Your search keyword '"Anna N Honko"' showing total 92 results

51. The pathogenesis of Rift Valley fever virus in the mouse model

Author

Joshua C. Johnson, Anna N. Honko, Maureen Kennedy, Darci R. Smith, Christopher Reed, Lisa E. Hensley, Keith E. Steele, Joshua D. Shamblin, and Jennifer Chapman

Subjects

Rift Valley Fever, Viremia, Pathogenesis, Biology, Antibodies, Viral, Virus, Mouse model, Mice, Virology, medicine, Animals, Humans, Encephalitis, Viral, Rift Valley fever, Tropism, Hepatitis, medicine.disease, Rift Valley fever virus, Disease Models, Animal, Liver, Apoptosis, Immunology, Encephalitis

Abstract

Detailed studies describing the pathogenesis of Rift Valley fever (RVF) virus (RVFV) in the mouse model are lacking. A fully characterized small animal model of RVF is needed to evaluate potential vaccines and therapeutics. In this study, we characterized the pathogenesis of RVFV throughout the disease course in mice. Infection produced high-titer viremia and demonstrated RVFV tropism for a variety of tissue and individual cell types. Overwhelming infection of hepatocytes, accompanied by apoptosis, was a major consequence of infection. The majority of mice died or were euthanatized between days 3 and 6 postinfection with severe hepatitis. The remaining mice effectively cleared virus from the liver and blood, but exhibited neuroinvasion and developed panencephalitis. In addition, we characterized a number of other virological, clinicopathological, and histopathological features of RVFV infection in mice. The mouse model therefore mimics both the acute-onset hepatitis and delayed-onset encephalitis that are dominant features of severe human RVF.

Published

2010

52. A broad-spectrum antiviral targeting entry of enveloped viruses

Author

Mike C. Wolf, Alexander N. Freiberg, Tinghu Zhang, Zeynep Akyol-Ataman, Andrew Grock, Patrick W. Hong, Jianrong Li, Natalya F. Watson, Angela Q. Fang, Hector C. Aguilar, Matteo Porotto, Anna N. Honko, Robert Damoiseaux, John P. Miller, Sara E. Woodson, Steven Chantasirivisal, Vanessa Fontanes, Oscar A. Negrete, Paul Krogstad, Asim Dasgupta, Anne Moscona, Lisa E. Hensley, Sean P. Whelan, Kym F. Faull, Michael R. Holbrook, Michael E. Jung, Benhur Lee, Wolf, Mike C., Freiberg, Alexander N., Zhang, Tinghu, Akyol-Ataman, Zeynep, Grock, Andrew, Hong, Patrick W., Li, Jianrong, Watson, Natalya F., Fang, Angela Q., Aguilar, Hector C., Porotto, Matteo, Honko, Anna N., Damoiseaux, Robert, Miller, John P., Woodson, Sara E., Chantasirivisal, Steven, Fontanes, Vanessa, Negrete, Oscar A., Krogstad, Paul, Dasgupta, Asim, Moscona, Anne, Hensley, Lisa E., Whelan, Sean P., Faull, Kym F., Holbrook, Michael R., Jung, Michael E., and Lee, Benhur

Subjects

Fusion inhibitor, Antiviral Agent, Mice, Inbred BALB C, Multidisciplinary, Rhodanine, Animal, viruses, Viral entry, virus diseases, Viral Envelope Protein, Virus Internalization, Antiviral Agents, Mice, Structure-Activity Relationship, Virus Disease, Viral Envelope Proteins, Virus Diseases, Lipid membrane, Virology, Animals, Female, Small molecule

Abstract

We describe an antiviral small molecule, LJ001, effective against numerous enveloped viruses including Influenza A, filoviruses, poxviruses, arenaviruses, bunyaviruses, paramyxoviruses, flaviviruses, and HIV-1. In sharp contrast, the compound had no effect on the infection of nonenveloped viruses. In vitro and in vivo assays showed no overt toxicity. LJ001 specifically intercalated into viral membranes, irreversibly inactivated virions while leaving functionally intact envelope proteins, and inhibited viral entry at a step after virus binding but before virus–cell fusion. LJ001 pretreatment also prevented virus-induced mortality from Ebola and Rift Valley fever viruses. Structure–activity relationship analyses of LJ001, a rhodanine derivative, implicated both the polar and nonpolar ends of LJ001 in its antiviral activity. LJ001 specifically inhibited virus–cell but not cell–cell fusion, and further studies with lipid biosynthesis inhibitors indicated that LJ001 exploits the therapeutic window that exists between static viral membranes and biogenic cellular membranes with reparative capacity. In sum, our data reveal a class of broad-spectrum antivirals effective against enveloped viruses that target the viral lipid membrane and compromises its ability to mediate virus–cell fusion.

