Your search keyword '"Philip Barnette"' showing total 7 results

1. Phagocytosis by an HIV antibody is associated with reduced viremia irrespective of enhanced complement lysis

Author

David A. Spencer, Benjamin S. Goldberg, Shilpi Pandey, Tracy Ordonez, Jérémy Dufloo, Philip Barnette, William F. Sutton, Heidi Henderson, Rebecca Agnor, Lina Gao, Timothée Bruel, Olivier Schwartz, Nancy L. Haigwood, Margaret E. Ackerman, Ann J. Hessell, Oregon National Primate Research Center (ONPRC), Oregon Health and Science University [Portland] (OHSU), Dartmouth College [Hanover], Virus et Immunité - Virus and immunity (CNRS-UMR3569), Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), École Doctorale Bio Sorbonne Paris Cité [Paris] (ED562 - BioSPC), Université Sorbonne Paris Cité (USPC)-Université Paris Cité (UPCité), Vaccine Research Institute [Créteil, France] (VRI), Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12), This work was supported by the following grants: R01 AI129801 (A.J.H.), P51 OD011092, and U42 OD023038-03, We thank Diane Kubitz and Jonathan Otsuji at The Scripps Research Institute Antibody Production Core facility for antibody production, Christina Corbaci for assistance with figure design and production, David Evans for providing the CD4+CCR5+ NKR24 and KHYG-1 NK cell lines, and the NIH/NIAID Vaccine Research Center for the expression plasmid for 10E8v4 and the anti-10E8 mAb 2D1. We acknowledge the NIH AIDS Reagent Program for providing the following reagents: anti-HIV-1 Env mAb b12 (ARP-2640), TZM-bl cells with FcRs (ARP-11796, ARP-11797, ARP-11798), SIVmac239 gag pooled peptides (ARP-12364), and SHIVSF162P3 virus stock (ARP-6526)., Virus et Immunité - Virus and immunity, Institut Pasteur [Paris]-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), and Vaccine Research Institute (VRI)

Subjects

Male, Science, Simian Acquired Immunodeficiency Syndrome, General Physics and Astronomy, HIV Infections, HIV Antibodies, General Biochemistry, Genetics and Molecular Biology, Phagocytosis, Cell Line, Tumor, Animals, Humans, Viremia, Multidisciplinary, Antibody-Dependent Cell Cytotoxicity, virus diseases, Complement System Proteins, General Chemistry, Macaca mulatta, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, HIV-1, Leukocytes, Mononuclear, Cytokines, Female, Simian Immunodeficiency Virus, Broadly Neutralizing Antibodies

Abstract

Increasingly, antibodies are being used to treat and prevent viral infections. In the context of HIV, efficacy is primarily attributed to dose-dependent neutralization potency and to a lesser extent Fc-mediated effector functions. It remains unclear whether augmenting effector functions of broadly neutralizing antibodies (bNAbs) may improve their clinical potential. Here, we use bNAb 10E8v4 targeting the membrane external proximal region (MPER) to examine the role of antibody-mediated effector and complement (C’) activity when administered prophylactically against SHIV challenge in rhesus macaques. With sub-protective dosing, we find a 78–88% reduction in post-acute viremia that is associated with 10E8v4-mediated phagocytosis acting at the time of challenge. Neither plasma nor tissue viremic outcomes in vivo is improved with an Fc-modified variant of 10E8v4 enhanced for C’ functions as determined in vitro. These results suggest that effector functions inherent to unmodified 10E8v4 contribute to efficacy against SHIVSF162P3 in the absence of plasma neutralizing titers, while C’ functions are dispensable in this setting, informing design of bNAb modifications for improving protective efficacy., This work was supported by the following grants: R01 AI129801 (A.J.H.), P51 OD011092, and U42 OD023038-03.

