Your search keyword '"Marovich M"' showing total 8 results

1. Modulation of Vaccine-Induced CD4 T Cell Functional Profiles by Changes in Components of HIV Vaccine Regimens in Humans.

Author

Pissani F, Schulte B, Eller MA, Schultz BT, Ratto-Kim S, Marovich M, Thongcharoen P, Sriplienchan S, Rerks-Ngarm S, Pitisuttithum P, Esser S, Alter G, Robb ML, Kim JH, Michael NL, and Streeck H

Subjects

AIDS Vaccines genetics, Antibodies, Neutralizing immunology, CD8-Positive T-Lymphocytes drug effects, CD8-Positive T-Lymphocytes virology, Cells, Cultured, HIV Infections immunology, HIV Infections virology, HIV-1 drug effects, HIV-1 genetics, Humans, Vaccination, AIDS Vaccines classification, AIDS Vaccines immunology, CD8-Positive T-Lymphocytes immunology, HIV Antibodies immunology, HIV Envelope Protein gp120 immunology, HIV Infections prevention & control, HIV-1 immunology

Abstract

To date, six vaccine strategies have been evaluated in clinical trials for their efficacy at inducing protective immune responses against HIV infection. However, only the ALVAC-HIV/AIDSVAX B/E vaccine (RV144 trial) has demonstrated protection, albeit modestly (31%; P = 0.03). One potential correlate of protection was a low-frequency HIV-specific CD4 T cell population with diverse functionality. Although CD4 T cells, particularly T follicular helper (Tfh) cells, are critical for effective antibody responses, most studies involving HIV vaccines have focused on humoral immunity or CD8 T cell effector responses, and little is known about the functionality and frequency of vaccine-induced CD4 T cells. We therefore assessed responses from several phase I/II clinical trials and compared them to responses to natural HIV-1 infection. We found that all vaccines induced a lower magnitude of HIV-specific CD4 T cell responses than that observed for chronic infection. Responses differed in functionality, with a CD40 ligand (CD40L)-dominated response and more Tfh cells after vaccination, whereas chronic HIV infection provoked tumor necrosis factor alpha (TNF-α)-dominated responses. The vaccine delivery route further impacted CD4 T cells, showing a stronger Th1 polarization after dendritic cell delivery than after intramuscular vaccination. In prime/boost regimens, the choice of prime and boost influenced the functional profile of CD4 T cells to induce more or less polyfunctionality. In summary, vaccine-induced CD4 T cell responses differ remarkably between vaccination strategies, modes of delivery, and boosts and do not resemble those induced by chronic HIV infection. Understanding the functional profiles of CD4 T cells that best facilitate protective antibody responses will be critical if CD4 T cell responses are to be considered a clinical trial go/no-go criterion. IMPORTANCE Only one HIV-1 candidate vaccine strategy has shown protection, albeit marginally (31%), against HIV-1 acquisition, and correlates of protection suggested that a multifunctional CD4 T cell immune response may be important for this protective effect. Therefore, the functional phenotypes of HIV-specific CD4 T cell responses induced by different phase I and phase II clinical trials were assessed to better show how different vaccine strategies influence the phenotype and function of HIV-specific CD4 T cell immune responses. The significance of this research lies in our comprehensive comparison of the compositions of the T cell immune responses to different HIV vaccine modalities. Specifically, our work allows for the evaluation of vaccination strategies in terms of their success at inducing Tfh cell populations., (Copyright © 2018 American Society for Microbiology.)