Published

2010

53. Mucosal adjuvant activity of flagellin in aged mice

Author

Aaron H. Graff, Steven B. Mizel, John T. Bates, Anna N. Honko, and Nancy D. Kock

Subjects

Aging, medicine.medical_treatment, Administration, Oral, Biology, Article, Mice, Immune system, Adjuvants, Immunologic, Bacterial Proteins, Antigen, Immunity, medicine, Animals, Immunity, Mucosal, Lung, Administration, Intranasal, Mice, Inbred BALB C, Tumor Necrosis Factor-alpha, Germinal center, Acquired immune system, Immunity, Innate, Recombinant Proteins, Mucosal immunology, Mutation, Immunology, biology.protein, bacteria, Bronchoalveolar Lavage Fluid, Adjuvant, Flagellin, Developmental Biology

Abstract

We evaluated the ability of flagellin, a highly effective mucosal adjuvant in mice and non-human primates, to promote mucosal innate and adaptive immunity in aged mice. We found that intratracheal instillation of flagellin induced a stronger respiratory innate response in aged mice than in young mice, and that intranasal instillation of flagellin was equally effective at triggering recruitment of T and B lymphocytes to the draining lymph nodes of young and aged mice. Intranasal immunization of aged mice with flagellin and the Yersinia pestis protein F1 promoted specific IgG and IgA production, but at lower levels and lower avidities than in young mice. Although intranasal instillation of flagellin and F1 antigen increased germinal center formation and size in young mice, it did not do so in aged mice. Our findings are consistent with the conclusion that flagellin can promote adaptive immune responses in aged mice, but at a less robust level than in young mice.

Published

2008

54. Ebola Virus Infections in Nonhuman Primates Are Temporally Influenced by Glycoprotein Poly-U Editing Site Populations in the Exposure Material

Author

M. Louise M. Pitt, Joshua D. Shamblin, John C. Trefry, Steven J. Kern, Gustavo Palacios, Jeffery R. Kugelman, Carol L. K. Sabourin, Taylor B. Chance, Farooq Nasar, Anna N. Honko, William D. Pratt, Jeremy J. Bearss, Dean J. Kobs, Jason T. Ladner, Suzanne E. Wollen, Michelle A. Jefferson, and Morgan Q.S. Wending

Subjects

Poly U, filovirus, glycoprotein, RNA editing, medicine.medical_specialty, Virulence Factors, viruses, lcsh:QR1-502, Statistical difference, nonhuman primate, Disease, Biology, medicine.disease_cause, Injections, Intramuscular, Ebola virus, Kikwit, pathogenesis, animal model, vaccine, therapeutic, Article, lcsh:Microbiology, Pathogenesis, Viral Envelope Proteins, Virology, Survivorship curve, Internal medicine, medicine, Animals, chemistry.chemical_classification, Hematology, Hemorrhagic Fever, Ebola, Survival Analysis, Disease Models, Animal, Macaca fascicularis, Infectious Diseases, chemistry, Immunology, Glycoprotein

Abstract

Recent experimentation with the variants of the Ebola virus that differ in the glycoprotein’s poly-uridine site, which dictates the form of glycoprotein produced through a transcriptional stutter, has resulted in questions regarding the pathogenicity and lethality of the stocks used to develop products currently undergoing human clinical trials to combat the disease. In order to address these concerns and prevent the delay of these critical research programs, we designed an experiment that permitted us to intramuscularly challenge statistically significant numbers of naïve and vaccinated cynomolgus macaques with either a 7U or 8U variant of the Ebola virus, Kikwit isolate. In naïve animals, no difference in survivorship was observed, however, there was a significant delay in the disease course between the two groups. Significant differences were also observed in time-of-fever, serum chemistry, and hematology. In vaccinated animals, there was no statistical difference in survivorship between either challenge groups, with two succumbing in the 7U group compared to 1 in the 8U challenge group. In summary, survivorship was not affected, but the Ebola virus disease course in nonhuman primates is temporally influenced by glycoprotein poly-U editing site populations.

Published

2015

55. Necrotizing Scleritis, Conjunctivitis, and Other Pathologic Findings in the Left Eye and Brain of an Ebola Virus-Infected Rhesus Macaque (Macaca mulatta) With Apparent Recovery and a Delayed Time of Death

Author

Mark G. Kortepeter, Anna N. Honko, Derron A. Alves, Joshua C. Johnson, Luis A. Lugo-Roman, Lisa E. Hensley, and Mei Sun

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Conjunctiva, Neuritis, Spleen, medicine.disease_cause, Macaque, 03 medical and health sciences, Necrosis, biology.animal, Immunology and Allergy, Medicine, Animals, Ebola virus, biology, business.industry, Stomach, Brief Report, Brain, Hemorrhagic Fever, Ebola, biology.organism_classification, medicine.disease, Conjunctivitis, Ebolavirus, Macaca mulatta, Rhesus macaque, Disease Models, Animal, 030104 developmental biology, Infectious Diseases, medicine.anatomical_structure, Central Nervous System Viral Diseases, Female, business, Scleritis

Abstract

A 3.5-year-old adult female rhesus macaque (Macaca mulatta) manifested swelling of the left upper eyelid and conjunctiva and a decline in clinical condition 18 days following intramuscular challenge with Ebola virus (EBOV; Kikwit-1995), after apparent clinical recovery. Histologic lesions with strong EBOV antigen staining were noted in the left eye (scleritis, conjunctivitis, and peri-optic neuritis), brain (choriomeningoencephalitis), stomach, proximal duodenum, and pancreas. Spleen, liver, and adrenal glands, common targets for acute infection, appeared histologically normal with no evidence of EBOV immunoreactivity. These findings may provide important insight for understanding sequelae seen in West African survivors of Ebola virus disease.

