Your search keyword '"Primate Diseases immunology"' showing total 65 results

1. COVID-19 cynomolgus macaque model reflecting human COVID-19 pathological conditions.

Author

Urano E, Okamura T, Ono C, Ueno S, Nagata S, Kamada H, Higuchi M, Furukawa M, Kamitani W, Matsuura Y, Kawaoka Y, and Yasutomi Y

Subjects

Animals, Antibodies, Viral blood, Antibodies, Viral immunology, COVID-19 virology, Female, Humans, Immunoglobulin G blood, Immunoglobulin G immunology, Lung diagnostic imaging, Lung immunology, Lung virology, Macaca fascicularis virology, Male, Primate Diseases virology, SARS-CoV-2 physiology, Tomography, X-Ray Computed methods, Virus Shedding immunology, Virus Shedding physiology, COVID-19 immunology, Disease Models, Animal, Macaca fascicularis immunology, Primate Diseases immunology, SARS-CoV-2 immunology

Abstract

The pandemic of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a global threat to human health and life. A useful pathological animal model accurately reflecting human pathology is needed to overcome the COVID-19 crisis. In the present study, COVID-19 cynomolgus monkey models including monkeys with underlying diseases causing severe pathogenicity such as metabolic disease and elderly monkeys were examined. Cynomolgus macaques with various clinical conditions were intranasally and/or intratracheally inoculated with SARS-CoV-2. Infection with SARS-CoV-2 was found in mucosal swab samples, and a higher level and longer period of viral RNA was detected in elderly monkeys than in young monkeys. Pneumonia was confirmed in all of the monkeys by computed tomography images. When monkeys were readministrated SARS-CoV-2 at 56 d or later after initial infection all of the animals showed inflammatory responses without virus detection in swab samples. Surprisingly, in elderly monkeys reinfection showed transient severe pneumonia with increased levels of various serum cytokines and chemokines compared with those in primary infection. The results of this study indicated that the COVID-19 cynomolgus monkey model reflects the pathophysiology of humans and would be useful for elucidating the pathophysiology and developing therapeutic agents and vaccines., Competing Interests: The authors declare no competing interest., (Copyright © 2021 the Author(s). Published by PNAS.)

Published

2021

2. Use of convalescent serum reduces severity of COVID-19 in nonhuman primates.

Author

Cross RW, Prasad AN, Borisevich V, Woolsey C, Agans KN, Deer DJ, Dobias NS, Geisbert JB, Fenton KA, and Geisbert TW

Subjects

Animals, Antibodies, Neutralizing blood, Antibodies, Viral blood, COVID-19 immunology, COVID-19 virology, Chlorocebus aethiops immunology, Female, Immunization, Passive methods, Immunization, Passive veterinary, Male, Primate Diseases immunology, Primates immunology, Viral Load, COVID-19 Serotherapy, COVID-19 therapy, COVID-19 veterinary, Primate Diseases therapy, Primate Diseases virology, SARS-CoV-2 immunology

Abstract

Passive transfer of convalescent plasma or serum is a time-honored strategy for treating infectious diseases. Human convalescent plasma containing antibodies against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is currently being used to treat patients with coronavirus disease 2019 where clinical efficacy trials are ongoing. Here, we assess therapeutic passive transfer in groups of SARS-CoV-2-infected African green monkeys with convalescent sera containing either high or low anti-SARS-CoV-2 neutralizing antibody titers. Differences in viral load and pathology are minimal between monkeys that receive the lower titer convalescent sera and untreated controls. However, lower levels of SARS-CoV-2 in respiratory compartments, reduced severity of virus-associated lung pathology, and reductions in coagulopathy and inflammatory processes are observed in monkeys that receive high titer sera versus untreated controls. Our data indicate that convalescent plasma therapy in humans may be an effective strategy provided that donor sera contain high anti-SARS-CoV-2 neutralizing titers given in early stages of the disease., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2021

3. Social history and exposure to pathogen signals modulate social status effects on gene regulation in rhesus macaques.

Author

Sanz J, Maurizio PL, Snyder-Mackler N, Simons ND, Voyles T, Kohn J, Michopoulos V, Wilson M, Tung J, and Barreiro LB

Subjects

Animals, Bacterial Infections genetics, Bacterial Infections immunology, Bacterial Infections psychology, Behavior, Animal, Female, Gene Expression, Gene Expression Regulation, Hierarchy, Social, Immunity, Innate, Macaca mulatta genetics, Macaca mulatta immunology, Macaca mulatta psychology, Male, NF-kappa B genetics, NF-kappa B immunology, Primate Diseases immunology, Primate Diseases microbiology, Social Stigma, Virus Diseases genetics, Virus Diseases immunology, Virus Diseases psychology, Bacterial Infections veterinary, Primate Diseases genetics, Primate Diseases psychology, Virus Diseases veterinary

Abstract

Social experience is an important predictor of disease susceptibility and survival in humans and other social mammals. Chronic social stress is thought to generate a proinflammatory state characterized by elevated antibacterial defenses and reduced investment in antiviral defense. Here we manipulated long-term social status in female rhesus macaques to show that social subordination alters the gene expression response to ex vivo bacterial and viral challenge. As predicted by current models, bacterial lipopolysaccharide polarizes the immune response such that low status corresponds to higher expression of genes in NF-κB-dependent proinflammatory pathways and lower expression of genes involved in the antiviral response and type I IFN signaling. Counter to predictions, however, low status drives more exaggerated expression of both NF-κB- and IFN-associated genes after cells are exposed to the viral mimic Gardiquimod. Status-driven gene expression patterns are linked not only to social status at the time of sampling, but also to social history (i.e., past social status), especially in unstimulated cells. However, for a subset of genes, we observed interaction effects in which females who fell in rank were more strongly affected by current social status than those who climbed the social hierarchy. Taken together, our results indicate that the effects of social status on immune cell gene expression depend on pathogen exposure, pathogen type, and social history-in support of social experience-mediated biological embedding in adulthood, even in the conventionally memory-less innate immune system., Competing Interests: The authors declare no competing interest.

Published

2020

4. Serological Analysis of Herpes B Virus at Individual Epitope Resolution: From Two-Dimensional Peptide Arrays to Multiplex Bead Flow Assays.

Author

Hotop SK, Abd El Wahed A, Beutling U, Czerny F, Sievers C, Diederichsen U, Frank R, Stahl-Hennig C, Brönstrup M, and Fritz HJ

Subjects

Animals, Binding Sites, Epitopes chemistry, Herpesviridae Infections diagnosis, Herpesviridae Infections immunology, Herpesviridae Infections virology, Herpesvirus 1, Cercopithecine genetics, Humans, Immune Sera chemistry, Immunoconjugates chemistry, Macaca mulatta immunology, Macaca mulatta virology, Models, Molecular, Primate Diseases immunology, Primate Diseases virology, Protein Array Analysis instrumentation, Protein Array Analysis methods, Protein Binding, Protein Conformation, alpha-Helical, Protein Conformation, beta-Strand, Protein Interaction Domains and Motifs, Viral Proteins chemistry, Antibodies, Viral blood, Epitopes blood, Herpesviridae Infections veterinary, Herpesvirus 1, Cercopithecine immunology, Primate Diseases diagnosis, Viral Proteins blood

Abstract

Macacine herpesvirus or B Virus (BV) is a zoonotic agent that leads to high mortality rates in humans if transmitted and untreated. Here, BV is used as a test case to establish a two-step procedure for developing high throughput serological assays based on synthetic peptides. In step 1, peptide microarray analysis of 42 monkey sera (30 of them tested BV positive by ELISA) revealed 1148 responses against 369 different peptides. The latter could be grouped into 142 different antibody target regions (ATRs) in six different glycoproteins (gB, gC, gD, gG, gH, and gL) of BV. The high number of newly detected ATRs was made possible inter alia by a new preanalytical protocol that reduced unspecific binding of serum components to the cellulose-based matrix of the microarray. In step 2, soluble peptides corresponding to eight ATRs of particularly high antigenicity were synthesized and coupled to fluorescently labeled beads, which were subsequently employed in immunochemical bead flow assays. Their outcome mirrored the ELISA results used as reference. Hence, convenient, fast, and economical screening of arbitrarily large macaque colonies for BV infection is now possible. The study demonstrates that a technology platform switch from two-dimensional high-resolution peptide arrays used for epitope discovery to a readily available bead array platform for serology applications is feasible.

Published

2019

5. Post-exposure immunotherapy for two ebolaviruses and Marburg virus in nonhuman primates.

Author

Brannan JM, He S, Howell KA, Prugar LI, Zhu W, Vu H, Shulenin S, Kailasan S, Raina H, Wong G, Rahim MN, Banadyga L, Tierney K, Zhao X, Li Y, Holtsberg FW, Dye JM, Qiu X, and Aman MJ

Subjects

Animals, Antibodies, Monoclonal therapeutic use, Antibodies, Neutralizing therapeutic use, Ebolavirus classification, Ebolavirus drug effects, Ebolavirus physiology, Filoviridae Infections therapy, Filoviridae Infections virology, Host-Pathogen Interactions drug effects, Host-Pathogen Interactions immunology, Immunotherapy methods, Marburgvirus drug effects, Marburgvirus physiology, Primate Diseases therapy, Primate Diseases virology, Primates, Treatment Outcome, Antibodies, Monoclonal immunology, Antibodies, Neutralizing immunology, Ebolavirus immunology, Filoviridae Infections immunology, Marburgvirus immunology, Primate Diseases immunology

Abstract

The 2013-2016 Ebola virus (EBOV) disease epidemic demonstrated the grave consequences of filovirus epidemics in the absence of effective therapeutics. Besides EBOV, two additional ebolaviruses, Sudan (SUDV) and Bundibugyo (BDBV) viruses, as well as multiple variants of Marburg virus (MARV), have also caused high fatality epidemics. Current experimental EBOV monoclonal antibodies (mAbs) are ineffective against SUDV, BDBV, or MARV. Here, we report that a cocktail of two broadly neutralizing ebolavirus mAbs, FVM04 and CA45, protects nonhuman primates (NHPs) against EBOV and SUDV infection when delivered four days post infection. This cocktail when supplemented by the anti-MARV mAb MR191 exhibited 100% efficacy in MARV-infected NHPs. These findings provide a solid foundation for clinical development of broadly protective immunotherapeutics for use in future filovirus epidemics.

Published

2019

6. [Markers of hepatitis A in the monkeys of the Adlers primate center.]

Author

Dogadov DI, Korzaya LI, Kyuregyan KK, Karlsen AA, Mikhailov MI, and Lapin BA

Subjects

Animals, Chlorocebus aethiops virology, Female, Hepatitis A epidemiology, Hepatitis A immunology, Hepatitis A virology, Hepatitis A virus growth & development, Hepatitis A virus immunology, Hepatitis A virus pathogenicity, Host Specificity, Humans, Immunoglobulin G blood, Indonesia epidemiology, Macaca fascicularis virology, Macaca mulatta virology, Male, Papio hamadryas virology, Primate Diseases immunology, Primate Diseases virology, Russia epidemiology, Tanzania epidemiology, Vietnam epidemiology, Antibodies, Viral blood, Hepatitis A veterinary, Hepatitis A virus genetics, Primate Diseases epidemiology, RNA, Viral blood

Abstract

Hepatitis A is a widespread viral infection. The HAV strains of "human" and "monkey" origin are similar in their morphological and antigenic properties, but differ genotypically., Objectives: The aim of this research was a comparative study of serological and molecular-genetic markers of HAV infection in monkeys born at the Adler Primate Center and in those imported from different countries., Material and Methods: Fecal samples (n = 313) and serum (n = 266) from various species of monkey using ELISA and RT-PCR were studied., Results and Discussion: The frequency of anti-HAV-IgG was high (78.9%) in imported animals (vervet monkeys from Tanzania and cynomolgus monkeys from Vietnam) and as well as in various species of monkeys (rhesus monkeys, cynomolgus monkeys, green monkeys and papio hamadryas) of the Center (88.6%). At the same time, in the imported monkeys, the markers of "fresh" HAV infection (IgM-27.2%, Ag-HAV-16.7%, RNA-22.0%) were detected significantly more often (p> 0.05) than in monkeys kept at the Colony (IgM-7.5%, HAV-Ag - 5.2%, RNA - 3.6%). In general, anti-IgG reactivity ranged from 1.064 to 2.073 OD 450 , anti-IgM ranged from 0.546 to 1.059 OD 450 . The number of HAV-Ag was 0.496 - 1.995 OD 450 . RNA HAV only in rhesus monkeys and cynomolgys monkeys born at the Colony, as well as in imported vervet monkeys was detected., Conclusions: The data obtained indicate a wide circulation of HAV among monkeys born in the Adler Primate Center and among the imported animals. Markers of "fresh" HAV infection varied depending on the species of monkeys and their origin., Competing Interests: The authors declare no conflict of interest.