Published

2022

2. Polyfunctional Tier 2–Neutralizing Antibodies Cloned following HIV-1 Env Macaque Immunization Mirror Native Antibodies in a Human Donor

Author

Philip Barnette, Benjamin S. Goldberg, Margaret E. Ackerman, Tracy Cheever, Gunilla B. Karlsson Hedestam, Heidi Henderson, William F. Sutton, Ann J. Hessell, James J. Kobie, Shilpi Pandey, D. Noah Sather, David A. Spencer, Nancy L. Haigwood, Delphine C. Malherbe, Monika Adori, Nicholas Dambrauskas, and Néstor Vázquez Bernat

Subjects

THP-1 Cells, Immunology, Immunoglobulin Variable Region, Somatic hypermutation, HIV Infections, HIV Antibodies, Gp41, Macaque, Neutralization, Epitope, Cell Line, Affinity maturation, Epitopes, 03 medical and health sciences, 0302 clinical medicine, Viral Envelope Proteins, Viral envelope, biology.animal, Animals, Humans, Immunology and Allergy, Immunotherapy and Vaccines, AIDS Vaccines, Binding Sites, biology, Vaccination, env Gene Products, Human Immunodeficiency Virus, Antibodies, Monoclonal, Antibodies, Neutralizing, Macaca mulatta, Virology, HIV-1, biology.protein, Immunization, Antibody, 030215 immunology

Abstract

Vaccine efforts to combat HIV are challenged by the global diversity of viral strains and shielding of neutralization epitopes on the viral envelope glycoprotein trimer. Even so, the isolation of broadly neutralizing Abs from infected individuals suggests the potential for eliciting protective Abs through vaccination. This study reports a panel of 58 mAbs cloned from a rhesus macaque (Macaca mulatta) immunized with envelope glycoprotein immunogens curated from an HIV-1 clade C–infected volunteer. Twenty mAbs showed neutralizing activity, and the strongest neutralizer displayed 92% breadth with a median IC50 of 1.35 μg/ml against a 13-virus panel. Neutralizing mAbs predominantly targeted linear epitopes in the V3 region in the cradle orientation (V3C) with others targeting the V3 ladle orientation (V3L), the CD4 binding site (CD4bs), C1, C4, or gp41. Nonneutralizing mAbs bound C1, C5, or undetermined conformational epitopes. Neutralization potency strongly correlated with the magnitude of binding to infected primary macaque splenocytes and to the level of Ab-dependent cellular cytotoxicity, but did not predict the degree of Ab-dependent cellular phagocytosis. Using an individualized germline gene database, mAbs were traced to 23 of 72 functional IgHV alleles. Neutralizing V3C Abs displayed minimal nucleotide somatic hypermutation in the H chain V region (3.77%), indicating that relatively little affinity maturation was needed to achieve in-clade neutralization breadth. Overall, this study underscores the polyfunctional nature of vaccine-elicited tier 2–neutralizing V3 Abs and demonstrates partial reproduction of the human donor’s humoral immune response through nonhuman primate vaccination.

Published

2021

3. Differential V2-directed antibody responses in non-human primates infected with SHIVs or immunized with diverse HIV vaccines

Author

Svenja Weiss, Vincenza Itri, Ruimin Pan, Xunqing Jiang, Christina C. Luo, Lynn Morris, Delphine C. Malherbe, Philip Barnette, Jeff Alexander, Xiang-Peng Kong, Nancy L. Haigwood, Ann J. Hessell, Ralf Duerr, and Susan Zolla-Pazner

Subjects

AIDS Vaccines, Male, Multidisciplinary, animal diseases, viruses, Vaccination, Simian Acquired Immunodeficiency Syndrome, Antibodies, Monoclonal, virus diseases, General Physics and Astronomy, General Chemistry, HIV Antibodies, HIV Envelope Protein gp120, Macaca mulatta, General Biochemistry, Genetics and Molecular Biology, Epitopes, HIV-1, Animals, Female, Simian Immunodeficiency Virus

Abstract

V2p and V2i antibodies (Abs) that are specific for epitopes in the V1V2 region of the HIV gp120 envelope (Env) do not effectively neutralize HIV but mediate Fc-dependent anti-viral activities that have been correlated with protection from, or control of HIV, SIV and SHIV infection. Here, we describe a novel molecular toolbox that allows the discrimination of antigenically and functionally distinct polyclonal V2 Ab responses. We identified different patterns of V2 Ab induction by SHIV infection and three separate vaccine regimens that will aid in fine tuning an optimized immunization protocol for inducing V2p and V2i Abs. We observed no, or weak and sporadic V2p and V2i Abs in non-vaccinated Tier 1 and Tier 2 SHIV-infected NHPs, but in contrast, strong V2p and/or V2i Ab responses after immunization with a V2-targeting vaccine protocol using a prime/boost regimen with gp120 DNA and a V1V2-scaffold protein. The V2-targeting vaccine protocol is superior to both natural infection and to immunization with whole Env constructs for inducing functional V2p- and V2i-specific responses. Strikingly, levels of V2-directed Abs correlated inversely with Abs specific for gp120 and peptides of V3 and C5. These data demonstrate that a V1V2-targeting vaccine have advantages over the imprecise targeting of SIV/SHIV infections and of whole Env-based immunization regimens for inducing a more focused functional V2p- and V2i-specific Ab response.