Published

2018

2. Differential Inhibitory Receptor Expression on T Cells Delineates Functional Capacities in Chronic Viral Infection.

Author

Teigler JE, Zelinskyy G, Eller MA, Bolton DL, Marovich M, Gordon AD, Alrubayyi A, Alter G, Robb ML, Martin JN, Deeks SG, Michael NL, Dittmer U, and Streeck H

Subjects

Animals, Antibodies administration & dosage, Antibodies pharmacology, CD4-Positive T-Lymphocytes drug effects, CD4-Positive T-Lymphocytes virology, CTLA-4 Antigen antagonists & inhibitors, CTLA-4 Antigen genetics, CTLA-4 Antigen immunology, Costimulatory and Inhibitory T-Cell Receptors drug effects, Cytokines biosynthesis, Cytokines drug effects, Enterotoxins pharmacology, Friend murine leukemia virus physiology, HIV Infections virology, Humans, Interferon-gamma biosynthesis, Mice, Programmed Cell Death 1 Receptor antagonists & inhibitors, Programmed Cell Death 1 Receptor genetics, Programmed Cell Death 1 Receptor immunology, Retroviridae Infections immunology, Tumor Necrosis Factor-alpha biosynthesis, CD4-Positive T-Lymphocytes immunology, Costimulatory and Inhibitory T-Cell Receptors antagonists & inhibitors, Costimulatory and Inhibitory T-Cell Receptors genetics, Gene Expression, HIV Infections immunology

Abstract

Inhibitory receptors have been extensively described for their importance in regulating immune responses in chronic infections and cancers. Blocking the function of inhibitory receptors such as PD-1, CTLA-4, 2B4, Tim-3, and LAG-3 has shown promise for augmenting CD8 T cell activity and boosting pathogen-specific immunity. However, the prevalence of inhibitory receptors on CD4 T cells and their relative influence on CD4 T cell functionality in chronic HIV infection remains poorly described. We therefore determined and compared inhibitory receptor expression patterns of 2B4, CTLA-4, LAG-3, PD-1, and Tim-3 on virus-specific CD4 and CD8 T cells in relation to their functional T cell profile. In chronic HIV infection, inhibitory receptor distribution differed markedly between cytokine-producing T cell subsets with, gamma interferon (IFN-γ)- and tumor necrosis factor alpha (TNF-α)-producing cells displaying the highest and lowest prevalence of inhibitory receptors, respectively. Blockade of inhibitory receptors differentially affected cytokine production by cells in response to staphylococcal enterotoxin B stimulation. CTLA-4 blockade increased IFN-γ and CD40L production, while PD-1 blockade strongly augmented IFN-γ, interleukin-2 (IL-2), and TNF-α production. In a Friend retrovirus infection model, CTLA-4 blockade in particular was able to improve control of viral replication. Together, these results show that inhibitory receptor distribution on HIV-specific CD4 T cells varies markedly with respect to the functional subset of CD4 T cells being analyzed. Furthermore, the differential effects of receptor blockade suggest novel methods of immune response modulation, which could be important in the context of HIV vaccination or therapeutic strategies. IMPORTANCE Inhibitory receptors are important for limiting damage by the immune system during acute infections. In chronic infections, however, their expression limits immune system responsiveness. Studies have shown that blocking inhibitory receptors augments CD8 T cell functionality in HIV infection, but their influence on CD4 T cells remains unclear. We assessed the expression of inhibitory receptors on HIV-specific CD4 T cells and their relationship with T cell functionality. We uncovered differences in inhibitory receptor expression depending on the CD4 T cell function. We also found differences in functionality of CD4 T cells following blocking of different inhibitory receptors, and we confirmed our results in a Friend virus retroviral model of infection in mice. Our results show that inhibitory receptor expression on CD4 T cells is linked to CD4 T cell functionality and could be sculpted by blockade of specific inhibitory receptors. These data reveal exciting possibilities for the development of novel treatments and immunotherapeutics., (Copyright © 2017 American Society for Microbiology.)

Published

2017

3. Preferential Targeting of Conserved Gag Regions after Vaccination with a Heterologous DNA Prime-Modified Vaccinia Virus Ankara Boost HIV-1 Vaccine Regimen.