Published

2019

7. Persistent Marburg Virus Infection in the Testes of Nonhuman Primate Survivors.

Author

Coffin KM, Liu J, Warren TK, Blancett CD, Kuehl KA, Nichols DK, Bearss JJ, Schellhase CW, Retterer CJ, Weidner JM, Radoshitzky SR, Brannan JM, Cardile AP, Dye JM, Palacios G, Sun MG, Kuhn JH, Bavari S, and Zeng X

Subjects

Animals, Macaca, Male, Marburg Virus Disease immunology, Marburg Virus Disease metabolism, Primate Diseases immunology, Primate Diseases metabolism, Sertoli Cells metabolism, Sertoli Cells virology, Survivors, T-Lymphocytes, Regulatory immunology, Tight Junctions metabolism, Tight Junctions virology, Marburg Virus Disease virology, Marburgvirus physiology, Primate Diseases virology, Testis virology

Abstract

Sexual transmission of filoviruses was first reported in 1968 after an outbreak of Marburg virus (MARV) disease and recently caused flare-ups of Ebola virus disease in the 2013-2016 outbreak. How filoviruses establish testicular persistence and are shed in semen remain unknown. We discovered that persistent MARV infection of seminiferous tubules, an immune-privileged site that harbors sperm production, is a relatively common event in crab-eating macaques that survived infection after antiviral treatment. Persistence triggers severe testicular damage, including spermatogenic cell depletion and inflammatory cell invasion. MARV mainly persists in Sertoli cells, leading to breakdown of the blood-testis barrier formed by inter-Sertoli cell tight junctions. This disruption is accompanied by local infiltration of immunosuppressive CD4 + Foxp3 + regulatory T cells. Our study elucidates cellular events associated with testicular persistence that may promote sexual transmission of filoviruses and suggests that targeting immunosuppression may be warranted to clear filovirus persistence in damaged immune-privileged sites., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

8. A Tale of Two Viruses: Does Heterologous Flavivirus Immunity Enhance Zika Disease?

Author

Sariol CA, Nogueira ML, and Vasilakis N

Subjects

Animals, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Dengue virology, Dengue Virus immunology, Dengue Virus pathogenicity, Humans, Primate Diseases immunology, Zika Virus pathogenicity, Antibody-Dependent Enhancement, Flaviviridae Infections immunology, Flavivirus immunology, Zika Virus immunology, Zika Virus Infection immunology

Abstract

The rise of Zika virus (ZIKV) and its unusual clinical manifestations provided ground for speculative debate. The clinical severity of secondary dengue virus (DENV) infections is associated with antibody-dependent enhancement (ADE), and it was recently suggested that previous exposure to DENV may worsen ZIKV clinical outcomes. In this Opinion article we analyze the relationship among different flaviviruses and ADE. We discuss new evidence obtained in non-human primates and human cohorts demonstrating that there is no correlation to ADE when ZIKV infection occurs in the presence of pre-existing DENV immunity. We propose a redefinition of ADE in the context of complex immunological flavivirus interactions to provide a more objective perspective when translating in vitro or in vivo observations into the clinical setting., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

9. Antibody Responses to Zika Virus Infections in Environments of Flavivirus Endemicity.

Author

Keasey SL, Pugh CL, Jensen SMR, Smith JL, Hontz RD, Durbin AP, Dudley DM, O'Connor DH, and Ulrich RG

Subjects

Animals, Humans, Macaca mulatta, Microarray Analysis, Primate Diseases immunology, Protein Array Analysis, Antibodies, Viral blood, Antibody Formation, Cross Reactions, Endemic Diseases, Flaviviridae Infections immunology, Flaviviridae Infections veterinary

Abstract

Zika virus (ZIKV) infections occur in areas where dengue virus (DENV), West Nile virus (WNV), yellow fever virus (YFV), and other viruses of the genus Flavivirus cocirculate. The envelope (E) proteins of these closely related flaviviruses induce specific long-term immunity, yet subsequent infections are associated with cross-reactive antibody responses that may enhance disease susceptibility and severity. To gain a better understanding of ZIKV infections against a background of similar viral diseases, we examined serological immune responses to ZIKV, WNV, DENV, and YFV infections of humans and nonhuman primates (NHPs). Using printed microarrays, we detected very specific antibody responses to primary infections with probes of recombinant E proteins from 15 species and lineages of flaviviruses pathogenic to humans, while high cross-reactivity between ZIKV and DENV was observed with 11 printed native viruses. Notably, antibodies from human primary ZIKV or secondary DENV infections that occurred in areas where flavivirus is endemic broadly recognized E proteins from many flaviviruses, especially DENV, indicating a strong influence of infection history on immune responses. A predictive algorithm was used to tentatively identify previous encounters with specific flaviviruses based on serum antibody interactions with the multispecies panel of E proteins. These results illustrate the potential impact of exposure to related viruses on the outcome of ZIKV infection and offer considerations for development of vaccines and diagnostics., (Copyright © 2017 American Society for Microbiology.)

Published

2017

10. Initiation of Antiretroviral Therapy Restores CD4+ T Memory Stem Cell Homeostasis in Simian Immunodeficiency Virus-Infected Macaques.

Author

Cartwright EK, Palesch D, Mavigner M, Paiardini M, Chahroudi A, and Silvestri G

Subjects

Animals, CD4-Positive T-Lymphocytes drug effects, CD4-Positive T-Lymphocytes virology, DNA, Viral genetics, Humans, Immunologic Memory drug effects, Macaca mulatta, Primate Diseases immunology, Primate Diseases virology, Simian Acquired Immunodeficiency Syndrome immunology, Simian Acquired Immunodeficiency Syndrome virology, Simian Immunodeficiency Virus, Stem Cells drug effects, Stem Cells immunology, Stem Cells virology, T-Lymphocyte Subsets drug effects, T-Lymphocyte Subsets immunology, T-Lymphocyte Subsets virology, Viral Load, Anti-Retroviral Agents therapeutic use, CD4-Positive T-Lymphocytes immunology, Homeostasis physiology, Immunologic Memory immunology, Primate Diseases drug therapy, Simian Acquired Immunodeficiency Syndrome drug therapy, Virus Replication drug effects

Abstract

Unlabelled: Treatment of human immunodeficiency virus (HIV) infection with antiretroviral therapy (ART) has significantly improved prognosis. Unfortunately, interruption of ART almost invariably results in viral rebound, attributed to a pool of long-lived, latently infected cells. Based on their longevity and proliferative potential, CD4(+) T memory stem cells (TSCM) have been proposed as an important site of HIV persistence. In a previous study, we found that in simian immunodeficiency virus (SIV)-infected rhesus macaques (RM), CD4(+) TSCM are preserved in number but show (i) a decrease in the frequency of CCR5(+) cells, (ii) an expansion of the fraction of proliferating Ki-67(+) cells, and (iii) high levels of SIV DNA. To understand the impact of ART on both CD4(+) TSCM homeostasis and virus persistence, we conducted a longitudinal analysis of these cells in the blood and lymph nodes of 25 SIV-infected RM. We found that ART induced a significant restoration of CD4(+) CCR5(+) TSCM both in blood and in lymph nodes and a reduction in the fraction of proliferating CD4(+) Ki-67(+) TSCM in blood (but not lymph nodes). Importantly, we found that the level of SIV DNA in CD4(+) transitional memory (TTM) and effector memory (TEM) T cells declined ∼100-fold after ART in both blood and lymph nodes, while the level of SIV DNA in CD4(+) TSCM and central memory T cells (TCM-) did not significantly change. These data suggest that ART is effective at partially restoring CD4(+) TSCM homeostasis, and the observed stable level of virus in TSCM supports the hypothesis that these cells are a critical contributor to SIV persistence., Importance: Understanding the roles of various CD4(+) T cell memory subsets in immune homeostasis and HIV/SIV persistence during antiretroviral therapy (ART) is critical to effectively treat and cure HIV infection. T memory stem cells (TSCM) are a unique memory T cell subset with enhanced self-renewal capacity and the ability to differentiate into other memory T cell subsets, such as central and transitional memory T cells (TCM and TTM, respectively). CD4(+) TSCM are disrupted but not depleted during pathogenic SIV infection. We find that ART is partially effective at restoring CD4(+) TSCM homeostasis and that SIV DNA harbored within this subset contracts more slowly than virus harbored in shorter-lived subsets, such as TTM and effector memory (TEM). Because of their ability to persist long-term in an individual, understanding the dynamics of virally infected CD4(+) TSCM during suppressive ART is important for future therapeutic interventions aimed at modulating immune activation and purging the HIV reservoir., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published

2016

11. Characterization of the immune response in ganglia after primary simian varicella virus infection.

Author

Ouwendijk WJ, Getu S, Mahalingam R, Gilden D, Osterhaus AD, and Verjans GM

Subjects

Animals, Antigens, CD genetics, Antigens, CD immunology, Antigens, Differentiation, Myelomonocytic genetics, Antigens, Differentiation, Myelomonocytic immunology, CD11c Antigen genetics, CD11c Antigen immunology, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes virology, Chemokine CXCL10 genetics, Chemokine CXCL10 immunology, Chlorocebus aethiops, DNA, Viral genetics, DNA, Viral immunology, Ganglia, Sensory virology, Gene Expression Regulation immunology, Granzymes genetics, Granzymes immunology, Herpesvirus 3, Human pathogenicity, Host-Pathogen Interactions, Immediate-Early Proteins genetics, Immediate-Early Proteins immunology, Immunologic Memory, Primate Diseases genetics, Primate Diseases pathology, Sensory Receptor Cells virology, Varicella Zoster Virus Infection genetics, Varicella Zoster Virus Infection immunology, Varicella Zoster Virus Infection pathology, Viral Envelope Proteins genetics, Viral Envelope Proteins immunology, Viral Load genetics, Viral Load immunology, Ganglia, Sensory immunology, Herpesvirus 3, Human immunology, Primate Diseases immunology, Sensory Receptor Cells immunology, Varicella Zoster Virus Infection veterinary, Virus Activation, Virus Latency

Abstract

Primary simian varicella virus (SVV) infection in non-human primates causes varicella, after which the virus becomes latent in ganglionic neurons and reactivates to cause zoster. The host response in ganglia during establishment of latency is ill-defined. Ganglia from five African green monkeys (AGMs) obtained at 9, 13, and 20 days post-intratracheal SVV inoculation (dpi) were analyzed by ex vivo flow cytometry, immunohistochemistry, and in situ hybridization. Ganglia at 13 and 20 dpi exhibited mild inflammation. Immune infiltrates consisted mostly of CD8(dim) and CD8(bright) memory T cells, some of which expressed granzyme B, and fewer CD11c(+) and CD68(+) cells. Chemoattractant CXCL10 transcripts were expressed in neurons and infiltrating inflammatory cells but did not co-localize with SVV open reading frame 63 (ORF63) RNA expression. Satellite glial cells expressed increased levels of activation markers CD68 and MHC class II at 13 and 20 dpi compared to those at 9 dpi. Overall, local immune responses emerged as viral DNA load in ganglia declined, suggesting that intra-ganglionic immunity contributes to restricting SVV replication.

Published

2016

12. Evidence That Rhesus Macaques Self-Cure from a Schistosoma japonicum Infection by Disrupting Worm Esophageal Function: A New Route to an Effective Vaccine?

Author

Li XH, Xu YX, Vance G, Wang Y, Lv LB, van Dam GJ, Cao JP, and Wilson RA

Subjects

Animals, Antibodies, Helminth immunology, Enzyme-Linked Immunosorbent Assay, Esophagus anatomy & histology, Esophagus physiology, Female, Macaca mulatta, Male, Primate Diseases parasitology, Schistosoma japonicum anatomy & histology, Schistosomiasis japonica immunology, Schistosomiasis japonica parasitology, Vaccines immunology, Primate Diseases immunology, Schistosoma japonicum physiology, Schistosomiasis japonica veterinary

Abstract

Background: Rhesus macaques are unusual among schistosome hosts, self-curing from an established infection and thereafter manifesting solid immunity against a challenge, an ideal model for vaccine development. Previously, the immunological basis of self-cure was confirmed; surviving worms had ceased feeding but how immunological pressure achieved this was unclear. The schistosome esophagus is not simply a conduit for blood but plays a central role in its processing. Secretions from the anterior and posterior esophageal glands mix with incoming blood causing erythrocyte lysis and tethering and killing of leucocytes., Methodology/principal Findings: We have analysed the self-cure process in rhesus macaques infected with Schistosoma japonicum. Faecal egg output and circulating antigen levels were used to chart the establishment of a mature worm population and its subsequent demise. The physiological stress of surviving females at perfusion was especially evident from their pale, shrunken appearance, while changes in the structure and function of the esophagus were observed in both sexes. In the anterior region electron microscopy revealed that the vesicle secretory process was disrupted, the tips of lining corrugations being swollen by greatly enlarged vesicles and the putative sites of vesicle release obscured by intense deposits of IgG. The lumen of the posterior esophagus in starving worms was occluded by cellular debris and the lining cytoplasmic plates were closely adherent, also potentially preventing secretion. Seven proteins secreted by the posterior gland were identified and IgG responses were detected to some or all of them. Intrinsic rhesus IgG colocalized with secreted SjMEGs 4.1, 8.2, 9, 11 and VAL-7 on cryosections, suggesting they are potential targets for disruption of function., Conclusions/significance: Our data suggest that rhesus macaques self-cure by blocking esophagus function with antibody; the protein products of the glands provide a new class of potential vaccine targets.

Published

2015

13. Abortive intrabronchial infection of rhesus macaques with varicella-zoster virus provides partial protection against simian varicella virus challenge.