Published

2022

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. Virus Control in Vaccinated Rhesus Macaques Is Associated with Neutralizing and Capturing Antibodies against the SHIV Challenge Virus but Not with V1V2 Vaccine-Induced Anti-V2 Antibodies Alone

Author

Delphine C. Malherbe, David A. Spencer, Nancy L. Haigwood, Ralf Duerr, Liuzhe Li, Yongzhao Shao, Ruth Hunegnaw, Marjorie Robert-Guroff, Xunqing Jiang, Miroslaw K. Gorny, Ann J. Hessell, Xiao-Hong Wang, Johannes S. Gach, Christina C. Luo, Philip Barnette, David C. Montefiori, William F. Sutton, Donald N. Forthal, Shilpi Pandey, Celia C. LaBranche, and Michael Tuen

Subjects

Male, viruses, Simian Acquired Immunodeficiency Syndrome, Peptide, HIV Infections, Antibodies, Viral, Immunogenicity, Vaccine, 0302 clinical medicine, Immunology and Allergy, Viral, Neutralizing, chemistry.chemical_classification, AIDS Vaccines, biology, Simian immunodeficiency virus, virus diseases, Viral Load, Immunogenicity, Titer, Infectious Diseases, HIV/AIDS, Simian Immunodeficiency Virus, Female, Antibody, Infection, Viral load, Biotechnology, Phagocytosis, Immunology, Heterologous, Article, Virus, Antibodies, Vaccine Related, 03 medical and health sciences, Animals, Humans, Gene Products, Vaccine Related (AIDS), env, Animal, Prevention, Vaccine trial, Antibody-Dependent Cell Cytotoxicity, Gene Products, env, Antibodies, Neutralizing, Virology, Macaca mulatta, Disease Models, Animal, Good Health and Well Being, chemistry, Disease Models, biology.protein, Immunization, Vaccine, 030215 immunology

Abstract

The role of vaccine-induced anti-V2 Abs was tested in three protection experiments in rhesus macaques. In an experiment using immunogens similar to those in the RV144 vaccine trial (Anti-envelope [Env]), nine rhesus macaques were coimmunized with gp16092TH023 DNA and SIV gag and gp120A244 and gp120MN proteins. In two V2-focused experiments (Anti-V2 and Anti-V2 Mucosal), nine macaques in each group were immunized with V1V292TH023 DNA, V1V2A244 and V1V2CasaeA2 proteins, and cyclic V2CaseA2 peptide. DNA and protein immunogens, formulated in Adjuplex, were given at 0, 4, 12, and 20 weeks, followed by intrarectal SHIVBaL.P4 challenges. Peak plasma viral loads (PVL) of 106–107 copies/ml developed in all nine sham controls. Overall, PVL was undetectable in one third of immunized macaques, and two animals tightly controlled the virus with the Anti-V2 Mucosal vaccine strategy. In the Anti-Env study, Abs that captured or neutralized SHIVBaL.P4 inversely correlated with PVL. Conversely, no correlation with PVL was found in the Anti-V2 experiments with nonneutralizing plasma Abs that only captured virus weakly. Titers of Abs against eight V1V2 scaffolds and cyclic V2 peptides were comparable between controllers and noncontrollers as were Ab-dependent cellular cytotoxicity and Ab-dependent cell-mediated virus inhibition activities against SHIV-infected target cells and phagocytosis of gp120-coated beads. The Anti-Env experiment supports the role of vaccine-elicited neutralizing and nonneutralizing Abs in control of PVL. However, the two V2-focused experiments did not support a role for nonneutralizing V2 Abs alone in controlling PVL, as neither Ab-dependent cellular cytotoxicity, Ab-dependent cell-mediated virus inhibition, nor phagocytosis correlated inversely with heterologous SHIVBaL.P4 infection.