Author

Bauer A, Podola L, Mann P, Missanga M, Haule A, Sudi L, Nilsson C, Kaluwa B, Lueer C, Mwakatima M, Munseri PJ, Maboko L, Robb ML, Tovanabutra S, Kijak G, Marovich M, McCormack S, Joseph S, Lyamuya E, Wahren B, Sandström E, Biberfeld G, Hoelscher M, Bakari M, Kroidl A, and Geldmacher C

Subjects

AIDS Vaccines administration & dosage, Drug Carriers, Healthy Volunteers, Humans, Interferon-gamma metabolism, Interleukin-2 metabolism, T-Lymphocyte Subsets immunology, Tanzania, Tumor Necrosis Factor-alpha metabolism, Vaccines, DNA administration & dosage, Vaccines, Subunit administration & dosage, Vaccines, Subunit immunology, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic immunology, Vaccinia virus genetics, AIDS Vaccines immunology, HIV-1 immunology, T-Lymphocytes immunology, Vaccination methods, Vaccines, DNA immunology, gag Gene Products, Human Immunodeficiency Virus immunology

Abstract

Prime-boost vaccination strategies against HIV-1 often include multiple variants for a given immunogen for better coverage of the extensive viral diversity. To study the immunologic effects of this approach, we characterized breadth, phenotype, function, and specificity of Gag-specific T cells induced by a DNA-prime modified vaccinia virus Ankara (MVA)-boost vaccination strategy, which uses mismatched Gag immunogens in the TamoVac 01 phase IIa trial. Healthy Tanzanian volunteers received three injections of the DNA-SMI vaccine encoding a subtype B and AB-recombinant Gag p37 and two vaccinations with MVA-CMDR encoding subtype A Gag p55 Gag-specific T-cell responses were studied in 42 vaccinees using fresh peripheral blood mononuclear cells. After the first MVA-CMDR boost, vaccine-induced gamma interferon-positive (IFN-γ + ) Gag-specific T-cell responses were dominated by CD4 + T cells ( P < 0.001 compared to CD8 + T cells) that coexpressed interleukin-2 (IL-2) (66.4%) and/or tumor necrosis factor alpha (TNF-α) (63.7%). A median of 3 antigenic regions were targeted with a higher-magnitude median response to Gag p24 regions, more conserved between prime and boost, compared to those of regions within Gag p15 (not primed) and Gag p17 (less conserved; P < 0.0001 for both). Four regions within Gag p24 each were targeted by 45% to 74% of vaccinees upon restimulation with DNA-SMI-Gag matched peptides. The response rate to individual antigenic regions correlated with the sequence homology between the MVA- and DNA Gag-encoded immunogens ( P = 0.04, r 2 = 0.47). In summary, after the first MVA-CMDR boost, the sequence-mismatched DNA-prime MVA-boost vaccine strategy induced a Gag-specific T-cell response that was dominated by polyfunctional CD4 + T cells and that targeted multiple antigenic regions within the conserved Gag p24 protein. IMPORTANCE Genetic diversity is a major challenge for the design of vaccines against variable viruses. While including multiple variants for a given immunogen in prime-boost vaccination strategies is one approach that aims to improve coverage for global virus variants, the immunologic consequences of this strategy have been poorly defined so far. It is unclear whether inclusion of multiple variants in prime-boost vaccination strategies improves recognition of variant viruses by T cells and by which mechanisms this would be achieved, either by improved cross-recognition of multiple variants for a given antigenic region or through preferential targeting of antigenic regions more conserved between prime and boost. Engineering vaccines to induce adaptive immune responses that preferentially target conserved antigenic regions of viral vulnerability might facilitate better immune control after preventive and therapeutic vaccination for HIV and for other variable viruses., (Copyright © 2017 American Society for Microbiology.)