Author

Meyer C, Engelmann F, Arnold N, Krah DL, ter Meulen J, Haberthur K, Dewane J, and Messaoudi I

Subjects

Animals, Antibodies, Viral blood, Chickenpox immunology, Chickenpox pathology, Chickenpox prevention & control, DNA, Viral genetics, DNA, Viral isolation & purification, Ganglia virology, Macaca mulatta, Male, Primate Diseases immunology, T-Lymphocytes immunology, Chickenpox veterinary, Cross Protection, Herpesvirus 3, Human immunology, Primate Diseases prevention & control

Abstract

Unlabelled: Varicella-zoster virus (VZV) is a human neurotropic alphaherpesvirus and the etiological agent of varicella (chickenpox) and herpes zoster (HZ, shingles). Previously, inoculation of monkeys via the subcutaneous, intratracheal, intravenous, or oral-nasal-conjunctival routes did not recapitulate all the hallmarks of VZV infection, including varicella, immunity, latency, and reactivation. Intrabronchial inoculation of rhesus macaques (RMs) with simian varicella virus (SVV), a homolog of VZV, recapitulates virologic and immunologic hallmarks of VZV infection in humans. Given that VZV is acquired primarily via the respiratory route, we investigated whether intrabronchial inoculation of RMs with VZV would result in a robust model. Despite the lack of varicella and viral replication in either the lungs or whole blood, all four RMs generated an immune response characterized by the generation of VZV-specific antibodies and T cells. Two of 4 VZV-inoculated RMs were challenged with SVV to determine cross-protection. VZV-immune RMs displayed no varicella rash and had lower SVV viral loads and earlier and stronger humoral and cellular immune responses than controls. In contrast to the results for SVV DNA, no VZV DNA was detected in sensory ganglia at necropsy. In summary, following an abortive VZV infection, RMs developed an adaptive immune response that conferred partial protection against SVV challenge. These data suggest that a replication-incompetent VZV vaccine that does not establish latency may provide sufficient protection against VZV disease and that VZV vaccination of RMs followed by SVV challenge provides a model to evaluate new vaccines and therapeutics against VZV., Importance: Although VZV vaccine strain Oka is attenuated, it can cause mild varicella, establish latency, and in rare cases, reactivate to cause herpes zoster (HZ). Moreover, studies suggest that the HZ vaccine (Zostavax) only confers short-lived immunity. The development of more efficacious vaccines would be facilitated by a robust animal model of VZV infection. The data presented in this report show that intrabronchial inoculation of rhesus macaques (RMs) with VZV resulted in an abortive VZV infection. Nevertheless, all animals generated a humoral and cellular immune response that conferred partial cross-protection against simian varicella virus (SVV) challenge. Additionally, VZV DNA was not detected in the sensory ganglia, suggesting that viremia might be required for the establishment of latency. Therefore, VZV vaccination of RMs followed by SVV challenge is a model that will support the development of vaccines that boost protective T cell responses against VZV., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

14. Non-human Primate Lymphocryptoviruses: Past, Present, and Future.

Author

Mühe J and Wang F

Subjects

Animals, Epstein-Barr Virus Infections immunology, Herpesviridae Infections immunology, Herpesviridae Infections virology, Herpesvirus 4, Human genetics, Humans, Lymphocryptovirus genetics, Macaca mulatta, Primate Diseases immunology, Disease Models, Animal, Epstein-Barr Virus Infections virology, Herpesviridae Infections veterinary, Herpesvirus 4, Human physiology, Lymphocryptovirus physiology, Primate Diseases virology

Abstract

Epstein-Barr virus (EBV) orthologues from non-human primates (NHPs) have been studied for nearly as long as EBV itself. Cross-reactive sera and DNA hybridization studies provided the first glimpses of the closely related herpesviruses that belonged to the same gamma-1 herpesvirus, or lymphocryptovirus, genus, as EBV. Over the years, detailed molecular and sequence analyses of LCVs that infect humans and other NHPs revealed similar colinear genome structures and homologous viral proteins expressed during latent and lytic infection. Despite these similarities, experimental infection of NHPs with EBV did not result in acute symptoms or persistent infection as observed in humans, suggesting some degree of host species restriction. Genome sequencing and a molecular clone of an LCV isolate from naturally infected rhesus macaques combined with domestic colonies of LCV-naïve rhesus macaques have opened the door to a unique experimental animal model that accurately reproduces the normal transmission, acute viremia, lifelong persistence, and immune responses found in EBV-infected humans. This chapter will summarize the advances made over the last 50 years in our understanding of LCVs that naturally infect both Old and New World NHPs, the recent, groundbreaking developments in the use of rhesus macaques as an animal model for EBV infection, and how NHP LCVs and the rhLCV animal model can advance future EBV research and the development of an EBV vaccine.

Published

2015

15. Postnatal acquisition of primary rhesus cytomegalovirus infection is associated with prolonged virus shedding and impaired CD4+ T lymphocyte function.

Author

Antoine P, Varner V, Carville A, Connole M, Marchant A, and Kaur A

Subjects

Animals, Blood virology, Cross-Sectional Studies, Cytomegalovirus Infections immunology, Cytomegalovirus Infections pathology, Cytomegalovirus Infections virology, Macaca mulatta, Primate Diseases pathology, Primate Diseases virology, Saliva virology, Urine virology, Viral Load, CD4-Positive T-Lymphocytes immunology, Cytomegalovirus isolation & purification, Cytomegalovirus Infections veterinary, Primate Diseases immunology, Virus Shedding

Abstract

Background: Although virus-specific CD4(+) T lymphocytes emerge rapidly during primary cytomegalovirus (CMV) infection in humans, they exhibit a state of prolonged functional exhaustion of unknown etiology. To investigate the suitability of rhesus macaques as a model of primary human CMV infection, we examined the virologic and immunologic features of naturally acquired primary CMV infection in rhesus macaques., Methods: CMV-specific CD4(+) T lymphocytes and CMV load in blood, saliva, and urine were evaluated in a cohort of simian immunodeficiency virus (SIV)-negative rhesus macaques stratified by age into infant, juvenile, and adult groups., Results: CMV infection was detected in juvenile and adult monkeys but not in infant monkeys. CMV loads and shedding frequency in urine and saliva were significantly higher in the 2-3-year old juvenile monkeys, compared with the adult monkeys. The increased CMV load in juvenile monkeys was associated with lower polyfunctionality, impaired proliferation, and increased expression of the inhibitory receptor PD-1 in CMV-specific CD4(+) T lymphocytes. The proliferative defect was partially reversible by exogenous PD-1 blockade or addition of interleukin 2., Conclusions: Postnatal acquisition of primary CMV infection in rhesus macaques results in prolonged virus excretion and impaired CMV-specific CD4(+) T-lymphocyte function, findings that recapitulate key features of primary CMV infection in humans., (© The Author 2014. Published by Oxford University Press on behalf of the Infectious Diseases Society of America. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2014

16. African green monkeys recapitulate the clinical experience with replication of live attenuated pandemic influenza virus vaccine candidates.

Author

Matsuoka Y, Suguitan A Jr, Orandle M, Paskel M, Boonnak K, Gardner DJ, Feldmann F, Feldmann H, Marino M, Jin H, Kemble G, and Subbarao K

Subjects

Animals, Antibodies, Neutralizing blood, Antibodies, Viral blood, Chlorocebus aethiops, Disease Models, Animal, Female, Humans, Influenza Vaccines administration & dosage, Influenza, Human, Male, Mice, Orthomyxoviridae Infections immunology, Pandemics, Primate Diseases immunology, Respiratory System virology, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated immunology, Influenza A virus growth & development, Influenza A virus immunology, Influenza Vaccines immunology, Orthomyxoviridae Infections prevention & control, Primate Diseases prevention & control

Abstract

Live attenuated cold-adapted (ca) H5N1, H7N3, H6N1, and H9N2 influenza vaccine viruses replicated in the respiratory tract of mice and ferrets, and 2 doses of vaccines were immunogenic and protected these animals from challenge infection with homologous and heterologous wild-type (wt) viruses of the corresponding subtypes. However, when these vaccine candidates were evaluated in phase I clinical trials, there were inconsistencies between the observations in animal models and in humans. The vaccine viruses did not replicate well and immune responses were variable in humans, even though the study subjects were seronegative with respect to the vaccine viruses before vaccination. Therefore, we sought a model that would better reflect the findings in humans and evaluated African green monkeys (AGMs) as a nonhuman primate model. The distribution of sialic acid (SA) receptors in the respiratory tract of AGMs was similar to that in humans. We evaluated the replication of wt and ca viruses of avian influenza (AI) virus subtypes H5N1, H6N1, H7N3, and H9N2 in the respiratory tract of AGMs. All of the wt viruses replicated efficiently, while replication of the ca vaccine viruses was restricted to the upper respiratory tract. Interestingly, the patterns and sites of virus replication differed among the different subtypes. We also evaluated the immunogenicity and protective efficacy of H5N1, H6N1, H7N3, and H9N2 ca vaccines. Protection from wt virus challenge correlated well with the level of serum neutralizing antibodies. Immune responses were slightly better when vaccine was delivered by both intranasal and intratracheal delivery than when it was delivered intranasally by sprayer. We conclude that live attenuated pandemic influenza virus vaccines replicate similarly in AGMs and human subjects and that AGMs may be a useful model to evaluate the replication of ca vaccine candidates. Importance: Ferrets and mice are commonly used for preclinical evaluation of influenza vaccines. However, we observed significant inconsistencies between observations in humans and in these animal models. We used African green monkeys (AGMs) as a nonhuman primate (NHP) model for a comprehensive and comparative evaluation of pairs of wild-type and pandemic live attenuated influenza virus vaccines (pLAIV) representing four subtypes of avian influenza viruses and found that pLAIVs replicate similarly in AGMs and humans and that AGMs can be useful for evaluation of the protective efficacy of pLAIV., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published

2014

17. Identification of a vir-orthologous immune evasion gene family from primate malaria parasites.

Author

Prajapati SK and Singh OP

Subjects

Animals, Antigenic Variation, Antigens, Protozoan immunology, DNA, Protozoan chemistry, DNA, Protozoan genetics, Host-Parasite Interactions, Malaria immunology, Malaria parasitology, Multigene Family, Phylogeny, Plasmodium genetics, Plasmodium pathogenicity, Primate Diseases parasitology, Primates, Protozoan Proteins immunology, Sequence Alignment veterinary, Sequence Analysis, DNA veterinary, Virulence genetics, Antigens, Protozoan genetics, Immune Evasion genetics, Malaria veterinary, Plasmodium immunology, Primate Diseases immunology, Protozoan Proteins genetics

Abstract

The immune evasion gene family of malaria parasites encodes variant surface proteins that are expressed at the surface of infected erythrocytes and help the parasite in evading the host immune response by means of antigenic variation. The identification of Plasmodium vivax vir orthologous immune evasion gene family from primate malaria parasites would provide new insight into the evolution of virulence and pathogenesis. Three vir subfamilies viz. vir-B, vir-D and vir-G were successfully PCR amplified from primate malaria parasites, cloned and sequenced. DNA sequence analysis confirmed orthologues of vir-D subfamily in Plasmodium cynomolgi, Plasmodium simium, Plasmodium simiovale and Plasmodium fieldi. The identified vir-D orthologues are 1-9 distinct members of the immune evasion gene family which have 68-83% sequence identity with vir-D and 71.2-98.5% sequence identity within the members identified from primate malaria parasites. The absence of other vir subfamilies among primate malaria parasites reflects the limitations in the experimental approach. This study clearly identified the presence of vir-D like sequences in four species of Plasmodium infecting primates that would be useful in understanding the evolution of virulence in malaria parasites.

Published

2014

18. Production of CXC and CC chemokines by human antigen-presenting cells in response to Lassa virus or closely related immunogenic viruses, and in cynomolgus monkeys with lassa fever.

Author

Pannetier D, Reynard S, Russier M, Carnec X, and Baize S

Subjects

Animals, Humans, Immune Evasion, Male, Nucleoproteins immunology, Viral Proteins immunology, Antigen-Presenting Cells metabolism, Chemokines, CC metabolism, Chemokines, CXC metabolism, Lassa Fever immunology, Lassa Fever veterinary, Lassa virus immunology, Primate Diseases immunology

Abstract

The pathogenesis of Lassa fever (LF), a hemorrhagic fever endemic to West Africa, remains unclear. We previously compared Lassa virus (LASV) with its genetically close, but nonpathogenic homolog Mopeia virus (MOPV) and demonstrated that the strong activation of antigen-presenting cells (APC), including type I IFN production, observed in response to MOPV probably plays a crucial role in controlling infection. We show here that human macrophages (MP) produce large amounts of CC and CXC chemokines in response to MOPV infection, whereas dendritic cells (DC) release only moderate amounts of CXC chemokines. However, in the presence of autologous T cells, DCs produced CC and CXC chemokines. Chemokines were produced in response to type I IFN synthesis, as the levels of both mediators were strongly correlated and the neutralization of type I IFN resulted in an inhibition of chemokine production. By contrast, LASV induced only low levels of CXCL-10 and CXCL-11 production. These differences in chemokine production may profoundly affect the generation of virus-specific T-cell responses and may therefore contribute to the difference of pathogenicity between these two viruses. In addition, a recombinant LASV (rLASV) harboring the NP-D389A/G392A mutations, which abolish the inhibition of type I IFN response by nucleoprotein (NP), induced the massive synthesis of CC and CXC chemokines in both DC and MP, confirming the crucial role of arenavirus NP in immunosuppression and pathogenicity. Finally, we confirmed, using PBMC samples and lymph nodes obtained from LASV-infected cynomolgus monkeys, that LF was associated with high levels of CXC chemokine mRNA synthesis, suggesting that the very early synthesis of these mediators may be correlated with a favourable outcome.