Published

2015

56. Optimized microRNA purification from TRIzol-treated plasma

Author

Anna N. Honko, Jeffrey W. Koehler, Janice Duy, and Timothy D. Minogue

Subjects

RT-PCR, Biology, medicine.disease_cause, Proteomics, Guanidines, Ebola virus, Plasma, Phenols, Nonhuman primate, microRNA, Genetics, medicine, Animals, TRIzol, Methodology Article, Biomarker, Hemorrhagic Fever, Ebola, Ebolavirus, Macaca mulatta, Molecular biology, RNA extraction, MicroRNAs, Real-time polymerase chain reaction, Biochemistry, Trizol, Nucleic acid, DNA microarray, Biotechnology

Abstract

Background MicroRNAs (miRNAs) represent new and potentially informative diagnostic targets for disease detection and prognosis. However, little work exists documenting the effect of TRIzol, a common viral inactivation and nucleic acid extraction reagent, on miRNA purification. Here, we developed an optimized protocol for miRNA extraction from plasma samples by evaluating five different RNA extraction kits, TRIzol phase separation, purification additives, and initial plasma sample volume. This method was then used for downstream profiling of plasma miRNAs found in archived samples from one nonhuman primate (NHP) experimentally challenged with Ebola virus by the aerosol route. Results Comparison of real-time RT-PCR results for spiked-in and endogenous miRNA sequences determined extraction efficiencies from five different RNA purification kits. These experiments showed that 50 μL plasma processed using the QIAGEN miRNeasy Mini Kit with 5 μg of glycogen as a co-precipitant yielded the highest recovery of endogenous miRNAs. Using this optimized protocol, miRNAs from archived plasma samples of one rhesus macaque challenged with aerosolized Ebola virus was profiled using a targeted real-time PCR array. A total of 519 of the 752 unique miRNAs assayed were present in the plasma samples at day 0 and day 7 (time of death) post-exposure. Statistical analyses revealed 25 sequences significantly up- or down-regulated between day 0 and day 7 post infection, validating the utility of the extraction method for plasma miRNA profiling. Conclusions This study contributes to the knowledgebase of circulating miRNA extraction methods and expands on the potential applications of cell-free miRNA profiling for diagnostics and pathogenesis studies. Specifically, we optimized an extraction protocol for miRNAs from TRIzol-inactivated plasma samples that can be used for highly pathogenic viruses. Electronic supplementary material The online version of this article (doi:10.1186/s12864-015-1299-5) contains supplementary material, which is available to authorized users.

Published

2015

57. Arenaviruses

Author

Anna N. Honko, Peter B. Jahrling, Jens H. Kuhn, Sheli R. Radoshitzky, and Joshua C. Johnson

Published

2015

58. Detailed analysis of the African green monkey model of Nipah virus disease

Author

Todd M. Bell, Ginger Donnelly, W. Ian Lipkin, Heather L. Esham, Anna N. Honko, Joshua D. Shamblin, Lisa E. Hensley, Joshua C. Johnson, Thomas Briese, Sara C. Johnston, and William D. Pratt

Subjects

medicine.medical_specialty, Epidemiology, lcsh:Medicine, Nipah virus, Disease, Biology, Communicable Diseases, Cercopithecus aethiops, Virology, Chlorocebus aethiops, medicine, Animals, lcsh:Science, Plaque-forming unit, Henipavirus Infections, Public health, Multidisciplinary, Clinical pathology, lcsh:R, Malaysia, medicine.disease, Disease Models, Animal, Pneumonia, Diseases--Animal models, Immunology, Disease Progression, Encephalitis, Histopathology, lcsh:Q, African Green Monkey, Research Article, Systemic vasculitis

Abstract

Henipaviruses are implicated in severe and frequently fatal pneumonia and encephalitis in humans. There are no approved vaccines or treatments available for human use, and testing of candidates requires the use of well-characterized animal models that mimic human disease. We performed a comprehensive and statistically-powered evaluation of the African green monkey model to define parameters critical to disease progression and the extent to which they correlate with human disease. African green monkeys were inoculated by the intratracheal route with 2.5 × 10(4) plaque forming units of the Malaysia strain of Nipah virus. Physiological data captured using telemetry implants and assessed in conjunction with clinical pathology were consistent with shock, and histopathology confirmed widespread tissue involvement associated with systemic vasculitis in animals that succumbed to acute disease. In addition, relapse encephalitis was identified in 100% of animals that survived beyond the acute disease phase. Our data suggest that disease progression in the African green monkey is comparable to the variable outcome of Nipah virus infection in humans.

Published

2015

59. Flagellin Is an Effective Adjuvant for Immunization against Lethal Respiratory Challenge withYersinia pestis

Author

Steven B. Mizel, Cynthia J. Lees, Nammalwar Sriranganathan, and Anna N. Honko

Subjects

Yersinia pestis, Immunology, Microbiology, Immunoglobulin G, Mice, Adjuvants, Immunologic, Bacterial Proteins, Antigen, Immunity, Animals, Lung, Mice, Inbred BALB C, Plague, Plague Vaccine, Innate immune system, biology, Acquired immune system, Antibodies, Bacterial, Mice, Inbred C57BL, Macaca fascicularis, Infectious Diseases, TLR5, Microbial Immunity and Vaccines, biology.protein, bacteria, Plague vaccine, Female, Immunization, Parasitology, Flagellin

Abstract

Gram-negative flagellin, a Toll-like receptor 5 (TLR5) agonist, is a potent inducer of innate immune effectors such as cytokines and nitric oxide. In the lung, flagellin induces a localized and transient innate immune response characterized by neutrophil infiltration and the production of cytokines and chemokines. In view of the extraordinary potency of flagellin as an inducer of innate immunity and the contribution of innate responses to the development of adaptive immunity, we evaluated the efficacy of recombinantSalmonellaflagellin as an adjuvant in an acellular plague vaccine. Mice immunized intranasally or intratracheally with the F1 antigen ofYersinia pestisand flagellin exhibited dramatic increases in anti-F1 plasma immunoglobulin G (IgG) titers that remained stable over time. In contrast, control mice had low or undetectable antibody responses. The IgG1/IgG2a ratio of antibody titers against F1 in immunized mice is consistent with a Th2 bias. However, no significant antigen-specific IgE production was detected. Interferons, tumor necrosis factor alpha, and interleukin-6 were not essential for the adjuvant effects of flagellin. Preexisting antiflagellin antibodies had no significant effect on the adjuvant activity of flagellin. Importantly, intranasal immunization with flagellin and the F1 antigen was protective against intranasal challenge with virulentY. pestisCO92, with 93 to 100% survival of immunized mice. Lastly, vaccination of cynomolgus monkeys with flagellin and a fusion of the F1 and V antigens ofY. pestisinduced a robust antigen-specific IgG antibody response.