Published

2017

4. Preservation of Peripheral T Follicular Helper Cell Function in HIV Controllers.

Author

Buranapraditkun S, Pissani F, Teigler JE, Schultz BT, Alter G, Marovich M, Robb ML, Eller MA, Martin J, Deeks S, Michael NL, and Streeck H

Subjects

Adult, CD4-Positive T-Lymphocytes chemistry, CD4-Positive T-Lymphocytes immunology, Female, Humans, Immunophenotyping, Interleukins metabolism, Male, Middle Aged, Receptors, CXCR5 analysis, B-Lymphocytes immunology, Germinal Center immunology, HIV Envelope Protein gp120 immunology, HIV Infections immunology, HIV Long-Term Survivors, T-Lymphocytes, Helper-Inducer immunology

Abstract

The maturation process of high-affinity antibodies is a result of intricate interactions between B cells and follicular helper T (Tfh) cells occurring in lymphoid germinal centers. HIV infection induces significant chronic immune activation, phenotypic skewing, and inflammation driven by years of continuous viral replication. High levels of viremia as well as immune activation and dysfunction have been demonstrated to have a perturbing impact on the B cell memory compartment and contribute to B cell exhaustion. Counterintuitively, the factors associated with perturbation of the B cell compartment seem to be favorable for the generation of highly affinity-matured Env-specific antibodies in a minority of HIV-infected individuals. Thus, the impact of HIV antigenemia on B cells and Tfh cell interactions warrants further exploration. We therefore studied immunophenotypes of HIV-specific B cells in individuals with differing levels of viral control using HIV Env gp120 probes and characterized the functionality of matched T cells in peripheral blood. While CXCR5 + CD4 + T cells were significantly diminished in HIV progressors, we found that a small subset of gp120-specific interleukin-21 (IL-21)-secreting CXCR5 + CD4 + T cells were significantly associated with gp120-specific B cell frequencies. In contrast, neither bulk CXCR5 + CD4 + T cells nor other HIV antigen specificities were associated with gp120-specific B cell levels. HIV-specific B cells derived from elite controllers displayed greater amounts of gp120-specific B cells in the resting memory subset, whereas HIV-specific B cells in progressors accumulated in tissue-like and activated memory subsets. Furthermore, CXCR5 + CD4 + T cells from elite controllers showed a stronger ex vivo capacity to induce B cell maturation and immunoglobulin class switching than cells from HIV progressors. IMPORTANCE Dissecting the factors that are involved in B cell maturation and antibody development is important for HIV vaccine design. In this study, we found that HIV Env-specific CXCR5 + CD4 + T cells that secrete interleukin-21 are strongly associated with B cell memory phenotypes and function. Moreover, we found that the immune responses of HIV controllers showed intrinsically better helper activity than those of HIV progressors., (Copyright © 2017 American Society for Microbiology.)

Published

2017

5. Cooperativity of HIV-Specific Cytolytic CD4 T Cells and CD8 T Cells in Control of HIV Viremia.

Author

Johnson S, Eller M, Teigler JE, Maloveste SM, Schultz BT, Soghoian DZ, Lu R, Oster AF, Chenine AL, Alter G, Dittmer U, Marovich M, Robb ML, Michael NL, Bolton D, and Streeck H

Subjects

Cells, Cultured, HIV Infections virology, HIV-1 genetics, HIV-1 physiology, Humans, Viral Load, Viremia virology, CD4-Positive T-Lymphocytes immunology, HIV Infections immunology, HIV-1 immunology, T-Lymphocytes, Cytotoxic immunology, Viremia immunology