Published

2014

19. A novel small animal model to study the replication of simian foamy virus in vivo.

Author

Blochmann R, Curths C, Coulibaly C, Cichutek K, Kurth R, Norley S, Bannert N, and Fiebig U

Subjects

Animals, Antibodies, Viral immunology, Macaca mulatta, Mesocricetus, Mice, Primate Diseases immunology, Retroviridae Infections immunology, Retroviridae Infections virology, Simian foamy virus genetics, Simian foamy virus isolation & purification, Cricetinae immunology, Cricetinae virology, Models, Animal, Primate Diseases virology, Retroviridae Infections veterinary, Simian foamy virus physiology, Virus Replication

Abstract

Preclinical evaluation in a small animal model would help the development of gene therapies and vaccines based on foamy virus vectors. The establishment of persistent, non-pathogenic infection with the prototype foamy virus in mice and rabbits has been described previously. To extend this spectrum of available animal models, hamsters were inoculated with infectious cell supernatant or bioballistically with a foamy virus plasmid. In addition, a novel foamy virus from a rhesus macaque was isolated and characterised genetically. Hamsters and mice were infected with this new SFVmac isolate to evaluate whether hamsters are also susceptible to infection. Both hamsters and mice developed humoral responses to either virus subtype. Virus integration and replication in different animal tissues were analysed by PCR and co-cultivation. The results strongly indicate establishment of a persistent infection in hamsters. These studies provide a further small animal model for studying FV-based vectors in addition to the established models., (© 2013 Elsevier Inc. All rights reserved.)

Published

2014

20. Loss of memory CD4+ T-cells in semi-wild mandrills (Mandrillus sphinx) naturally infected with species-specific simian immunodeficiency virus SIVmnd-1.

Author

Greenwood EJD, Schmidt F, Liégeois F, Kondova I, Herbert A, Ngoubangoye B, Rouet F, and Heeney JL

Subjects

Animals, Animals, Wild immunology, Animals, Wild virology, CD4-Positive T-Lymphocytes immunology, Cohort Studies, Mandrillus immunology, Primate Diseases virology, Simian Acquired Immunodeficiency Syndrome virology, Species Specificity, CD4-Positive T-Lymphocytes virology, Mandrillus virology, Primate Diseases immunology, Simian Acquired Immunodeficiency Syndrome immunology, Simian Immunodeficiency Virus physiology

Abstract

Simian immunodeficiency virus (SIV) infection is found in a number of African primate species and is thought to be generally non-pathogenic. However, studies of wild primates are limited to two species, with SIV infection appearing to have a considerably different outcome in each. Further examination of SIV-infected primates exposed to their natural environment is therefore warranted. We performed a large cross-sectional study of a cohort of semi-wild mandrills with naturally occurring SIV infection, including 39 SIV-negative and 33 species-specific SIVmnd-1-infected animals. This study was distinguished from previous reports by considerably greater sample size, examination of exclusively naturally infected animals in semi-wild conditions and consideration of simian T-lymphotropic virus (STLV) status in addition to SIVmnd-1 infection. We found that SIVmnd-1 infection was associated with a significant and progressive loss of memory CD4(+) T-cells. Limited but significant increases in markers of immune activation in the T-cell populations, significant increases in plasma neopterin and changes to B-cell subsets were also observed in SIV-infected animals. However, no increase in plasma soluble CD14 was observed. Histological examination of peripheral lymph nodes suggested that SIVmnd-1 infection was not associated with a significant disruption of the lymph node architecture. Whilst this species has evolved numerous strategies to resist the development of AIDS, significant effects of SIV infection could be observed when examined in a natural environment. STLVmnd-1 infection also had significant effects on some markers relevant to understanding SIV infection and thus should be considered in studies of SIV infection of African primates where present.

Published

2014

21. Therapeutic vaccination against the rhesus lymphocryptovirus EBNA-1 homologue, rhEBNA-1, elicits T cell responses to novel epitopes in rhesus macaques.

Author

Silveira EL, Fogg MH, Leskowitz RM, Ertl HC, Wiseman RW, O'Connor DH, Lieberman P, Wang F, and Villinger F

Subjects

Animals, Epitope Mapping, Epitopes, T-Lymphocyte chemistry, Epitopes, T-Lymphocyte genetics, Epitopes, T-Lymphocyte immunology, Epstein-Barr Virus Nuclear Antigens administration & dosage, Epstein-Barr Virus Nuclear Antigens chemistry, Epstein-Barr Virus Nuclear Antigens genetics, Female, Herpesviridae Infections drug therapy, Herpesviridae Infections immunology, Herpesviridae Infections virology, Lymphocryptovirus genetics, Male, Primate Diseases drug therapy, Primate Diseases virology, T-Lymphocytes virology, Vaccination, Viral Vaccines administration & dosage, Viral Vaccines chemistry, Viral Vaccines genetics, Viral Vaccines immunology, Epstein-Barr Virus Nuclear Antigens immunology, Herpesviridae Infections veterinary, Lymphocryptovirus immunology, Macaca mulatta genetics, Macaca mulatta immunology, Macaca mulatta virology, Primate Diseases immunology, T-Lymphocytes immunology

Abstract

Epstein-Barr virus (EBV) is a vaccine/immunotherapy target due to its association with several human malignancies. EBNA-1 is an EBV protein consistently expressed in all EBV-associated cancers. Herein, EBNA-1-specific T cell epitopes were evaluated after AdC-rhEBNA-1 immunizations in chronically lymphocryptovirus-infected rhesus macaques, an EBV infection model. Preexisting rhEBNA-1-specific responses were augmented in 4/12 animals, and new epitopes were recognized in 5/12 animals after vaccinations. This study demonstrated that EBNA-1-specific T cells can be expanded by vaccination.

Published

2013

22. Genome-wide analysis of T cell responses during acute and latent simian varicella virus infections in rhesus macaques.

Author

Haberthur K, Kraft A, Arnold N, Park B, Meyer C, Asquith M, Dewane J, and Messaoudi I

Subjects

Animals, Blood immunology, Bronchoalveolar Lavage Fluid immunology, Genome-Wide Association Study, Macaca mulatta, Gene Expression Profiling, Herpesviridae Infections immunology, Primate Diseases immunology, T-Lymphocytes immunology, Varicellovirus immunology, Viral Proteins immunology, Virus Latency immunology

Abstract

Varicella zoster virus (VZV) is the etiological agent of varicella (chickenpox) and herpes zoster (HZ [shingles]). Clinical observations suggest that VZV-specific T cell immunity plays a more critical role than humoral immunity in the prevention of VZV reactivation and development of herpes zoster. Although numerous studies have characterized T cell responses directed against select VZV open reading frames (ORFs), a comprehensive analysis of the T cell response to the entire VZV genome has not yet been conducted. We have recently shown that intrabronchial inoculation of young rhesus macaques with simian varicella virus (SVV), a homolog of VZV, recapitulates the hallmarks of acute and latent VZV infection in humans. In this study, we characterized the specificity of T cell responses during acute and latent SVV infection. Animals generated a robust and broad T cell response directed against both structural and nonstructural viral proteins during acute infection in bronchoalveolar lavage (BAL) fluid and peripheral blood. During latency, T cell responses were detected only in the BAL fluid and were lower and more restricted than those observed during acute infection. Interestingly, we identified a small set of ORFs that were immunogenic during both acute and latent infection in the BAL fluid. Given the close genome relatedness of SVV and VZV, our studies highlight immunogenic ORFs that may be further investigated as potential components of novel VZV vaccines that specifically boost T cell immunity.

Published

2013

23. Antibody-dependent cellular cytotoxicity is associated with control of pandemic H1N1 influenza virus infection of macaques.

Author

Jegaskanda S, Weinfurter JT, Friedrich TC, and Kent SJ

Subjects

Animals, Antibodies, Viral blood, Bronchoalveolar Lavage Fluid immunology, Cross Reactions, Gene Expression, Hemagglutinin Glycoproteins, Influenza Virus metabolism, Interferon-gamma biosynthesis, Killer Cells, Natural immunology, Lysosomal-Associated Membrane Protein 1 biosynthesis, Macaca mulatta, Antibodies, Viral immunology, Antibody-Dependent Cell Cytotoxicity immunology, Hemagglutinin Glycoproteins, Influenza Virus immunology, Influenza A Virus, H1N1 Subtype immunology, Orthomyxoviridae Infections immunology, Primate Diseases immunology

Abstract

Emerging influenza viruses pose a serious risk to global human health. Recent studies in ferrets, macaques, and humans suggest that seasonal H1N1 (sH1N1) infection provides some cross-protection against 2009 pandemic influenza viruses (H1N1pdm), but the correlates of cross-protection are poorly understood. Here we show that seasonal infection of influenza-naïve Indian rhesus macaques (Macaca mulatta) with A/Kawasaki/173/2001 (sH1N1) virus induces antibodies capable of binding the hemagglutinin (HA) of both the homologous seasonal virus and the antigenically divergent A/California/04/2009 (H1N1pdm) strain in the absence of detectable H1N1pdm-specific neutralizing antibodies. These influenza virus-specific antibodies activated macaque NK cells to express both CD107a and gamma interferon (IFN-γ) in the presence of HA proteins from either sH1N1 or H1N1pdm viruses. Although influenza virus-specific antibody-dependent cellular cytotoxicity (ADCC)-mediated NK cell activation diminished in titer over time following sH1N1 infection, these cells expanded rapidly within 7 days following H1N1pdm exposure. Furthermore, we found that influenza virus-specific ADCC was present in bronchoalveolar lavage fluid and was able to activate lung NK cells. We concluded that infection with a seasonal influenza virus can induce antibodies that mediate ADCC capable of recognizing divergent influenza virus strains. Cross-reactive ADCC may provide a mechanism for reducing the severity of divergent influenza virus infections.

Published

2013

24. The frequency of CD127(+) hepatitis C virus (HCV)-specific T cells but not the expression of exhaustion markers predicts the outcome of acute HCV infection.

Author

Shin EC, Park SH, Nascimbeni M, Major M, Caggiari L, de Re V, Feinstone SM, Rice CM, and Rehermann B

Subjects

Animals, Hepatitis C immunology, Pan troglodytes, Primate Diseases virology, T-Lymphocyte Subsets chemistry, Hepacivirus immunology, Hepatitis C veterinary, Interleukin-7 Receptor alpha Subunit analysis, Primate Diseases immunology, T-Lymphocyte Subsets immunology

Abstract

T cells are exhausted and overexpress inhibitory molecules in chronic hepatitis C virus (HCV) infection. It is unclear whether this is the cause or consequence of HCV persistence. By studying serial blood and liver samples of chimpanzees during acute infection, we demonstrate that the early expression of the memory precursor marker CD127 on HCV-specific T cells, but not the expression of inhibitory molecules on those T cells or their ligands in the liver, predicts the outcome of acute infection.

Published

2013

25. Development of whole-virus multiplex luminex-based serological assays for diagnosis of infections with kaposi's sarcoma-associated herpesvirus/human herpesvirus 8 homologs in macaques.

Author

Ryan JT and Rose TM

Subjects

Animals, Animals, Zoo, Herpesviridae Infections epidemiology, Herpesviridae Infections immunology, Macaca, Nepovirus, Primate Diseases epidemiology, Primate Diseases immunology, Primate Diseases virology, Seroepidemiologic Studies, Serologic Tests methods, Antibodies, Viral blood, Antigens, Viral, Herpesviridae Infections veterinary, Herpesvirus 8, Human immunology, Primate Diseases diagnosis

Abstract

Kaposi's sarcoma-associated herpesvirus (KSHV)/human herpesvirus 8 is a tumorigenic rhadinovirus that is associated with all forms of Kaposi's sarcoma. Current serological detection of KSHV is based on enzyme-linked immunosorbent or immunofluorescence assays that suffer from a variety of problems, including the lack of defined standards for test comparison. While KSHV is the only known human rhadinovirus, two lineages of KSHV-like rhadinoviruses are found in Old World primates: the RV1 lineage includes KSHV and retroperitoneal fibromatosis herpesvirus (RFHV) in macaques, and the RV2 lineage includes RRV and MneRV2 from different macaque species. To develop animal models of KSHV-associated diseases, we developed quantitative multiplex bead-based serological assays to detect antibodies against rhadinovirus antigens. Proteins from KSHV (RV1) and MneRV2 (RV2) virions were coupled to spectrally distinct fluorescent beads and used in Luminex flow cytometry-based assays to detect immune responses in macaques. Both assays showed large dynamic ranges with high levels of seroreactivity to both KSHV and MneRV2 proteins. A large set of macaque serum samples from the Washington National Primate Research Center was screened, and most of the samples (82%) were positive in both assays, consistent with the high level of RV1-RV2 coinfection detected by PCR. The macaque sera showed broad, variable, and unique serological responses to the different viral antigens, allowing an initial seroprevalence to be determined for the macaque viruses. The Luminex assays offer a novel multiplexed approach to assess rhadinovirus infection patterns in both humans and nonhuman primates. This will help advance our understanding of rhadinovirus biology and associated host immunological responses.

Published

2013

26. Attenuation of the adaptive immune response in rhesus macaques infected with simian varicella virus lacking open reading frame 61.