Published

2006

60. Effects of Flagellin on Innate and Adaptive Immunity

Author

Steven B. Mizel and Anna N. Honko

Subjects

Innate immune system, biology, Pathogen-associated molecular pattern, Molecular Sequence Data, Immunology, Pattern recognition receptor, Acquired immune system, Immunity, Innate, Microbiology, Immunity, Active, Immune system, TLR5, biology.protein, TLR4, Animals, Humans, bacteria, Amino Acid Sequence, Flagellin

Abstract

Flagella are locomotive organelles present on a wide range of bacteria and are important for the pathogenesis of many species. Cells of the innate immune system lack memory per se, but recognize conserved pathogen-associated molecular patterns (PAMPs) through a family of type I membrane receptors known as Toll-like receptors (TLRs). Flagellin, the major structural component of flagella, is a highly conserved protein recognized in hosts by TLR5. Signaling of flagellin via TLR5/TLR4 heteromeric complexes enhances the diversity of the response, likely by engaging MyD88-independent adaptors to activate the interferon pathway. Flagellin is a potent immune activator, stimulating diverse biologic effects that mediate both innate inflammatory responses as well as the development of adaptive immunity. Binding of flagellin to the extracellular domain of TLR5 rapidly induces a signal cascade that culminates in the production of proinflammatory mediators such as cytokines, chemokines, and costimulatory molecules. This review focuses on the mechanisms of action of flagellin and its effects on both innate and adaptive immunity.

Published

2005

61. Induction of Macrophage Nitric Oxide Production by Gram-Negative Flagellin Involves Signaling Via Heteromeric Toll-Like Receptor 5/Toll-Like Receptor 4 Complexes

Author

Steven B. Mizel, A. Phillip West, Pameeka S. Smith, Anna N. Honko, and Marlena A. Moors

Subjects

Transcriptional Activation, Macromolecular Substances, Immunology, Nitric Oxide Synthase Type II, Receptors, Cell Surface, Biology, Nitric Oxide, Transfection, Cell Line, Interferon-gamma, Mice, Animals, Immunology and Allergy, RNA, Messenger, Promoter Regions, Genetic, Receptor, Mice, Inbred C3H, Toll-like receptor, Membrane Glycoproteins, COS cells, Macrophages, Toll-Like Receptors, Interferon-beta, Molecular biology, DNA-Binding Proteins, Mice, Inbred C57BL, Toll-Like Receptor 4, Toll-Like Receptor 5, STAT1 Transcription Factor, Salmonella enteritidis, TLR5, COS Cells, Trans-Activators, TLR4, biology.protein, bacteria, Nitric Oxide Synthase, Signal transduction, Flagellin, Signal Transduction

Abstract

The induction of cytokine synthesis by flagellin is mediated by a Toll-like receptor 5 (TLR5) signaling pathway. Although flagellin activation of the IL-1R-associated kinase and induction of TNF-α synthesis are dependent on TLR5 and not TLR4, we have found that flagellin stimulates NO in macrophages via a pathway that requires TLR5 and TLR4. Flagellin induced NO synthesis in HeNC2 cells, a murine macrophage cell line that expresses wild-type TLR4, but not in TLR4-mutant or -deficient GG2EE and 10ScNCr/23 cells. Flagellin stimulated an increase in inducible NO synthase (iNOS) mRNA and activation of the iNOS promoter. TLR5 forms heteromeric complexes with TLR4 as well as homomeric complexes. IFN-γ permitted GG2EE and 10ScNCr/23 cells to produce NO in response to flagellin. Flagellin stimulated IFN-β synthesis and Stat1 activation. The effect of flagellin on iNOS gene expression was inhibited by a Stat1 mutant protein. Taken together, these results support the conclusions that flagellin induces distinct patterns of inflammatory mediators depending on the nature of the TLR5 signaling complex and that the induction of NO by flagellin involves signaling via TLR5/TLR4 complexes.

Published

2003

62. Enhanced methods for unbiased deep sequencing of Lassa and Ebola RNA viruses from clinical and biological samples

Author

Adrianne Gladden, Tarjei S. Mikkelsen, Matthew Stremlau, Ryan Tewhey, Christine M. Malboeuf, Robert F. Garry, Sarah M. Winnicki, Bruce W. Birren, Augustine Goba, Pardis C. Sabeti, Anna N. Honko, Christian T. Happi, Andreas Gnirke, Onikepe A. Folarin, Ikponmwonsa Odia, Eleina M. England, Lina M. Moses, Joshua Z. Levin, Christian B. Matranga, Donald S. Grant, Michele Busby, Kristian G. Andersen, Lisa E. Hensley, Philomena E. Ehiane, Stephen K. Gire, Aaron M. Berlin, and S Humarr Kahn