Published

2021

6. Divergent HIV-1-Directed Immune Responses Generated by Systemic and Mucosal Immunization with Replicating Single-Cycle Adenoviruses in Rhesus Macaques

Author

Pramod N. Nehete, Kathryn A. Shelton, Guojun Yang, Stephanie S. Anguiano-Zarate, Ann J. Hessell, Philip Barnette, Michael A. Barry, William E. Matchett, Stephanie Dorta-Estremera, Francois Villinger, Peng Xiao, K. Jagannadha Sastry, Bharti P. Nehete, Siddappa N. Byrareddy, and Nancy L. Haigwood

Subjects

animal diseases, Immunology, HIV Infections, chemical and pharmacologic phenomena, Biology, Antibodies, Viral, Injections, Intramuscular, Microbiology, Virus, Adenoviridae, 03 medical and health sciences, 0302 clinical medicine, Immune system, Virology, Vaccines and Antiviral Agents, Animals, 030212 general & internal medicine, Immunity, Mucosal, Administration, Intranasal, 030304 developmental biology, AIDS Vaccines, Antibody-dependent cell-mediated cytotoxicity, 0303 health sciences, Vaccination, SAIDS Vaccines, Antibody titer, Gene Products, env, T-Lymphocytes, Helper-Inducer, Viral Load, biochemical phenomena, metabolism, and nutrition, Macaca mulatta, Immunity, Innate, Immunization, Insect Science, HIV-1, biology.protein, Simian Immunodeficiency Virus, Antibody, Viral load

Abstract

Most human immunodeficiency virus type 1 (HIV-1) infections begin at mucosal surfaces. Providing a barrier of protection at these may assist in combating the earliest events in infection. Systemic immunization by intramuscular (i.m.) injection can drive mucosal immune responses, but there are data suggesting that mucosal immunization can better educate these mucosal immune responses. To test this, rhesus macaques were immunized with replicating single-cycle adenovirus (SC-Ad) vaccines expressing clade B HIV-1 gp160 by the intranasal (i.n.) and i.m. routes to compare mucosal and systemic routes of vaccination. SC-Ad vaccines generated significant circulating antibody titers against Env after a single i.m. immunization. Switching the route of second immunization with the same SC-Ad serotype allowed a significant boost in these antibody levels. When these animals were boosted with envelope protein, envelope-binding antibodies were amplified 100-fold, but qualitatively different immune responses were generated. Animals immunized by only the i.m. route had high peripheral T follicular helper (pTfh) cell counts in blood but low Tfh cell counts in lymph nodes. Conversely, animals immunized by the i.n. route had high Tfh cell counts in lymph nodes but low pTfh cell counts in the blood. Animals immunized by only the i.m. route had lower antibody-dependent cellular cytotoxicity (ADCC) antibody activity, whereas animals immunized by the mucosal i.n. route had higher ADCC antibody activity. When these Env-immunized animals were challenged rectally with simian-human immunodeficiency virus (SHIV) strain SF162P3 (SHIV(SF162P3)), they all became infected. However, mucosally SC-Ad-immunized animals had lower viral loads in their gastrointestinal tracts. These data suggest that there may be benefits in educating the immune system at mucosal sites during HIV vaccination. IMPORTANCE HIV-1 infections usually start at a mucosal surface after sexual contact. Creating a barrier of protection at these mucosal sites may be a good strategy for to protect against HIV-1 infections. While HIV-1 enters at mucosa, most vaccines are not delivered here. Most are instead injected into the muscle, a site well distant and functionally different than mucosal tissues. This study tested if delivering HIV vaccines at mucosa or in the muscle makes a difference in the quality, quantity, and location of immune responses against the virus. These data suggest that there are indeed advantages to educating the immune system at mucosal sites with an HIV-1 vaccine.

Published

2019

7. Combination Adenovirus and Protein Vaccines Prevent Infection or Reduce Viral Burden after Heterologous Clade C Simian-Human Immunodeficiency Virus Mucosal Challenge

Author

Lo Vang, Marc Gurwith, Alfred W. Legasse, James M. Wilson, Jason S. Reed, Hua-Xin Liao, Samir K. Lakhashe, James H. McLinden, Delphine C. Malherbe, Nancy L. Haigwood, Ruth M. Ruprecht, Jack T. Stapleton, Joshua Owuor, Byung Park, Jonah B. Sacha, Michael K. Axthelm, Donald N. Forthal, Barton F. Haynes, Philip Barnette, Johannes S. Gach, Jonathan M. Smith, Jason Mendy, Jinhua Xiang, Celia C. LaBranche, David C. Montefiori, Jeff Alexander, and Silvestri, Guido