Author

Meyer C, Kerns A, Haberthur K, Dewane J, Walker J, Gray W, and Messaoudi I

Subjects

Animals, B-Lymphocytes immunology, Bronchoalveolar Lavage Fluid immunology, Bronchoalveolar Lavage Fluid virology, Chickenpox immunology, Chickenpox pathology, Chickenpox virology, Cytokines blood, Ganglia, Sensory virology, Herpesvirus 3, Human genetics, Macaca mulatta, Primate Diseases immunology, Primate Diseases pathology, Primate Diseases virology, T-Lymphocytes immunology, Viral Load, Virulence Factors genetics, Virulence Factors immunology, Virus Latency, Adaptive Immunity, Gene Deletion, Herpesvirus 3, Human immunology, Herpesvirus 3, Human pathogenicity, Viral Proteins genetics, Viral Proteins immunology

Abstract

Varicella zoster virus (VZV) is a neurotropic alphaherpesvirus that causes chickenpox during primary infection and establishes latency in sensory ganglia. Infection of rhesus macaques (RM) with the homologous simian varicella virus (SVV) recapitulates hallmarks of VZV infection. We have shown that an antisense transcript of SVV open reading frame 61 (ORF61), a viral transactivator, was detected most frequently in latently infected RM sensory ganglia. In this study, we compared disease progression, viral replication, immune response, and the establishment of latency following intrabronchial infection with a recombinant SVV lacking ORF61 (SVVΔORF61) to those following infection with wild-type (WT) SVV. Varicella severity and viral latency within sensory ganglia were comparable in RMs infected with SVVΔORF61 and WT SVV. In contrast, viral loads, B and T cell responses, and plasma inflammatory cytokine levels were decreased in RMs infected with SVVΔORF61. To investigate the mechanisms underlying the reduced adaptive immune response, we compared acute SVV gene expression, frequency and proliferation of dendritic cell (DC) subsets, and the expression of innate antiviral genes in bronchoalveolar lavage (BAL) samples. The abundance of SVV transcripts in all kinetic classes was significantly decreased in RMs infected with SVVΔORF61. In addition, we detected a higher frequency and proliferation of plasmacytoid dendritic cells in BAL fluid at 3 days postinfection in RMs infected with SVVΔORF61, which was accompanied by a slight increase in type I interferon gene expression. Taken together, our data suggest that ORF61 plays an important role in orchestrating viral gene expression in vivo and interferes with the host antiviral interferon response.

Published

2013

27. Spontaneous cervicovaginal lesions and immune cell infiltrates in nonhuman primates.

Author

Harbison CE, Ellis ME, and Westmoreland SV

Subjects

Animals, Callitrichinae, Female, Immunohistochemistry, Macaca mulatta, Papillomaviridae immunology, Primate Diseases immunology, Retrospective Studies, Simian Immunodeficiency Virus immunology, Uterine Cervical Neoplasms immunology, Uterine Cervical Neoplasms pathology, Vaginal Neoplasms immunology, Vaginal Neoplasms pathology, Primate Diseases pathology, Uterine Cervical Neoplasms veterinary, Vaginal Neoplasms veterinary

Abstract

Nonhuman primates, particularly rhesus macaques (Macaca mulatta), provide important model systems for studying human reproductive infectious diseases such as human immunodeficiency virus, human papillomavirus, and Chlamydia spp. An understanding of the spectrum of spontaneous cervical disease provides essential context for interpreting experimental disease outcomes in the female reproductive tract. This retrospective study characterizes the incidence of inflammatory and/or proliferative cervicovaginal lesions seen over a 14-year period in a multispecies nonhuman primate colony, focusing on rhesus macaques. The most common observations included a spectrum of lymphocytic accumulation from within normal limits to lymphoplasmacytic cervicitis, and suppurative inflammation with occasional squamous metaplasia or polyp formation. These inflammatory spectra frequently occurred in the context of immunosuppression following experimental simian immunodeficiency virus (SIV) infection. Cervical neoplasias were uncommon and included leiomyomas and carcinomas. Cervical sections from 13 representative cases, with an emphasis on proliferative and dysplastic lesions, were surveyed for leukocyte infiltration, abnormal epithelial proliferation, and the presence of papillomavirus antigens. Proliferative lesions showed sporadic evidence of spontaneous papillomavirus infection and variable immune cell responses. These results underscore the importance of pre screening potential experimental animals for the presence of preexisting reproductive tract disease, and the consideration of normal variability within cycling reproductive tracts in interpretation of cervical lesions.

Published

2013

28. Reacquisition of Nef-mediated tetherin antagonism in a single in vivo passage of HIV-1 through its original chimpanzee host.

Author

Götz N, Sauter D, Usmani SM, Fritz JV, Goffinet C, Heigele A, Geyer M, Bibollet-Ruche F, Learn GH, Fackler OT, Hahn BH, and Kirchhoff F

Subjects

Amino Acid Substitution, Animals, Disease Models, Animal, HIV-1 growth & development, Humans, Mutant Proteins genetics, Mutant Proteins metabolism, Mutation, Missense, Pan troglodytes, Primate Diseases virology, nef Gene Products, Human Immunodeficiency Virus genetics, Antigens, CD immunology, HIV-1 immunology, Human Immunodeficiency Virus Proteins metabolism, Primate Diseases immunology, Viral Regulatory and Accessory Proteins metabolism, Virulence Factors metabolism, nef Gene Products, Human Immunodeficiency Virus metabolism

Abstract

The interferon-induced host restriction factor tetherin poses a barrier for SIV transmission from primates to humans. After cross-species transmission, the chimpanzee precursor of pandemic HIV-1 switched from the accessory protein Nef to Vpu to effectively counteract human tetherin. As we report here, the experimental reintroduction of HIV-1 into its original chimpanzee host resulted in a virus that can use both Vpu and Nef to antagonize chimpanzee tetherin. Functional analyses demonstrated that alterations in and near the highly conserved ExxxLL motif in the C-terminal loop of Nef were critical for the reacquisition of antitetherin activity. Strikingly, just two amino acid changes allowed HIV-1 Nef to counteract chimpanzee tetherin and promote virus release. Our data demonstrate that primate lentiviruses can reacquire lost accessory gene functions during a single in vivo passage and suggest that other functional constraints keep Nef ready to regain antitetherin activity., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

29. Characterization of peripheral blood T lymphocyte subsets in Chinese rhesus macaques with repeated or long-term infection with Plasmodium cynomolgi.

Author

Li Q, Ruan Z, Zhang H, Peng N, Zhao S, Qin L, and Chen X

Subjects

Anemia prevention & control, Animals, CD3 Complex analysis, CD4 Antigens analysis, CD8 Antigens analysis, China, Disease Models, Animal, Immunophenotyping, Malaria immunology, Malaria parasitology, Malaria pathology, Parasitemia prevention & control, Primate Diseases parasitology, Primate Diseases pathology, T-Lymphocyte Subsets chemistry, Blood immunology, Macaca mulatta immunology, Malaria veterinary, Plasmodium cynomolgi immunology, Primate Diseases immunology, T-Lymphocyte Subsets immunology

Abstract

T lymphocytes play a vital role in antimalaria immunity, but there is little information about the role of T cells in malaria infection. In order to explore the profile of T cells in malaria immunity, we infected Chinese rhesus macaques with the malaria parasite (Plasmodium cynomolgi) and examined the dynamics of T cell subsets. Both repeated and long-term infections were involved. Our results showed that the monkeys in the repeated infection group acquired protective immunity through primary infection, which was evidenced by a much lower parasitemia, milder anemia, and milder fever during reinfection; the monkeys in the long-term infection group also developed protective immunity, but this was not sufficient to eliminate the parasite. The total counts of leukocytes, neutrophils, CD3+ T cells, CD4+ or CD8+ T cells, and naïve and memory CD4+ and CD8+ T cells declined during the acute phase of malaria but increased after the parasite was controlled. The total number of activated CD4+ T cells significantly increased during malaria in animals with a long-term infection, which remained at least 3 months after the termination of malaria. However, the activated CD4+ T cells decreased during the acute phase of infection in the repeated infection group and converted to preinfection levels after malaria was cured. Regulatory CD4+ T cells continued to increase during the malaria infections and quickly reverted to preinfection levels after the parasite was controlled. Our study provides a systematic analysis of the kinetic profiles of T lymphocyte subsets during malaria infections and provides some experimental insight into malaria immunology.

Published

2012

30. Control of simian immunodeficiency virus SIVmnd-1 RNA plasma viremia after coinfection or superinfection with SIVmnd-1 in SIVmnd-2-infected mandrills and vice versa.

Author

Liégeois F, Verrier D, Greenwood E, Schmidt F, Heeney J, and Rouet F

Subjects

Animals, Mandrillus immunology, Mandrillus virology, Primate Diseases immunology, Primate Diseases virology, Simian Acquired Immunodeficiency Syndrome immunology, Simian Acquired Immunodeficiency Syndrome virology, Simian Immunodeficiency Virus isolation & purification

Published

2012

31. Cross-species transmission of simian foamy virus to humans in rural Gabon, Central Africa.

Author

Mouinga-Ondémé A, Caron M, Nkoghé D, Telfer P, Marx P, Saïb A, Leroy E, Gonzalez JP, Gessain A, and Kazanji M

Subjects

Adolescent, Adult, Animals, Antibodies, Viral immunology, Cercopithecus, Child, Child, Preschool, Female, Gabon, Humans, Male, Molecular Sequence Data, Phylogeny, Primate Diseases immunology, Primate Diseases virology, Primates, Retroviridae Infections immunology, Retroviridae Infections virology, Rural Health, Simian foamy virus classification, Simian foamy virus immunology, Simian foamy virus isolation & purification, Young Adult, Primate Diseases transmission, Retroviridae Infections transmission, Retroviridae Infections veterinary, Simian foamy virus physiology

Abstract

In order to characterize simian foamy retroviruses (SFVs) in wild-born nonhuman primates (NHPs) in Gabon and to investigate cross-species transmission to humans, we obtained 497 NHP samples, composed of 286 blood and 211 tissue (bush meat) samples. Anti-SFV antibodies were found in 31 of 286 plasma samples (10.5%). The integrase gene sequence was found in 38/497 samples, including both blood and tissue samples, with novel SFVs in several Cercopithecus species. Of the 78 humans, mostly hunters, who had been bitten or scratched by NHPs, 19 were SFV seropositive, with 15 cases confirmed by PCR. All but one were infected with ape SFV. We thus found novel SFV strains in NHPs in Gabon and high cross-species transmission of SFVs from gorilla bites.

Published

2012

32. Attenuated NYCBH vaccinia virus deleted for the E3L gene confers partial protection against lethal monkeypox virus disease in cynomolgus macaques.

Author

Denzler KL, Babas T, Rippeon A, Huynh T, Fukushima N, Rhodes L, Silvera PM, and Jacobs BL

Subjects

Animals, Female, Macaca fascicularis, Male, Mpox, Monkeypox immunology, Mpox, Monkeypox mortality, Mpox, Monkeypox pathology, New York City, Primate Diseases immunology, Primate Diseases prevention & control, Skin Diseases prevention & control, Smallpox Vaccine administration & dosage, Survival Analysis, United States, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated immunology, Vaccinia virus genetics, Vaccinia virus pathogenicity, Viremia prevention & control, Gene Deletion, Mpox, Monkeypox prevention & control, Monkeypox virus immunology, RNA-Binding Proteins genetics, Smallpox Vaccine immunology, Vaccinia virus immunology, Viral Proteins genetics, Virulence Factors genetics

Abstract

The New York City Board of Health (NYCBH) vaccinia virus is the currently licensed vaccine for use in the US against smallpox. The vaccine under investigation in this study has been attenuated by deletion of the innate immune evasion gene, E3L, and shown to be protective in homologous virus mouse challenge and heterologous virus mouse and rabbit challenge models. In this study we compared NYCBH deleted for the E3L gene (NYCBHΔE3L) to NYCBH for the ability to induce phosphorylation of proinflammatory signaling proteins and the ability to protect cynomolgus macaques from heterologous challenge with monkeypox virus (MPXV). NYCBHΔE3L induced phosphorylation of PKR and eIF2α as well as p38, SAPK/JNK, and IRF3 which can lead to induction of proinflammatory gene transcription. Vaccination of macaques with two doses of NYCBHΔE3L resulted in negligible pock formation at the site of scarification in comparison to vaccination using a single dose of NYCBH, but still elicited neutralizing antibodies and protected 75% of the animals from mortality after challenge with MPXV. However, NYCBHΔE3L-vaccinated animals developed a high number of secondary skin lesions and blood viral load similar to that seen in unvaccinated controls. The NYCBHΔE3L-vaccinated animals that survived MPXV challenge were able to show resolution of blood viral load, a decrease in number of skin lesions, and an improved clinical score by three weeks post challenge. These results suggest that although the highly attenuated NYCBHΔE3L allows proinflammatory signal transduction to occur, it does not provide full protection against monkeypox challenge., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

33. Immunovirological analyses of chronically simian immunodeficiency virus SIVmnd-1- and SIVmnd-2-infected mandrills (Mandrillus sphinx).

