrance of CD4-binding-induced conformational changes.

Published

2017

48. Structure and topology around the cleavage site regulate post-translational cleavage of the HIV-1 gp160 signal peptide

Author

Ilja Bontjer, Ineke Braakman, IngMarie Nilsson, Matthias Quandte, Carolina Källgren, Aafke Land, Rogier W. Sanders, Erik L. Snapp, Nicholas McCaul, Zuzana Cabartova, Gunnar von Heijne, AII - Infectious diseases, Medical Microbiology and Infection Prevention, Amsterdam institute for Infection and Immunity, Sub Cellular Protein Chemistry, and Cellular Protein Chemistry

Subjects

0301 basic medicine, Signal peptide, Cleavage factor, Protein Conformation, QH301-705.5, Science, viruses, translocation, Target peptide, Protein Sorting Signals, Cleavage (embryo), General Biochemistry, Genetics and Molecular Biology, Cell Line, HIV Envelope Protein gp160, 03 medical and health sciences, Protein structure, Biochemistry and Chemical Biology, protein folding, Humans, signal peptide, Biology (General), General Immunology and Microbiology, Chemistry, General Neuroscience, Endoplasmic reticulum, HIV, virus diseases, Cell Biology, General Medicine, 3. Good health, Protein Transport, endoplasmic reticulum, 030104 developmental biology, gp160, Proteolysis, HIV-1, Biophysics, Medicine, Protein folding, Alpha helix, Research Article, Human

Abstract

Like all other secretory proteins, the HIV-1 envelope glycoprotein gp160 is targeted to the endoplasmic reticulum (ER) by its signal peptide during synthesis. Proper gp160 folding in the ER requires core glycosylation, disulfide-bond formation and proline isomerization. Signal-peptide cleavage occurs only late after gp160 chain termination and is dependent on folding of the soluble subunit gp120 to a near-native conformation. We here detail the mechanism by which co-translational signal-peptide cleavage is prevented. Conserved residues from the signal peptide and residues downstream of the canonical cleavage site form an extended alpha-helix in the ER membrane, which covers the cleavage site, thus preventing cleavage. A point mutation in the signal peptide breaks the alpha helix allowing co-translational cleavage. We demonstrate that postponed cleavage of gp160 enhances functional folding of the molecule. The change to early cleavage results in decreased viral fitness compared to wild-type HIV.

Published

2017

49. HLA-B*14:02-Restricted Env-Specific CD8

Author

Ellen M, Leitman, Christian B, Willberg, Ming-Han, Tsai, Huabiao, Chen, Søren, Buus, Fabian, Chen, Lynn, Riddell, David, Haas, Jacques, Fellay, James J, Goedert, Alicja, Piechocka-Trocha, Bruce D, Walker, Jeffrey, Martin, Steven, Deeks, Steven M, Wolinsky, Jeremy, Martinson, Maureen, Martin, Ying, Qi, Asier, Sáez-Cirión, Otto O, Yang, Philippa C, Matthews, Mary, Carrington, and Philip J R, Goulder

Subjects

Adult, Immunity, Cellular, immune control, HLA-B*14, HIV, HIV Infections, CD8-Positive T-Lymphocytes, CD8+ T cells, gag Gene Products, Human Immunodeficiency Virus, HIV Envelope Protein gp160, HLA-B14 Antigen, HIV-1, Humans, Pathogenesis and Immunity, Peptides