Subjects

RNase P, viruses, Method, Genomics, Biology, medicine.disease_cause, Genome, Deep sequencing, 03 medical and health sciences, Lassa Fever, medicine, Humans, Lassa fever, Lassa virus, 030304 developmental biology, 0303 health sciences, Ebola virus, 030306 microbiology, virus diseases, RNA, High-Throughput Nucleotide Sequencing, Ribosomal RNA, Hemorrhagic Fever, Ebola, medicine.disease, Ebolavirus, Virology, 3. Good health, RNA, Viral

Abstract

We have developed a robust RNA sequencing method for generating complete de novo assemblies with intra-host variant calls of Lassa and Ebola virus genomes in clinical and biological samples. Our method uses targeted RNase H-based digestion to remove contaminating poly(rA) carrier and ribosomal RNA. This depletion step improves both the quality of data and quantity of informative reads in unbiased total RNA sequencing libraries. We have also developed a hybrid-selection protocol to further enrich the viral content of sequencing libraries. These protocols have enabled rapid deep sequencing of both Lassa and Ebola virus and are broadly applicable to other viral genomics studies. Electronic supplementary material The online version of this article (doi:10.1186/s13059-014-0519-7) contains supplementary material, which is available to authorized users.

Published

2014

63. Chimpanzee adenovirus vaccine generates acute and durable protective immunity against ebolavirus challenge

Author

Annie W. Lau-Kilby, Cheng Cheng, Nancy J. Sullivan, Joshua C. Johnson, Clement Asiedu, John C. Trefry, Lingshu Wang, Antonella Folgori, Alfredo Nicosia, Adele Abbate, Kathryn E. Foulds, Richard A. Koup, Fabiana Grazioli, Riccardo Cortese, Gary J. Nabel, Mario Roederer, Daphne A. Stanley, Anna N. Honko, Stefano Colloca, Mitzi M. Donaldson, Lisa E. Hensley, John R. Mascola, Virginia Ammendola, Stanley, Daphne A, Honko, Anna N., Asiedu, Clement, Trefry, John C., Lau Kilby, Annie W., Johnson, Joshua C., Hensley, Lisa, Ammendola, Virginia, Abbate, Adele, Grazioli, Fabiana, Foulds, Kathryn E., Cheng, Cheng, Wang, Lingshu, Donaldson, Mitzi M., Colloca, Stefano, Folgori, Antonella, Roederer, Mario, Nabel, Gary J., Mascola, John, Nicosia, Alfredo, Cortese, Riccardo, Koup, Richard A., and Sullivan, Nancy J.

Subjects

Protective immunity, Time Factors, Pan troglodytes, Time Factor, Genetic Vectors, Immunization, Secondary, Chimpanzee adenovirus, Vaccinia virus, Biology, medicine.disease_cause, General Biochemistry, Genetics and Molecular Biology, Ebolaviru, Adenovirus Vaccines, medicine, Animals, Humans, Defective Viruse, Ebola Vaccine, Ebola Vaccines, Macaca fasciculari, Ebolavirus, Biochemistry, Genetics and Molecular Biology (all), Ebola vaccine, Animal, Adenoviruses, Human, Medicine (all), Pan troglodyte, Defective Viruses, General Medicine, Hemorrhagic Fever, Ebola, Virology, Vaccinia viru, Vaccination, Macaca fascicularis, Adenovirus Vaccine, Immunology, Adenoviruses, Simian, RNA, Viral, Female, Genetic Vector, Human

Abstract

Ebolavirus disease causes high mortality, and the current outbreak has spread unabated through West Africa. Human adenovirus type 5 vectors (rAd5) encoding ebolavirus glycoprotein (GP) generate protective immunity against acute lethal Zaire ebolavirus (EBOV) challenge in macaques, but fail to protect animals immune to Ad5, suggesting natural Ad5 exposure may limit vaccine efficacy in humans. Here we show that a chimpanzee-derived replication-defective adenovirus (ChAd) vaccine also rapidly induced uniform protection against acute lethal EBOV challenge in macaques. Because protection waned over several months, we boosted ChAd3 with modified vaccinia Ankara (MVA) and generated, for the first time, durable protection against lethal EBOV challenge.

Published

2014

64. Transcriptional correlates of disease outcome in anticoagulant-treated non-human primates infected with ebolavirus

Author

Judy Y. Yen, Lisa E. Hensley, Sara Garamszegi, Kathleen Rubins, John H. Connor, Anna N. Honko, Yu Xia, Thomas W. Geisbert, and Joan B. Geisbert

Subjects

lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, T cell, Biology, medicine.disease_cause, Microbiology, Virus Effects on Host Gene Expression, Transcriptome, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Immune system, Virology, medicine, Animals, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Ebola virus, Gene Expression Profiling, lcsh:Public aspects of medicine, Public Health, Environmental and Occupational Health, Anticoagulants, Biology and Life Sciences, Computational Biology, lcsh:RA1-1270, Hemorrhagic Fever, Ebola, Ebolavirus, Microarray Analysis, Macaca mulatta, 3. Good health, Gene expression profiling, Disease Models, Animal, Infectious Diseases, medicine.anatomical_structure, Treatment Outcome, Viral replication, 030220 oncology & carcinogenesis, Immunology, Host-Pathogen Interactions, Leukocytes, Mononuclear, Research Article