Author

Apetrei C, Sumpter B, Souquiere S, Chahroudi A, Makuwa M, Reed P, Ribeiro RM, Pandrea I, Roques P, and Silvestri G

Subjects

Animals, Apoptosis, Blood immunology, CD4 Lymphocyte Count, Cell Proliferation, Cross-Sectional Studies, Lymph Nodes immunology, Lymphocyte Activation, Lymphocytes immunology, Simian Immunodeficiency Virus classification, Simian Immunodeficiency Virus genetics, Simian Immunodeficiency Virus immunology, Viral Load, Mandrillus immunology, Mandrillus virology, Primate Diseases immunology, Primate Diseases virology, Simian Acquired Immunodeficiency Syndrome immunology, Simian Acquired Immunodeficiency Syndrome virology, Simian Immunodeficiency Virus isolation & purification

Abstract

Simian immunodeficiency virus (SIV) infection in African nonhuman primate (NHP) natural hosts is usually nonpathogenic, despite high levels of virus replication. We have previously shown that chronic SIV infection in sooty mangabeys (SMs) and African green monkeys (AGMs) is associated with low levels of immune activation and bystander T cell apoptosis. To compare these features with those observed in another natural host, the mandrill (MND), we conducted a cross-sectional survey of the 23 SIV-infected and 25 uninfected MNDs from the only semifree colony of mandrills available worldwide. Viral loads (VLs) were determined and phenotypic and functional analysis of peripheral blood- and lymph node-derived lymphocytes was performed. We found that mandrills chronically infected with SIVmnd-1 or SIVmnd-2 have similar levels of viral replication, and we observed a trend toward lower CD4+ T cell counts in chronically SIVmnd-2-infected MNDs than SIVmnd-1-infected MNDs. No correlation between CD4+ T cell counts and VLs in SIV-infected MNDs could be established. Of note, the levels of T cell activation, proliferation, and apoptosis were comparable between SIVmnd-1- and SIVmnd-2-infected MNDs and to those observed in uninfected animals, with the only exception being an increase in tumor necrosis factor alpha-producing CD8+ T cells in SIVmnd-2-infected MNDs. Overall, these findings recapitulate previous observations in SIV-infected SMs and AGMs and lend further evidence to the hypothesis that low levels of immune activation protect natural SIV hosts from disease progression.

Published

2011

34. Transmission of clonal hepatitis C virus genomes reveals the dominant but transitory role of CD8⁺ T cells in early viral evolution.

Author

Callendret B, Bukh J, Eccleston HB, Heksch R, Hasselschwert DL, Purcell RH, Hughes AL, and Walker CM

Subjects

Amino Acid Substitution, Animals, Cluster Analysis, Disease Models, Animal, Epitopes genetics, Genotype, Hepacivirus classification, Hepacivirus isolation & purification, Hepatitis C virology, Mutation, Missense, Pan troglodytes, Primate Diseases virology, Selection, Genetic, Sequence Analysis, DNA, CD8-Positive T-Lymphocytes virology, Evolution, Molecular, Genome, Viral, Hepacivirus genetics, Hepatitis C immunology, Primate Diseases immunology

Abstract

The RNA genome of the hepatitis C virus (HCV) diversifies rapidly during the acute phase of infection, but the selective forces that drive this process remain poorly defined. Here we examined whether Darwinian selection pressure imposed by CD8(+) T cells is a dominant force driving early amino acid replacement in HCV viral populations. This question was addressed in two chimpanzees followed for 8 to 10 years after infection with a well-defined inoculum composed of a clonal genotype 1a (isolate H77C) HCV genome. Detailed characterization of CD8(+) T cell responses combined with sequencing of recovered virus at frequent intervals revealed that most acute-phase nonsynonymous mutations were clustered in class I epitopes and appeared much earlier than those in the remainder of the HCV genome. Moreover, the ratio of nonsynonymous to synonymous mutations, a measure of positive selection pressure, was increased 50-fold in class I epitopes compared with the rest of the HCV genome. Finally, some mutation of the clonal H77C genome toward a genotype 1a consensus sequence considered most fit for replication was observed during the acute phase of infection, but the majority of these amino acid substitutions occurred slowly over several years of chronic infection. Together these observations indicate that during acute hepatitis C, virus evolution was driven primarily by positive selection pressure exerted by CD8(+) T cells. This influence of immune pressure on viral evolution appears to subside as chronic infection is established and genetic drift becomes the dominant evolutionary force.

Published

2011

35. Virus infection stages and distinct Th1 or Th17/Th22 T-cell responses in malaria/SHIV coinfection correlate with different outcomes of disease.

Author

Ryan-Payseur B, Ali Z, Huang D, Chen CY, Yan L, Wang RC, Collins WE, Wang Y, and Chen ZW

Subjects

Animals, Disease Models, Animal, Macaca mulatta, Plasmodium immunology, Plasmodium pathogenicity, Primate Diseases immunology, Simian Immunodeficiency Virus immunology, Simian Immunodeficiency Virus pathogenicity, Treatment Outcome, Malaria immunology, Simian Acquired Immunodeficiency Syndrome immunology, Th1 Cells immunology, Th17 Cells immunology

Abstract

Background: Malaria and AIDS represent 2 leading causes of death from infectious diseases worldwide, and their high geographic overlap means coinfection is prevalent. It remains unknown whether distinct immune responses during coinfection with malaria and human immunodeficiency virus (HIV) affect clinical outcomes., Methods: We tested this hypothesis by employing macaque models of coinfection with malaria and simian-human immunodeficiency virus (SHIV)., Results: Plasmodium fragile malaria coinfection of acutely SHIV-infected macaques induced hyperimmune activation and remarkable expansion of CD4+ and CD8+ T effector cells de novo producing interferon γ or tumor necrosis factor α. Malaria-driven cellular hyperactivation/expansion and high-level Th1-cytokines enhanced SHIV disease characterized by increasing CD4+ T-cell depletion, profound lymphoid depletion or destruction, and even necrosis in lymph nodes and spleens. Importantly, malaria/SHIV-mediated depletion, destruction, and necrosis in lymphoid tissues led to bursting parasite replication and fatal virus-associated malaria. Surprisingly, chronically SHIV-infected macaques without AIDS employed different defense mechanisms during malaria coinfection, and mounted unique ∼200-fold expansion of interleukin 17+/interleukin 22+ T effectors with profound Th1 suppression. Such remarkable expansion of Th17/Th22 cells and inhibition of Th1 response coincided with development of immunity against fatal virus-associated malaria without accelerating SHIV disease., Conclusions: These novel findings suggest that virus infection status and selected Th1 or Th17/Th22 responses after malaria/AIDS-virus coinfection correlate with distinct outcomes of virus infection and malaria.

Published

2011

36. Preclinical prophylactic efficacy testing of Sm-p80-based vaccine in a nonhuman primate model of Schistosoma mansoni infection and immunoglobulin G and E responses to Sm-p80 in human serum samples from an area where schistosomiasis is endemic.

Author

Ahmad G, Zhang W, Torben W, Ahrorov A, Damian RT, Wolf RF, White GL, Carey DW, Mwinzi PN, Ganley-Leal L, Kennedy RC, and Siddiqui AA

Subjects

Animals, Antigens, Helminth administration & dosage, Cytokines metabolism, Disease Models, Animal, Female, Humans, Immunoglobulin E blood, Immunoglobulin G blood, Male, Papio, Primate Diseases immunology, Primate Diseases prevention & control, Serum immunology, Vaccination methods, Vaccines, DNA administration & dosage, Vaccines, Subunit administration & dosage, Vaccines, Subunit immunology, Antibodies, Helminth blood, Antigens, Helminth immunology, Endemic Diseases, Schistosoma mansoni immunology, Schistosomiasis mansoni immunology, Schistosomiasis mansoni prevention & control, Vaccines, DNA immunology

Abstract

The prophylactic efficacy of a schistosome antigen (Sm-p80) was tested in a nonhuman primate model, the baboon. Using a total of 28 baboons, different vaccination strategies were used including recombinant Sm-p80 protein formulated in Toll-like receptor 7 and Toll-like receptor 9 agonists, and DNA priming followed by boosting with protein plus adjuvants. Recombinant protein approaches provided levels of prophylactic efficacy of 52%-58%, whereas prime-boost approaches conferred 38%-47% protection in baboons. An appropriately balanced pro-inflammatory (T-helper 17 [Th17] and Th1) and anti-inflammatory (Th2) type of response was generated; the Th1 and Th17 types of immune responses appear to be indicative of increased prophylactic efficacy. Production and expression of several cytokines (interleukin 2 [IL-2], interferon γ, IL-12α, IL-1β, IL-6, and IL-22) were up-regulated in vaccinated animals. Human correlate studies revealed Sm-p80 reactivity with immunoglobulin G in human serum samples from schistosome-infected individuals. In addition, a complete lack of prevailing Sm-p80-specific immunoglobulin E in a high-risk or infected population was observed, thus minimizing the risk of hypersensitivity reaction following vaccination with Sm-p80 in humans. This study provided the proof of concept to move Sm-p80 forward into further preclinical development leading to human clinical trials.

Published

2011

37. Cryptosporidiosis in rhesus macaques challenged during acute and chronic phases of SIV infection.

Author

Singh I, Carville A, and Tzipori S

Subjects

Animal Structures parasitology, Animals, Blood parasitology, CD4 Lymphocyte Count, Cryptosporidiosis immunology, Cryptosporidiosis parasitology, Cryptosporidium parvum immunology, Cryptosporidium parvum pathogenicity, Disease Models, Animal, Disease Progression, Feces parasitology, Macaca mulatta, Primate Diseases immunology, Primate Diseases parasitology, Cryptosporidiosis pathology, Primate Diseases pathology, Simian Acquired Immunodeficiency Syndrome complications

Abstract

The intestinal immune dysfunction due to loss of mucosal and peripheral CD4(+) T cells in individuals with HIV/AIDS is presumably responsible for the establishment of persistent cryptosporidiosis. Simian immunodeficiency virus (SIV)-infected macaques were used to investigate the phase/timing in SIV infection, which permits a self-limiting Cryptosporidium parvum infection to become persistent in immunodeficient hosts because of significant mucosal immune defects. Two groups of SIV-infected macaques were challenged with C. parvum; one was challenged during the acute SIV infection phase (2 weeks post-SIV infection) and the second was challenged during the chronic SIV phase (CD4 counts 200-500 cells/μl of blood). Samples (fecal, blood, biopsy, and necropsy) were collected at different time points after infection to correlate the progression of disease with the immune status of the animals. All seven SIV-infected macaques challenged during the acute phase of SIV infection became persistently infected and excreted oocysts for 1-4 months. However, four of the six in the chronic SIV phase became infected with cryptosporidiosis, of which one survived 2 weeks and one became naturally infected. Sequential analysis of CD4(+) in blood and intestines of coinfected macaques exhibited pronounced losses of CD4 T cells during the first 2 weeks after SIV infection, followed by transient rebound of CD4 T cells in the gut after C. parvum infection, and then a gradual loss over subsequent months. Persistent cryptosporidiosis was more consistently induced during the acute SIV phase indicating that profound viral damage to gut lymphoid tissue during the acute phase was more conducive, compared with the chronic phase, to establishing persistent cryptosporidiosis than low circulating CD4 T cells.

Published

2011

38. Deletion of the monkeypox virus inhibitor of complement enzymes locus impacts the adaptive immune response to monkeypox virus in a nonhuman primate model of infection.

Author

Estep RD, Messaoudi I, O'Connor MA, Li H, Sprague J, Barron A, Engelmann F, Yen B, Powers MF, Jones JM, Robinson BA, Orzechowska BU, Manoharan M, Legasse A, Planer S, Wilk J, Axthelm MK, and Wong SW

Subjects

Adaptive Immunity, Animals, B-Lymphocytes immunology, Blood virology, DNA, Viral chemistry, DNA, Viral genetics, Disease Models, Animal, Female, Gene Deletion, Lung virology, Macaca mulatta, Male, Molecular Sequence Data, Mpox, Monkeypox virology, Primate Diseases immunology, Primate Diseases pathology, Primate Diseases virology, Sequence Analysis, DNA, Skin pathology, T-Lymphocytes immunology, Viral Proteins genetics, Virulence Factors genetics, Mpox, Monkeypox immunology, Mpox, Monkeypox pathology, Monkeypox virus immunology, Monkeypox virus pathogenicity, Viral Proteins metabolism, Virulence Factors metabolism

Abstract

Monkeypox virus (MPXV) is an orthopoxvirus closely related to variola virus, the causative agent of smallpox. Human MPXV infection results in a disease that is similar to smallpox and can also be fatal. Two clades of MPXV have been identified, with viruses of the central African clade displaying more pathogenic properties than those within the west African clade. The monkeypox inhibitor of complement enzymes (MOPICE), which is not expressed by viruses of the west African clade, has been hypothesized to be a main virulence factor responsible for increased pathogenic properties of central African strains of MPXV. To gain a better understanding of the role of MOPICE during MPXV-mediated disease, we compared the host adaptive immune response and disease severity following intrabronchial infection with MPXV-Zaire (n = 4), or a recombinant MPXV-Zaire (n = 4) lacking expression of MOPICE in rhesus macaques (RM). Data presented here demonstrate that infection of RM with MPXV leads to significant viral replication in the peripheral blood and lungs and results in the induction of a robust and sustained adaptive immune response against the virus. More importantly, we show that the loss of MOPICE expression results in enhanced viral replication in vivo, as well as a dampened adaptive immune response against MPXV. Taken together, these findings suggest that MOPICE modulates the anti-MPXV immune response and that this protein is not the sole virulence factor of the central African clade of MPXV.

Published

2011

39. A protein-based pneumococcal vaccine protects rhesus macaques from pneumonia after experimental infection with Streptococcus pneumoniae.