Abstract

Unlabelled: CD4+ T cells play a pivotal role in the control of chronic viral infections. Recently, nontraditional CD4+ T cell functions beyond helper effects have been described, and a role for cytolytic CD4+ T cells in the control of HIV infection has been suggested. We define here the transcriptional, phenotypic, and functional profiles of HIV-specific cytolytic CD4+ T cells. Fluidigm BioMark and multiparameter flow cytometric analysis of HIV-specific cytolytic CD4+ T cells revealed a distinct transcriptional signature compared to Th1 CD4+ cells but shared similar features with HIV-specific cytolytic CD8+ T cells. Furthermore, HIV-specific cytolytic CD4+ T cells showed comparable killing activity relative to HIV-specific CD8+ T cells and worked cooperatively in the elimination of virally infected cells. Interestingly, we found that cytolytic CD4+ T cells emerge early during acute HIV infection and tightly follow acute viral load trajectory. This emergence was associated to the early viral set point, suggesting an involvement in early control, in spite of CD4 T cell susceptibility to HIV infection. Our data suggest cytolytic CD4+ T cells as an independent subset distinct from Th1 cells that show combined activity with CD8+ T cells in the long-term control of HIV infection., Importance: The ability of the immune system to control chronic HIV infection is of critical interest to both vaccine design and therapeutic approaches. Much research has focused on the effect of the ability of CD8+ T cells to control the virus, while CD4+ T cells have been overlooked as effectors in HIV control due to the fact that they are preferentially infected. We show here that a subset of HIV-specific CD4+ T cells cooperate in the cytolytic control of HIV replication. Moreover, these cells represent a distinct subset of CD4+ T cells showing significant transcriptional and phenotypic differences compared to HIV-specific Th1 cells but with similarities to CD8+ T cells. These findings are important for our understanding of HIV immunopathology., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

6. Direct comparison of antigen production and induction of apoptosis by canarypox virus- and modified vaccinia virus ankara-human immunodeficiency virus vaccine vectors.

Author

Zhang X, Cassis-Ghavami F, Eller M, Currier J, Slike BM, Chen X, Tartaglia J, Marovich M, and Spearman P

Subjects

3T3 Cells, AIDS Vaccines genetics, AIDS Vaccines immunology, Animals, Antigen Presentation genetics, Antigen Presentation immunology, Antigens, Viral genetics, Antigens, Viral immunology, Chick Embryo, Chlorocebus aethiops, Dendritic Cells immunology, Dendritic Cells metabolism, Dendritic Cells virology, Gene Expression Regulation, Viral genetics, Gene Expression Regulation, Viral immunology, HeLa Cells, Humans, Jurkat Cells, Mice, Retroviridae Proteins genetics, Retroviridae Proteins immunology, Species Specificity, T-Lymphocytes immunology, T-Lymphocytes metabolism, T-Lymphocytes virology, Vero Cells, AIDS Vaccines biosynthesis, Antigens, Viral biosynthesis, Apoptosis immunology, Canarypox virus, HIV-1, Retroviridae Proteins biosynthesis, Vaccinia virus

Abstract

Recombinant poxvirus vectors are undergoing intensive evaluation as vaccine candidates for a variety of infectious pathogens. Avipoxviruses, such as canarypox virus, are replication deficient in mammalian cells by virtue of a poorly understood species-specific restriction. Highly attenuated vaccinia virus strains such as modified vaccinia virus Ankara (MVA) are similarly unable to complete replication in most mammalian cells but have an abortive-late phenotype, in that the block to replication occurs post-virus-specific DNA replication. In this study, an identical expression cassette for human immunodeficiency virus gag, pro, and env coding sequences was placed in canarypox virus and MVA vector backbones in order to directly compare vector-borne expression and to analyze differences in vector-host cell interactions. Antigen production by recombinant MVA was shown to be greater than that from recombinant canarypox virus in the mammalian cell lines and in the primary human cells tested. This observation was primarily due to a longer duration of antigen production in recombinant MVA-infected cells. Apoptosis induction was found to be more profound with the empty canarypox virus vector than with MVA. Remarkably, however, the inclusion of a gag/pro/env expression cassette altered the kinetics of apoptosis induction in recombinant MVA-infected cells to levels equal to those found in canarypox virus-infected cells. Antigen production by MVA was noted to be greater in human dendritic cells and resulted in enhanced T-cell stimulation in an in vitro antigen presentation assay. These results reveal differences in poxvirus vector-host cell interactions that should be relevant to their use as immunization vehicles.

Published

2007

7. Pseudovirion particle production by live poxvirus human immunodeficiency virus vaccine vector enhances humoral and cellular immune responses.