Abstract

Ebola virus (EBOV) infection in humans and non-human primates (NHPs) is highly lethal, and there is limited understanding of the mechanisms associated with pathogenesis and survival. Here, we describe a transcriptomic analysis of NHPs that survived lethal EBOV infection, compared to NHPs that did not survive. It has been previously demonstrated that anticoagulant therapeutics increase the survival rate in EBOV-infected NHPs, and that the characteristic transcriptional profile of immune response changes in anticoagulant-treated NHPs. In order to identify transcriptional signatures that correlate with survival following EBOV infection, we compared the mRNA expression profile in peripheral blood mononuclear cells from EBOV-infected NHPs that received anticoagulant treatment, to those that did not receive treatment. We identified a small set of 20 genes that are highly confident predictors and can accurately distinguish between surviving and non-surviving animals. In addition, we identified a larger predictive signature of 238 genes that correlated with disease outcome and treatment; this latter signature was associated with a variety of host responses, such as the inflammatory response, T cell death, and inhibition of viral replication. Notably, among survival-associated genes were subsets of genes that are transcriptionally regulated by (1) CCAAT/enhancer-binding protein alpha, (2) tumor protein 53, and (3) megakaryoblastic leukemia 1 and myocardin-like protein 2. These pathways merit further investigation as potential transcriptional signatures of host immune response to EBOV infection., Author Summary Infection of humans and non-human primates (NHPs) with Ebola virus (EBOV) can cause viral hemorrhagic fever, an acute systemic illness which can lead to death. The high case fatality rates (25%–90%) make EBOV a virus of significant concern from a biodefense perspective. To date, there are no FDA-approved post-exposure treatments for human use, and there are no standard assays to predict how infected individuals will fare after becoming infected. We have analyzed how circulating immune cells respond to EBOV infection under conditions where NHPs either survive viral infection, or succumb to it. This analysis identified genes that are correlated with, and predictive of, survival following lethal EBOV infection in NHPs. Our results demonstrate that small gene sets and transcriptional regulatory networks can be used to identify individual markers associated with survival following EBOV infection.

Published

2014

65. Detection of Aeromonas caviae in the common housefly Musca domestica by culture and polymerase chain reaction

Author

Anna N. Honko, Fred Stutzenberger, Gayle Pittman Noblet, and Dana Nayduch

Subjects

Aeromonas caviae, biology, Epidemiology, South Carolina, fungi, Aeromonas punctata, biology.organism_classification, 16S ribosomal RNA, Polymerase Chain Reaction, law.invention, Microbiology, Infectious Diseases, Aeromonas, law, Culture Techniques, Houseflies, Muscidae, Prevalence, Animals, Housefly, Polymerase chain reaction, Feces, Research Article

Abstract

Aeromonas caviae has been implicated in diarrhoeal disease of livestock and humans. The potential role of houseflies in the epidemiology of this pathogen was investigated by examining the prevalence of A. caviae in houseflies collected from two South Carolina farms and one restaurant. Isolation was accomplished by culture of flies in alkaline peptone water followed by identification with Aeromonas-specific PCR using novel primers (APW–PCR). All isolates cultured from houseflies were identified as A. caviae by biochemical characteristics and direct sequencing ∼ 800 bp of the 16S rRNA gene. Aeromonas caviae was detected in 78% (272/349) dairy farm flies, 55% (54/99) pig farm flies and 39% (77/200) restaurant flies. Faeces from cows and pigs at the farms also were positive for A. caviae (58% and 100%, respectively). The APW–PCR method provided a rapid, convenient way to identify A. caviae from faeces and houseflies that contained hundreds of bacterial species.

Published

2001

66. Virus nomenclature below the species level: a standardized nomenclature for filovirus strains and variants rescued from cDNA

Author

Sina Bavari, Sven Enterlein, Yíngyún Caì, Kristina Brauburger, Matthew G. Lackemeyer, Olga Dolnik, Nancy J. Sullivan, Sergewy V. Netesov, Gary P. Kobinger, Peter B. Jahrling, Erica Ollmann Saphire, Eric M. Leroy, Travis K. Warren, J. Rodney Brister, Elke Mühlberger, Steven B. Bradfute, Kelly L. Warfield, Yiming Bao, Guido van der Groen, Thomas Hoenen, Alexander N. Freiberg, Gustavo Palacios, Jean-Paul Gonzalez, Sheli R. Radoshitzky, Elena I. Ryabchikova, Ayato Takada, Alexander Bukreyev, Georgy M. Ignatyev, Mark S. Lever, Janusz T. Paweska, Lisa E. Hensley, Pierre Formenty, Viktor E. Volchkov, Robert A. Davey, Anna N. Honko, Stuart T. Nichol, John M. Dye, Kartik Chandran, Jonathan S. Towner, Valentina A. Volchkova, Hans-Dieter Klenk, Gene G. Olinger, Jens H. Kuhn, Victoria Wahl-Jensen, Karl M. Johnson, Manfre Weidmann, Louisa Pitt, Jean L. Patterson, Stephan Becker, Aleksandr M. Shestopalov, Sophie J. Smither, and Robert Swanepoel

Subjects

Genetics, Ebola virus, biology, Filoviridae, Genome, Viral, General Medicine, Marburgvirus, biology.organism_classification, Recombinant virus, medicine.disease_cause, Virology, Genome, Article, Virus, Reassortant Viruses, medicine, Virus classification