Subjects

0301 basic medicine, Male, Cellular immunity, and promotion of well-being, HIV vaccine, viruses, T-Lymphocytes, Simian Acquired Immunodeficiency Syndrome, Kaplan-Meier Estimate, Antibodies, Viral, Medical and Health Sciences, Viral Envelope Proteins, Antibody Specificity, vaccine, Vector (molecular biology), Viral, correlate of protection, Neutralizing, V1V2-specific antibody, Vaccines, Synthetic, Vaccines, SAIDS Vaccines, Simian immunodeficiency virus, adenovirus vector, Humoral, neutralizing antibody, adenovirus, Viral Load, Biological Sciences, Infectious Diseases, 3.4 Vaccines, HIV/AIDS, Simian Immunodeficiency Virus, Infection, Viral load, Protein Binding, Biotechnology, Genotype, Immunology, Genetic Vectors, Viremia, Biology, Microbiology, Virus, Antibodies, Viral vector, Cell Line, Adenoviridae, Vaccine Related, 03 medical and health sciences, Immunity, Virology, Vaccines and Antiviral Agents, medicine, SHIV challenge, Animals, Humans, Vaccine Related (AIDS), simian human immunodeficiency virus, Agricultural and Veterinary Sciences, Prevention, Synthetic, HIV, medicine.disease, Prevention of disease and conditions, Antibodies, Neutralizing, Macaca mulatta, Immunity, Humoral, CD4 Lymphocyte Count, 030104 developmental biology, Good Health and Well Being, Insect Science, Immunization, rhesus macaque

Abstract

HIV vaccine development is focused on designing immunogens and delivery methods that elicit protective immunity. We evaluated a combination of adenovirus (Ad) vectors expressing HIV 1086.C (clade C) envelope glycoprotein (Env), SIV Gag p55, and human pegivirus GBV-C E2 glycoprotein. We compared replicating simian (SAd7) with nonreplicating human (Ad4) adenovirus-vectored vaccines paired with recombinant proteins in a novel prime-boost regimen in rhesus macaques, with the goal of eliciting protective immunity against SHIV challenge. In both vaccine groups, plasma and buccal Env-specific IgG, tier 1 heterologous neutralizing antibodies, and antibody-dependent cell-mediated viral inhibition were readily generated. High Env-specific T cell responses elicited in all vaccinees were significantly greater than responses targeting Gag. After three intrarectal exposures to heterologous tier 1 clade C SHIV, all 10 sham-vaccinated controls were infected, whereas 4/10 SAd7- and 3/10 Ad4-vaccinated macaques remained uninfected or maintained tightly controlled plasma viremia. Time to infection was significantly delayed in SAd7-vaccinated macaques compared to the controls. Cell-associated and plasma virus levels were significantly lower in each group of vaccinated macaques compared to controls; the lowest plasma viral burden was found in animals vaccinated with the SAd7 vectors, suggesting superior immunity conferred by the replicating simian vectors. Furthermore, higher V1V2-specific binding antibody titers correlated with viral control in the SAd7 vaccine group. Thus, recombinant Ad plus protein vaccines generated humoral and cellular immunity that was effective in either protecting from SHIV acquisition or significantly reducing viremia in animals that became infected, consequently supporting additional development of replicating Ad vectors as HIV vaccines. IMPORTANCE There is a well-acknowledged need for an effective AIDS vaccine that protects against HIV infection and limits in vivo viral replication and associated pathogenesis. Although replicating virus vectors have been advanced as HIV vaccine platforms, there have not been any direct comparisons of the replicating to the nonreplicating format. The present study directly compared the replicating SAd7 to nonreplicating Ad4 vectors in macaques and demonstrated that in the SAd7 vaccine group, the time to infection was significantly delayed compared to the control group, and V1V2 Env-specific binding antibodies correlated with viral outcomes. Viral control was significantly enhanced in vaccinated macaques compared to controls, and in infected SAd7-vaccinated macaques compared to Ad4-vaccinated macaques, suggesting that this vector may have conferred more effective immunity. Because blocking infection is so difficult with current vaccines, development of a vaccine that can limit viremia if infection occurs would be valuable. These data support further development of replicating adenovirus vectors.

Published

2018