Author

Denoël P, Philipp MT, Doyle L, Martin D, Carletti G, and Poolman JT

Subjects

Adjuvants, Immunologic administration & dosage, Animals, Antibodies, Bacterial blood, Bacterial Load, Bacterial Proteins administration & dosage, Bacterial Proteins immunology, Disease Models, Animal, Hydrolases administration & dosage, Hydrolases immunology, Immunization, Secondary methods, Lung microbiology, Macaca mulatta, Male, Pneumonia, Pneumococcal immunology, Primate Diseases immunology, Primate Diseases prevention & control, Streptolysins administration & dosage, Streptolysins immunology, Survival Analysis, Vaccination methods, Vaccines, Subunit administration & dosage, Vaccines, Subunit immunology, Antigens, Bacterial administration & dosage, Antigens, Bacterial immunology, Pneumococcal Vaccines administration & dosage, Pneumococcal Vaccines immunology, Pneumonia, Pneumococcal prevention & control, Streptococcus pneumoniae immunology

Abstract

Infections caused by Streptococcus pneumoniae are a major cause of mortality throughout the world. Protein-based pneumococcal vaccines are envisaged to replace or complement the current polysaccharide-based vaccines. In this context, detoxified pneumolysin (dPly) and pneumococcal histidine triad protein D (PhtD) are two potential candidates for incorporation into pneumococcal vaccines. In this study, the protective efficacy of a PhtD-dPly vaccine was evaluated in a rhesus macaque (Macaca mulatta) model of pneumonia. The animals were immunized twice with 10 μg of PhtD and 10 μg of dPly formulated in the Adjuvant System AS02 or with AS02 alone, before they were challenged with a 19F pneumococcal strain. The survival was significantly higher in the protein-vaccinated group and seemed to be linked to the capacity to greatly reduce bacterial load within the first week post-challenge. Vaccination elicited high concentrations of anti-PhtD and anti-Ply antibodies and a link was found between survival and antibody levels. In conclusion, AS02-adjuvanted PhtD-dPly vaccine protects against S. pneumoniae-induced pneumonia. It is probable that the protection is at least partially mediated by PhtD- and Ply-specific antibodies., (Copyright © 2011. Published by Elsevier Ltd.)

Published

2011

40. Biological feasibility of measles eradication.

Author

Moss WJ and Strebel P

Subjects

Animals, Antibodies, Viral biosynthesis, Disease Reservoirs virology, Disease Susceptibility, Genetic Variation, Global Health, HIV Infections complications, HIV Infections immunology, Humans, Immunity, Maternally-Acquired, Infant, Measles diagnosis, Measles Vaccine immunology, Measles virus genetics, Measles virus immunology, Measles virus isolation & purification, Population Surveillance, Primate Diseases immunology, Primate Diseases virology, Primates, RNA, Viral chemistry, RNA, Viral isolation & purification, Measles epidemiology, Measles prevention & control

Abstract

Recent progress in reducing global measles mortality has renewed interest in measles eradication. Three biological criteria are deemed important for disease eradication: (1) humans are the sole pathogen reservoir; (2) accurate diagnostic tests exist; and (3) an effective, practical intervention is available at reasonable cost. Interruption of transmission in large geographical areas for prolonged periods further supports the feasibility of eradication. Measles is thought by many experts to meet these criteria: no nonhuman reservoir is known to exist, accurate diagnostic tests are available, and attenuated measles vaccines are effective and immunogenic. Measles has been eliminated in large geographical areas, including the Americas. Measles eradication is biologically feasible. The challenges for measles eradication will be logistical, political, and financial., (© The Author 2011. Published by Oxford University Press on behalf of the Infectious Diseases Society of America. All rights reserved.)

Published

2011

41. Antibody responses to a spore carbohydrate antigen as a marker of nonfatal inhalation anthrax in rhesus macaques.

Author

Saile E, Boons GJ, Buskas T, Carlson RW, Kannenberg EL, Barr JR, Boyer AE, Gallegos-Candela M, and Quinn CP

Subjects

Animals, Anthrax diagnosis, Anthrax immunology, Anthrax veterinary, Antigens, Bacterial immunology, Macaca mulatta, Primate Diseases immunology, Skin Diseases, Bacterial, Antibodies, Bacterial blood, Carbohydrates immunology, Membrane Glycoproteins immunology, Primate Diseases diagnosis, Spores, Bacterial immunology

Abstract

The Bacillus anthracis exosporium protein BclA contains an O-linked antigenic tetrasaccharide whose terminal sugar is known as anthrose (J. M. Daubenspeck et al., J. Biol. Chem. 279:30945-30953, 2004). We hypothesized that serologic responses to anthrose may have diagnostic value in confirming exposure to aerosolized B. anthracis. We evaluated the serologic responses to a synthetic anthrose-containing trisaccharide (ATS) in a group of five rhesus macaques that survived inhalation anthrax following exposure to B. anthracis Ames spores. Two of five animals (RM2 and RM3) were treated with ciprofloxacin starting at 48 hours postexposure and two (RM4 and RM5) at 72 h postexposure; one animal (RM1) was untreated. Infection was confirmed by blood culture and detection of anthrax toxin lethal factor (LF) in plasma. Anti-ATS IgG responses were determined at 14, 21, 28, and 35 days postexposure, with preexposure serum as a control. All animals, irrespective of ciprofloxacin treatment, mounted a specific, measurable anti-ATS IgG response. The earliest detectable responses were on days 14 (RM1, RM2, and RM5), 21 (RM4), and 28 (RM3). Specificity of the anti-ATS responses was demonstrated by competitive-inhibition enzyme immunoassay (CIEIA), in which a 2-fold (wt/wt) excess of carbohydrate in a bovine serum albumin (BSA) conjugate of the oligosaccharide (ATS-BSA) effected >94% inhibition, whereas a structural analog lacking the 3-hydroxy-3-methyl-butyryl moiety at the C-4" of the anthrosyl residue had no inhibition activity. These data suggest that anti-ATS antibody responses may be used to identify aerosol exposure to B. anthracis spores. The anti-ATS antibody responses were detectable during administration of ciprofloxacin.

Published

2011

42. Infection, viral dissemination, and antibody responses of rhesus macaques exposed to the human gammaretrovirus XMRV.

Author

Onlamoon N, Das Gupta J, Sharma P, Rogers K, Suppiah S, Rhea J, Molinaro RJ, Gaughan C, Dong B, Klein EA, Qiu X, Devare S, Schochetman G, Hackett J Jr, Silverman RH, and Villinger F

Subjects

Animals, CD4-Positive T-Lymphocytes virology, Chronic Disease, Epithelial Cells virology, Humans, Lymphocytes virology, Macrophages virology, Male, Primate Diseases immunology, Primate Diseases pathology, Proviruses isolation & purification, Retroviridae Infections immunology, Retroviridae Infections pathology, Viral Tropism, Viremia, Virus Activation, Virus Latency, Antibodies, Viral blood, Disease Models, Animal, Macaca mulatta virology, Primate Diseases virology, Retroviridae Infections virology, Xenotropic murine leukemia virus-related virus immunology, Xenotropic murine leukemia virus-related virus pathogenicity

Abstract

Xenotropic murine leukemia-related virus (XMRV) was identified in association with human prostate cancer and chronic fatigue syndrome. To examine the infection potential, kinetics, and tissue distribution of XMRV in an animal model, we inoculated five macaques with XMRV intravenously. XMRV established a persistent, chronic disseminated infection, with low transient viremia and provirus in blood lymphocytes during acute infection. Although undetectable in blood after about a month, XMRV viremia was reactivated at 9 months, confirming the chronicity of the infection. Furthermore, XMRV Gag was detected in tissues throughout, with wide dissemination throughout the period of monitoring. Surprisingly, XMRV infection showed organ-specific cell tropism, infecting CD4 T cells in lymphoid organs including the gastrointestinal lamina propria, alveolar macrophages in lung, and epithelial/interstitial cells in other organs, including the reproductive tract. Of note, in spite of the intravenous inoculation, extensive XMRV replication was noted in prostate during acute but not chronic infection even though infected cells were still detectable by fluorescence in situ hybridization (FISH) in prostate at 5 and 9 months postinfection. Marked lymphocyte activation occurred immediately postinfection, but antigen-specific cellular responses were undetectable. Antibody responses were elicited and boosted upon reexposure, but titers decreased rapidly, suggesting low antigen stimulation over time. Our findings establish a nonhuman primate model to study XMRV replication/dissemination, transmission, pathogenesis, immune responses, and potential future therapies.

Published

2011

43. Vaccine-induced control of viral shedding following rhesus cytomegalovirus challenge in rhesus macaques.

Author

Abel K, Martinez J, Yue Y, Lacey SF, Wang Z, Strelow L, Dasgupta A, Li Z, Schmidt KA, Oxford KL, Assaf B, Longmate JA, Diamond DJ, and Barry PA

Subjects

Animals, Cytomegalovirus Infections immunology, Cytomegalovirus Infections virology, Cytomegalovirus Vaccines administration & dosage, Disease Models, Animal, Female, Immunization, Secondary methods, Macaca mulatta, Male, Mouth Mucosa virology, Primate Diseases immunology, Primate Diseases virology, Saliva virology, Vaccination methods, Vaccines, DNA administration & dosage, Viral Load, Cytomegalovirus Infections prevention & control, Cytomegalovirus Vaccines immunology, Primate Diseases prevention & control, Vaccines, DNA immunology, Virus Shedding

Abstract

The use of animal models of human cytomegalovirus (HCMV) infection is critical to refine HCMV vaccine candidates. Previous reports have demonstrated that immunization of rhesus monkeys against rhesus cytomegalovirus (RhCMV) can reduce both local and systemic replication of RhCMV following experimental RhCMV challenge. These studies used prime/boost combinations of DNA expression plasmids alone or DNA priming and boosting with either inactivated virion particles or modified vaccinia virus Ankara (MVA) expressing the same antigens. Viral outcomes included reduced RhCMV replication at the site of subcutaneous inoculation and RhCMV viremia following intravenous inoculation. Since shedding of cytomegalovirus from mucosal surfaces is critical for horizontal transmission of the virus, DNA priming/MVA boosting was evaluated for the ability to reduce oral shedding of RhCMV following subcutaneous challenge. Of six rhesus monkeys vaccinated exclusively against RhCMV glycoprotein B (gB), phosphoprotein 65 (pp65), and immediate-early 1 (IE1), half showed viral loads in saliva that were lower than those of control monkeys by 1 to 3 orders of magnitude. Further, there was a strong association of memory pp65 T cell responses postchallenge in animals exhibiting the greatest reduction in oral shedding. These results highlight the fact that a DNA/MVA vaccination regimen can achieve a notable reduction in a critical parameter of viral replication postchallenge. The recently completed clinical trial of a gB subunit vaccine in which the rate of HCMV infection was reduced by 50% in the individuals receiving the vaccine is consistent with the results of this study suggesting that additional immunogens are likely essential for maximum protection in an outbred human population.

Published

2011

44. Development of therapeutic and prophylactic vaccine against Tuberculosis using monkey and transgenic mice models.

Author

Kita Y, Okada M, Nakajima T, Kanamaru N, Hashimoto S, Nagasawa T, Kaneda Y, Yoshida S, Nishida Y, Nakatani H, Takao K, Kishigami C, Nishimatsu S, Sekine Y, Takamori Y, McMurray DN, De la Cruz EC, Tan EV, Abalos RM, Burgos JA, Saunderson P, and Sakatani M

Subjects

Animals, Bacterial Proteins genetics, Cell Proliferation, Chaperonin 60 genetics, Disease Models, Animal, Immunization, Secondary methods, Interleukin-12 genetics, Interleukin-12 immunology, Leukocytes, Mononuclear immunology, Macaca fascicularis, Mice, Mice, SCID, Mice, Transgenic, Mycobacterium tuberculosis genetics, Primate Diseases immunology, Primate Diseases prevention & control, Recombinant Proteins genetics, Recombinant Proteins immunology, Rodent Diseases immunology, Rodent Diseases prevention & control, Vaccination methods, Bacterial Proteins immunology, Chaperonin 60 immunology, Mycobacterium tuberculosis immunology, Tuberculosis Vaccines administration & dosage, Tuberculosis Vaccines immunology

Abstract

Purpose: BCG is not efficacious against M. tuberculosis (TB) in adult. Therefore, novel TB vaccines were established by using three kinds of animal models (cynomolgus monkey model which is the best animal model of human TB, IL-2R knock out SCID mice as a human immune model, and granulysin transgenic mouse)., Methods and Results: DNA vaccine expressing TB Hsp65 and IL-12 was delivered by the hemagglutinating virus of Japan (HVJ)-envelope. The BCG prime followed by Hsp65+IL-12/HVJ vaccine boost showed a synergistic effect in the TB-infected cynomolgus monkey (100% survival). In contrast, 33% of monkeys were alive in BCG alone group. Furthermore, the prolongation of survival period of the monkey was observed by the combination of BCG and DNA vaccine even when the boost was performed after long-term period (4month) from prime. This combination also improved the erythrocyte sedimentation rate (ESR), increased the body weight, and augmented the proliferation of PBL and IL-12 production at higher levels than BCG alone or saline. Furthermore, this vaccine exerted therapeutic efficacy in IL-2R knock out SCID-PBL/hu mice, which were transplanted with human T cells. Granulysin is an important defensive molecule expressed by human T cells and NK cells and has a cytolytic activity against microbes including Mycobacterium tuberculosis (TB) and tumors. Expression of 15kD (15K) granulysin protein and mRNA in CD8 positive T cells in the patients infected with drug sensitive (TB) or multi-drug resistant (MDR-TB) M. tuberculosis were lower than that in the healthy volunteers, suggesting that granulysin treatment might improve the tuberculous disease in human. Therefore, we established two kinds of granulysin transgenic mice (15K granulysin transgenic mice and 9K granulysin transgenic mice). It was demonstrated that 15K granulysin transgenic mice as well as 9K granulysin transgenic mice exerted in vivo anti-TB effect, including the decrease of the number of TB and augmentation of the CTL activity. These are the first findings which demonstrate in vivo effects of 15K granulysin and 9K granulysin against TB infection. Moreover, DNA vaccine expressing 15K granulysin showed a therapeutic activity against TB in mice., Conclusion: These data indicate that monkey, IL-2R gene-knock out SCID-PBL/hu and granulysin transgenic mice models provide useful tools for the development of novel vaccines (HVJ-Envelope/Hsp65 DNA + IL-12 DNA vaccine and granulysin vaccine) against TB.