Abstract

Specific alterations (mutations, deletions, insertions) of virus genomes are crucial for the functional characterization of their regulatory elements and their expression products, as well as a prerequisite for the creation of attenuated viruses that could serve as vaccine candidates. Virus genome tailoring can be performed either by using traditionally cloned genomes as starting materials, followed by site-directed mutagenesis, or by de novo synthesis of modified virus genomes or parts thereof. A systematic nomenclature for such recombinant viruses is necessary to set them apart from wild-type and laboratory-adapted viruses, and to improve communication and collaborations among researchers who may want to use recombinant viruses or create novel viruses based on them. A large group of filovirus experts has recently proposed nomenclatures for natural and laboratory animal-adapted filoviruses that aim to simplify the retrieval of sequence data from electronic databases. Here, this work is extended to include nomenclature for filoviruses obtained in the laboratory via reverse genetics systems. The previously developed template for natural filovirus genetic variant naming, < virus name > (< strain >/)< isolation host-suffix >/< country of sampling >/< year of sampling >/< genetic variant designation >-< isolate designation >, is retained, but we propose to adapt the type of information added to each field for cDNA clone-derived filoviruses. For instance, the full-length designation of an Ebola virus Kikwit variant rescued from a plasmid developed at the US Centers for Disease Control and Prevention could be akin to "Ebola virus H.sapiens-rec/COD/1995/Kikwit-abc1" (with the suffix "rec" identifying the recombinant nature of the virus and "abc1" being a placeholder for any meaningful isolate designator). Such a full-length designation should be used in databases and the methods section of publications. Shortened designations (such as "EBOV H.sap/COD/95/Kik-abc1") and abbreviations (such as "EBOV/Kik-abc1") could be used in the remainder of the text, depending on how critical it is to convey information contained in the full-length name. "EBOV" would suffice if only one EBOV strain/variant/isolate is addressed.

Published

2013

67. VIRUS NOMENCLATURE BELOW THE SPECIES LEVEL: A STANDARDIZED NOMENCLATURE FOR LABORATORY ANIMAL-ADAPTED STRAINS AND VARIANTS OF VIRUSES ASSIGNED TO THE FAMILY FILOVIRIDAE

Author

Eric M. Leroy, Travis K. Warren, Victoria Wahl-Jensen, Jonathan S. Towner, Kelly L. Warfield, Viktor E. Volchkov, Matthew G. Lackemeyer, Guido van der Groen, Erica Ollmann Saphire, Manfred Weidmann, Nancy J. Sullivan, Alexander N. Freiberg, Gene G. Olinger, Yíngyún Caì, Jean-Paul Gonzalez, Olga Dolnik, Alexander Bukreyev, Robert Swanepoel, Gary P. Kobinger, Pierre Formenty, Ayato Takada, Loreen L. Lofts, Louise Pitt, Jean L. Patterson, Steven B. Bradfute, Stephan Becker, Kartik Chandran, Aleksandr M. Shestopalov, Hans-Dieter Klenk, Sophie J. Smither, Robert A. Davey, Anna N. Honko, Jens H. Kuhn, Karl M. Johnson, Georgy M. Ignatyev, Mark S. Lever, Stuart T. Nichol, Lisa E. Hensley, John M. Dye, Elena I. Ryabchikova, J. Rodney Brister, Yiming Bao, Janusz T. Paweska, Elke Mühlberger, Gustavo Palacios, Sven Enterlein, Sergey V. Netesov, Sina Bavari, Peter B. Jahrling, and Sheli R. Radoshitzky

Subjects

Ebola virus, Lloviu virus, biology, Filoviridae, General Medicine, medicine.disease_cause, biology.organism_classification, Virology, Article, Cuevavirus, Marburg virus, medicine, Mononegavirales, Nomenclature, Virus classification

Abstract

The International Committee on Taxonomy of Viruses (ICTV) organizes the classification of viruses into taxa, but is not responsible for the nomenclature for taxa members. International experts groups, such as the ICTV Study Groups, recommend the classification and naming of viruses and their strains, variants, and isolates. The ICTV Filoviridae Study Group has recently introduced an updated classification and nomenclature for filoviruses. Subsequently, and together with numerous other filovirus experts, a consistent nomenclature for their natural genetic variants and isolates was developed that aims at simplifying the retrieval of sequence data from electronic databases. This is a first important step toward a viral genome annotation standard as sought by the US National Center for Biotechnology Information (NCBI). Here, this work is extended to include filoviruses obtained in the laboratory by artificial selection through passage in laboratory hosts. The previously developed template for natural filovirus genetic variant naming (< virus name > < isolation host-suffix >/< country of sampling >/< year of sampling >/< genetic variant designation >-< isolate designation >) is retained, but it is proposed to adapt the type of information added to each field for laboratory animal-adapted variants. For instance, the full-length designation of an Ebola virus Mayinga variant adapted at the State Research Center for Virology and Biotechnology "Vector" to cause disease in guinea pigs after seven passages would be akin to "Ebola virus VECTOR/C.porcellus-lab/COD/1976/Mayinga-GPA-P7". As was proposed for the names of natural filovirus variants, we suggest using the full-length designation in databases, as well as in the method section of publications. Shortened designations (such as "EBOV VECTOR/C.por/COD/76/May-GPA-P7") and abbreviations (such as "EBOV/May-GPA-P7") could be used in the remainder of the text depending on how critical it is to convey information contained in the full-length name. "EBOV" would suffice if only one EBOV strain/variant/isolate is addressed.