Author

Chen X, Rock MT, Hammonds J, Tartaglia J, Shintani A, Currier J, Slike B, Crowe JE Jr, Marovich M, and Spearman P

Subjects

Animals, Antibody Specificity, CD4-Positive T-Lymphocytes immunology, Canarypox virus ultrastructure, Cytokines biosynthesis, Female, Gene Products, env genetics, Gene Products, env immunology, Genes, gag genetics, Genes, gag immunology, HIV Antibodies blood, HIV Infections blood, Interferon-gamma analysis, Interferon-gamma biosynthesis, Mice, Mice, Inbred BALB C, Vaccines, Synthetic immunology, AIDS Vaccines immunology, Canarypox virus genetics, Genetic Vectors genetics, Genetic Vectors ultrastructure, HIV Infections immunology, HIV-1 genetics, Immunization

Abstract

Live-vector-based human immunodeficiency virus (HIV) vaccines are an integral part of a number of HIV vaccine regimens currently under evaluation. Live vectors that carry an intact gag gene are capable of eliciting HIV pseudovirion particle formation from infected host cells. The impact of pseudovirion particle formation on the immune response generated by live HIV vaccine vectors has not been established. In this study, a canarypox HIV vaccine candidate vector expressing HIV gag and env genes, vCP205, was modified by the introduction of a glycine-to-alanine coding change in the N-terminal myristylation site of gag to create Myr- vCP205. This substitution effectively eliminated particle formation without altering the level of protein production. vCP205 and Myr- vCP205 were then directly compared for the ability to induce HIV-specific immune responses in mice. The particle-competent vector vCP205 elicited higher levels of CD8+ T-cell responses, as indicated by gamma interferon enzyme-linked immunospot (ELISPOT) assay and intracellular cytokine staining. Humoral responses to Gag and Env were also markedly higher from animals immunized with the particle-competent vector. Furthermore, HIV-specific CD4+ T-cell responses were greater among animals immunized with the particle-competent vector. Using a human dendritic cell model of antigen presentation in vitro, vCP205 generated greater ELISPOT responses than Myr- vCP205. These results demonstrate that pseudovirion particle production by live-vector HIV vaccines enhances HIV-specific cellular and humoral immune responses.

Published

2005

8. Canarypox virus-induced maturation of dendritic cells is mediated by apoptotic cell death and tumor necrosis factor alpha secretion.

Author

Ignatius R, Marovich M, Mehlhop E, Villamide L, Mahnke K, Cox WI, Isdell F, Frankel SS, Mascola JR, Steinman RM, and Pope M

Subjects

Animals, Dendritic Cells virology, Humans, Macaca mulatta, Phagocytosis, Tumor Necrosis Factor-alpha metabolism, Apoptosis, Avipoxvirus physiology, Dendritic Cells physiology, Tumor Necrosis Factor-alpha physiology

Abstract

Recombinant avipox viruses are being widely evaluated as vaccines. To address how these viruses, which replicate poorly in mammalian cells, might be immunogenic, we studied how canarypox virus (ALVAC) interacts with primate antigen-presenting dendritic cells (DCs). When human and rhesus macaque monocyte-derived DCs were exposed to recombinant ALVAC, immature DCs were most susceptible to infection. However, many of the infected cells underwent apoptotic cell death, and dying infected cells were engulfed by uninfected DCs. Furthermore, a subset of DCs matured in the ALVAC-exposed DC cultures. DC maturation coincided with tumor necrosis factor alpha (TNF-alpha) secretion and was significantly blocked in the presence of anti-TNF-alpha antibodies. Interestingly, inhibition of apoptosis with a caspase 3 inhibitor also reduced some of the maturation induced by exposure to ALVAC. This indicates that both TNF-alpha and the presence of primarily apoptotic cells contributed to DC maturation. Therefore, infection of immature primate DCs with ALVAC results in apoptotic death of infected cells, which can be internalized by noninfected DCs driving DC maturation in the presence of the TNF-alpha secreted concomitantly by exposed cells. This suggests an important mechanism that may influence the immunogenicity of avipox virus vectors.

Published

2000