Published

2011

45. Neutralizing antibodies to human and simian adenoviruses in humans and New-World monkeys.

Author

Ersching J, Hernandez MI, Cezarotto FS, Ferreira JD, Martins AB, Switzer WM, Xiang Z, Ertl HC, Zanetti CR, and Pinto AR

Subjects

Adolescent, Adult, Aged, Animals, Brazil, Female, Humans, Male, Middle Aged, Platyrrhini, Primate Diseases virology, Seroepidemiologic Studies, Young Adult, Adenoviridae Infections immunology, Adenoviridae Infections veterinary, Adenoviruses, Human immunology, Adenoviruses, Simian immunology, Antibodies, Neutralizing blood, Antibodies, Viral blood, Primate Diseases immunology

Abstract

Vaccines based on adenovirus (Ad) vectors are currently in development against several pathogens. However, neutralizing antibodies (NAb) to human adenovirus type 5 (AdHu5), the best-studied vector, are highly prevalent in humans worldwide. Less-prevalent adenoviruses, including human and simian serotypes, provide alternative vaccine platforms. In this study, sera from 200 Brazilian human subjects and New-World monkeys were tested for NAb titers to human serotypes AdHu5 and AdHu26 and chimpanzee-origin Ad viruses of serotype 6 (AdC6) and serotype 68 (AdC68). Seroprevalence rates of NAb in humans were 69.5% for AdHu5, 44% for AdHu26, 21% for AdC6 and 23.5% for AdC68. In addition, NAb titers to human Ad were consistently higher than those found to simian serotypes. Surprisingly, sera from some New-World monkey species were able to neutralize AdC6 and/or AdC68. A possible explanation for these findings and the implications for the development of Ad-vector vaccines are discussed in detail., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

46. Vaccination of rhesus macaques with the anthrax vaccine adsorbed vaccine produces a serum antibody response that effectively neutralizes receptor-bound protective antigen in vitro.

Author

Clement KH, Rudge TL Jr, Mayfield HJ, Carlton LA, Hester A, Niemuth NA, Sabourin CL, Brys AM, and Quinn CP

Subjects

Animals, Anthrax immunology, Anthrax mortality, Anthrax prevention & control, Anthrax Vaccines administration & dosage, Antigens, Bacterial immunology, Bacterial Toxins immunology, Disease Models, Animal, Macaca mulatta, Neutralization Tests, Primate Diseases immunology, Primate Diseases mortality, Survival, Anthrax veterinary, Anthrax Vaccines immunology, Antibodies, Bacterial blood, Antibodies, Neutralizing blood, Bacterial Toxins antagonists & inhibitors, Primate Diseases prevention & control

Abstract

Anthrax toxin (ATx) is composed of the binary exotoxins lethal toxin (LTx) and edema toxin (ETx). They have separate effector proteins (edema factor and lethal factor) but have the same binding protein, protective antigen (PA). PA is the primary immunogen in the current licensed vaccine anthrax vaccine adsorbed (AVA [BioThrax]). AVA confers protective immunity by stimulating production of ATx-neutralizing antibodies, which could block the intoxication process at several steps (binding of PA to the target cell surface, furin cleavage, toxin complex formation, and binding/translocation of ATx into the cell). To evaluate ATx neutralization by anti-AVA antibodies, we developed two low-temperature LTx neutralization activity (TNA) assays that distinguish antibody blocking before and after binding of PA to target cells (noncomplexed [NC] and receptor-bound [RB] TNA assays). These assays were used to investigate anti-PA antibody responses in AVA-vaccinated rhesus macaques (Macaca mulatta) that survived an aerosol challenge with Bacillus anthracis Ames spores. Results showed that macaque anti-AVA sera neutralized LTx in vitro, even when PA was prebound to cells. Neutralization titers in surviving versus nonsurviving animals and between prechallenge and postchallenge activities were highly correlated. These data demonstrate that AVA stimulates a myriad of antibodies that recognize multiple neutralizing epitopes and confirm that change, loss, or occlusion of epitopes after PA is processed from PA83 to PA63 at the cell surface does not significantly affect in vitro neutralizing efficacy. Furthermore, these data support the idea that the full-length PA83 monomer is an appropriate immunogen for inclusion in next-generation anthrax vaccines.

Published

2010

47. Establishment of an aerosol challenge model of tuberculosis in rhesus macaques and an evaluation of endpoints for vaccine testing.

Author

Sharpe SA, McShane H, Dennis MJ, Basaraba RJ, Gleeson F, Hall G, McIntyre A, Gooch K, Clark S, Beveridge NE, Nuth E, White A, Marriott A, Dowall S, Hill AV, Williams A, and Marsh PD

Subjects

Animals, Biomarkers, Cell Proliferation, Endpoint Determination, Humans, Interferon-gamma metabolism, Leukocytes, Mononuclear immunology, Lung pathology, Macaca mulatta, Magnetic Resonance Imaging, Mycobacterium tuberculosis immunology, Primate Diseases immunology, Primate Diseases pathology, Primate Diseases prevention & control, Radiography, Thoracic, Survival Analysis, Tuberculosis Vaccines administration & dosage, Tuberculosis, Pulmonary immunology, Aerosols, Disease Models, Animal, Inhalation, Mycobacterium tuberculosis pathogenicity, Tuberculosis Vaccines immunology, Tuberculosis, Pulmonary pathology, Tuberculosis, Pulmonary prevention & control

Abstract

The establishment of an aerosol challenge model in nonhuman primates (NHPs) for the testing of vaccines against Mycobacterium tuberculosis would assist the global effort to optimize novel vaccination strategies. The endpoints used in preclinical challenge studies to identify measures of disease burden need to be accurate and sensitive enough to distinguish subtle differences and benefits afforded by different tuberculosis (TB) vaccine regimens when group sizes are inevitably small. This study sought to assess clinical and nonclinical endpoints as potentially sensitive measures of disease burden in a challenge study with rhesus macaques by using a new protocol of aerosol administration of M. tuberculosis. Immunological and clinical readouts were assessed for utility in vaccine evaluation studies. This is the first example of TB vaccine evaluation with rhesus macaques where long-term survival was one of the primary endpoints. However, we found that in NHP vaccine efficacy studies with maximum group sizes of six animals, survival did not provide a valuable endpoint. Two approaches used in human clinical trials for the evaluation of the gamma interferon (IFN-gamma) response to vaccination (enzyme-linked immunospot [ELISpot] assay and enzyme-linked immunosorbent assay [ELISA]) were included in this study. The IFN-gamma profiles induced following vaccination were found not to correlate with protection, nor did the level of purified protein derivative (PPD)-specific proliferation. The only readout to reliably distinguish vaccinated and unvaccinated NHPs was the determination of lung lesion burden using magnetic resonance (MR) imaging combined with stereology at the end of the study. Therefore, the currently proposed key markers were not shown to correlate with protection, and only imaging offered a potentially reliable correlate.

Published

2010

48. No in vivo infection of triple immunosuppressed non-human primates after inoculation with high titers of porcine endogenous retroviruses.

Author

Specke V, Plesker R, Wood J, Coulibaly C, Suling K, Patience C, Kurth R, Schuurman HJ, and Denner J

Subjects

Animals, Cyclosporine therapeutic use, DNA, Viral blood, Drug Therapy, Combination, Endogenous Retroviruses genetics, Female, Male, Methylprednisolone therapeutic use, Primate Diseases immunology, Primate Diseases virology, Retroviridae Infections immunology, Retroviridae Infections prevention & control, Sirolimus therapeutic use, Transplantation, Heterologous, Endogenous Retroviruses pathogenicity, Immunosuppressive Agents therapeutic use, Macaca mulatta immunology, Macaca nemestrina immunology, Papio immunology, Primate Diseases prevention & control, Retroviridae Infections veterinary, Swine virology

Abstract

Unlabelled: Porcine endogenous retroviruses (PERVs) released from pig tissue can infect selected human cells in vitro and therefore represent a safety risk for xenotransplantation using pig cells, tissues, or organs. Although PERVs infect cells of numerous species in vitro, attempts to establish reliable animal models failed until now. Absence of PERV transmission has been shown in first experimental and clinical xenotransplantations; however, these trials suffered from the absence of long-term exposure (transplant survival) and profound immunosuppression., Methods: We conducted infectivity studies in rhesus monkeys, pig-tailed monkeys, and baboons under chronic immunosuppression with cyclosporine A, methylprednisolone, and the rapamycin derivative. These species were selected because they are close to the human species and PERVs can be transmitted in vitro to cells of these species. In addition, the animals received twice, a C1 esterase inhibitor to block complement activation before inoculation of PERV. In order to overcome the complications of microchimerism, animals were inoculated with high titers of cell-free PERV. In addition, to enable transmission via cell-cell contact, some animals also received virus-producing cells. For inoculation the primate cell-adapted strain PERV/5 degrees was used which is characterized by a high infectious titer. Produced on human cells, this virus does not express alpha 1,3 Gal epitopes, does not contain porcine antigens on the viral surface and is therefore less immunogenic in non-human primates compared with pig cell-derived virus. Finally, we present evidence that PERV/5 degrees productively infects cells from baboons and rhesus monkeys., Results: In a follow-up period of 11 months, no antibody production against PERV and no integration of proviral DNA in blood cells was observed. Furthermore, no PERV sequences were detected in the DNA of different organs taken after necropsy., Conclusion: These results indicate that in a primate model, in the presence of chronic immunosuppression, neither the inoculation of cell-free nor cell-associated PERV using a virus already adapted to primate cells results in an infection; this is despite the fact that peripheral blood mononuclear cells of the same animals are infectible in vitro.

Published

2009

49. Role of Nef in primate lentiviral immunopathogenesis.

Author

Kirchhoff F, Schindler M, Specht A, Arhel N, and Münch J

Subjects

Animals, Down-Regulation immunology, Gene Products, nef genetics, Humans, Lentivirus genetics, Primate Diseases genetics, Receptors, Antigen, T-Cell immunology, Virus Replication, Gene Products, nef immunology, Gene Products, nef metabolism, Lentivirus immunology, Lentivirus pathogenicity, Primate Diseases immunology, Primate Diseases virology

Abstract

More than a decade ago it was established that intact nef genes are critical for efficient viral persistence and greatly accelerate disease progression in SIVmac-infected rhesus macaques and in HIV-1-infected humans. Subsequent studies established a striking number of Nef functions that evidently contribute to the maintenance of high viral loads associated with the development of immunodeficiency in the 'evolutionary-recent' human and the experimental macaque hosts. Recent data show that many Nef activities are conserved across different lineages of HIV and SIV. However, some differences also exist. For example, Nef alleles from most SIVs that do not cause disease in their natural monkey hosts, but not those of HIV-1 and its simian precursors, down-modulate TCR-CD3 to suppress T cell activation and programmed death. This evolutionary loss of a specific Nef function may contribute to the high virulence of HIV-1 in humans.

Published

2008

50. Stone age diseases and modern AIDS.

Author

Koch AL

Subjects

Acquired Immunodeficiency Syndrome immunology, Acquired Immunodeficiency Syndrome transmission, Animals, Defensins immunology, Female, Genital Diseases, Female epidemiology, Genital Diseases, Female immunology, Genital Diseases, Female metabolism, Humans, Infant, Newborn, Infectious Disease Transmission, Vertical, Male, Pregnancy, Primate Diseases epidemiology, Primate Diseases immunology, Primate Diseases transmission, Secretory Leukocyte Peptidase Inhibitor immunology, Sexual Behavior, Sexually Transmitted Diseases immunology, Sexually Transmitted Diseases transmission, Acquired Immunodeficiency Syndrome epidemiology, Host-Pathogen Interactions, Retroviridae physiology, Sexually Transmitted Diseases epidemiology

Abstract

The great advantage of being a sexually transmitted disease is the ability to survive and specialize solely on a host species that is present in low numbers and widely distributed so that contact between infected and uninfected organisms by chance is rare. Pathogens of a sparse, but widely distributed host species, must either: i) have an alternative host; ii) be able to survive in a dormant state; or iii) be non-destructive to their host. For the pathogens of a diploid there is a particularly effective strategy, that of being sexually transmitted. Then the hosts' themselves transfer the pathogen.

Published

2008