Abstract

Immune control of human immunodeficiency virus type 1 (HIV) infection is typically associated with effective Gag-specific CD8+ T-cell responses. We here focus on HLA-B*14, which protects against HIV disease progression, but the immunodominant HLA-B*14-restricted anti-HIV response is Env specific (ERYLKDQQL, HLA-B*14-EL9). A subdominant HLA-B*14-restricted response targets Gag (DRYFKTLRA, HLA-B*14-DA9). Using HLA-B*14/peptide-saporin-conjugated tetramers, we show that HLA-B*14-EL9 is substantially more potent at inhibiting viral replication than HLA-B*14-DA9. HLA-B*14-EL9 also has significantly higher functional avidity (P < 0.0001) and drives stronger selection pressure on the virus than HLA-B*14-DA9. However, these differences were HLA-B*14 subtype specific, applying only to HLA-B*14:02 and not to HLA-B*14:01. Furthermore, the HLA-B*14-associated protection against HIV disease progression is significantly greater for HLA-B*14:02 than for HLA-B*14:01, consistent with the superior antiviral efficacy of the HLA-B*14-EL9 response. Thus, although Gag-specific CD8+ T-cell responses may usually have greater anti-HIV efficacy, factors independent of protein specificity, including functional avidity of individual responses, are also critically important to immune control of HIV. IMPORTANCE In HIV infection, although cytotoxic T lymphocytes (CTL) play a potentially critical role in eradication of viral reservoirs, the features that constitute an effective response remain poorly defined. We focus on HLA-B*14, unique among HLAs associated with control of HIV in that the dominant CTL response is Env specific, not Gag specific. We demonstrate that Env-specific HLA-B*14-restricted activity is substantially more efficacious than the subdominant HLA-B*14-restricted Gag response. Env immunodominance over Gag and strong Env-mediated selection pressure on HIV are observed only in subjects expressing HLA-B*14:02, and not HLA-B*14:01. This reflects the increased functional avidity of the Env response over Gag, substantially more marked for HLA-B*14:02. Finally, we show that HLA-B*14:02 is significantly more strongly associated with viremic control than HLA-B*14:01. These findings indicate that, although Gag-specific CTL may usually have greater anti-HIV efficacy than Env responses, factors independent of protein specificity, including functional avidity, may carry greater weight in mediating effective control of HIV.

Published

2017

50. Design and In Vivo Characterization of Immunoconjugates Targeting HIV gp160

Author

Coyne Cp, Seth H. Pincus, Dean H. Hamer, Gang Chen, Anderson Frank, Deborah T. Weiss, Victor Ghetie, Ellen S. Vitetta, Grace A. Maresh, James E. Robinson, Kejing Song, Shiu Lok Hu, David K. Worthylake, Patricia Polacino, John W. Marks, Michael G. Rosenblum, and Hye Kyung Chung

Subjects

0301 basic medicine, Antibody-drug conjugate, Immunoconjugates, Anti-HIV Agents, medicine.drug_class, Immunology, HIV Infections, Biology, Gp41, Monoclonal antibody, Microbiology, HIV Envelope Protein gp160, Polyethylene Glycols, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, In vivo, Immunotoxin, Virology, Vaccines and Antiviral Agents, medicine, Animals, Humans, Cytotoxic T cell, Cells, Cultured, Immunotoxins, Immunogenicity, Antibodies, Monoclonal, Disease Models, Animal, 030104 developmental biology, Ricin, chemistry, Drug Design, Insect Science, HIV-1, Macaca nemestrina, 030215 immunology

Abstract

The envelope (Env) glycoprotein of HIV is expressed on the surface of productively infected cells and can be used as a target for cytotoxic immunoconjugates (ICs), in which cell-killing moieties, including toxins, drugs, or radionuclides, are chemically or genetically linked to monoclonal antibodies (MAbs) or other targeting ligands. Such ICs could be used to eliminate persistent reservoirs of HIV infection. We have found that MAbs which bind to the external loop of gp41, e.g., MAb 7B2, make highly effective ICs, particularly when used in combination with soluble CD4. We evaluated the toxicity, immunogenicity, and efficacy of the ICs targeted with 7B2 in mice and in simian-human immunodeficiency virus-infected macaques. In the macaques, we tested immunotoxins (ITs), consisting of protein toxins bound to the targeting agent. ITs were well tolerated and initially efficacious but were ultimately limited by their immunogenicity. In an effort to decrease immunogenicity, we tested different toxic moieties, including recombinant toxins, cytotoxic drugs, and tubulin inhibitors. ICs containing deglycosylated ricin A chain prepared from ricin toxin extracted from castor beans were the most effective in killing HIV-infected cells. Having identified immunogenicity as a major concern, we show that conjugation of IT to polyethylene glycol limits immunogenicity. These studies demonstrate that cytotoxic ICs can target virus-infected cells in vivo but also highlight potential problems to be addressed. IMPORTANCE It is not yet possible to cure HIV infection. Even after years of fully effective antiviral therapy, a persistent reservoir of virus-infected cells remains. Here we propose that a targeted conjugate consisting of an anti-HIV antibody bound to a toxic moiety could function to kill the HIV-infected cells that constitute this reservoir. We tested this approach in HIV-infected cells grown in the lab and in animal infections. Our studies demonstrated that these immunoconjugates are effective both in vitro and in test animals. In particular, ITs constructed with the deglycosylated A chain prepared from native ricin were the most effective in killing cells, but their utility was blunted because they provoked immune reactions that interfered with the therapeutic effects. We then demonstrated that coating of the ITs with polyethylene glycol minimized the immunogenicity, as has been demonstrated with other protein therapies.

Published

2017