Published

2013

68. Virus nomenclature below the species level: a standardized nomenclature for natural variants of viruses assigned to the family Filoviridae

Author

John M. Dye, Sergey V. Netesov, Janusz T. Paweska, Mark S. Lever, Travis K. Warren, Peter B. Jahrling, Jean L. Patterson, Stephan Becker, Alexander Bukreyev, Jens H. Kuhn, Lisa E. Hensley, Kartik Chandran, Eric M. Leroy, Sophie J. Smither, J. Rodney Brister, Erica Ollmann Saphire, Victoria Wahl-Jensen, Yiming Bao, Steven B. Bradfute, Manfred Weidmann, Robert Swanepoel, Karl M. Johnson, Jonathan S. Towner, Gene G. Olinger, Viktor E. Volchkov, Olga Dolnik, Anna N. Honko, Louise Pitt, Sina Bavari, Gary P. Kobinger, Guido van der Groen, Sheli R. Radoshitzky, Gustavo Palacios, Robert A. Davey, Sven Enterlein, Elke Mühlberger, Stuart T. Nichol, Institut für Virologie, Philipps University, Centre International de Recherches Médicales de Franceville (CIRMF), National Institute for Communicable Diseases [Johannesburg] (NICD), University of Göttingen - Georg-August-Universität Göttingen, Centers for Disease Control and Prevention [Atlanta] (CDC), and Centers for Disease Control and Prevention

Subjects

MESH: Terminology as Topic, [SDV]Life Sciences [q-bio], Filoviridae, Computational biology, medicine.disease_cause, Article, 03 medical and health sciences, Virology, MESH: Filoviridae Infections, medicine, MESH: Animals, Nomenclature, Virus classification, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, Genetics, 0303 health sciences, Ebola virus, MESH: Humans, biology, 030306 microbiology, General Medicine, Genome project, biology.organism_classification, 3. Good health, Gene nomenclature, MESH: Classification, MESH: Filoviridae, Homo sapiens, Taxonomy (biology)

Abstract

The task of international expert groups is to recommend the classification and naming of viruses. The International Committee on Taxonomy of Viruses Filoviridae Study Group and other experts have recently established an almost consistent classification and nomenclature for filoviruses. Here, further guidelines are suggested to include their natural genetic variants. First, this term is defined. Second, a template for full-length virus names (such as “Ebola virus H.sapiens-tc/COD/1995/Kikwit-9510621”) is proposed. These names contain information on the identity of the virus (e.g., Ebola virus), isolation host (e.g., members of the species Homo sapiens), sampling location (e.g., Democratic Republic of the Congo (COD)), sampling year, genetic variant (e.g., Kikwit), and isolate (e.g., 9510621). Suffixes are proposed for individual names that clarify whether a given genetic variant has been characterized based on passage zero material (-wt), has been passaged in tissue/cell culture (-tc), is known from consensus sequence fragments only (-frag), or does (most likely) not exist anymore (-hist). We suggest that these comprehensive names are to be used specifically in the methods section of publications. Suitable abbreviations, also proposed here, could then be used throughout the text, while the full names could be used again in phylograms, tables, or figures if the contained information aids the interpretation of presented data. The proposed system is very similar to the well-known influenzavirus nomenclature and the nomenclature recently proposed for rotaviruses. If applied consistently, it would considerably simplify retrieval of sequence data from electronic databases and be a first important step toward a viral genome annotation standard as sought by the National Center for Biotechnology Information (NCBI). Furthermore, adoption of this nomenclature would increase the general understanding of filovirus-related publications and presentations and improve figures such as phylograms, alignments, and diagrams. Most importantly, it would counter the increasing confusion in genetic variant naming due to the identification of ever more sequences through technological breakthroughs in high-throughput sequencing and environmental sampling.

Published

2013

69. Overlooking the importance of immunoassays – Authors' reply

Author

Robert Colebunders, Kevin K. Ariën, Anthony Griffiths, Anna N. Honko, Lieselotte Cnops, Gary P. Kobinger, Armand Sprecher, Pardis C. Sabeti, Joshua C. Johnson, Pierre Formenty, Angela L. Hewlett, Colleen S. Kraft, Johan van Griensven, Jens H. Kuhn, Gustavo Palacios, Peter B. Jahrling, David A. Norwood, Charles E. Hill, and Daniel G. Bausch

Subjects

Immunoassay, 0301 basic medicine, medicine.medical_specialty, medicine.diagnostic_test, business.industry, 030106 microbiology, MEDLINE, 03 medical and health sciences, 0302 clinical medicine, Infectious Diseases, medicine, 030212 general & internal medicine, Intensive care medicine, business

Published

2016

70. Pathology of experimental aerosol Zaire ebolavirus infection in rhesus macaques

Author

C. G. Robinson, M. E. Mattix, Nancy A. Twenhafel, C. Terry, William D. Pratt, Joshua C. Johnson, Lisa E. Hensley, Gene G. Olinger, Victoria Wahl-Jensen, Anna N. Honko, and Kathleen A. Cashman

Subjects

Zaire ebolavirus, Male, Pathology, medicine.medical_specialty, Lymphoid Tissue, Respiratory System, Spleen, Viremia, Biological Warfare Agents, Biology, medicine.disease_cause, Virus Replication, Body Temperature, medicine, Animals, Humans, Respiratory system, Lung, Disseminated intravascular coagulation, Ebolavirus, Aerosols, General Veterinary, Hemorrhagic Fever, Ebola, medicine.disease, Macaca mulatta, Neutrophilia, medicine.anatomical_structure, Liver, Immunology, Models, Animal, Female, Lymph Nodes, Lymphocytopenia, medicine.symptom

Abstract

There is limited knowledge of the pathogenesis of human ebolavirus infections and no reported human cases acquired by the aerosol route. There is a threat of ebolavirus as an aerosolized biological weapon, and this study evaluated the pathogenesis of aerosol infection in 18 rhesus macaques. Important and unique findings include early infection of the respiratory lymphoid tissues, early fibrin deposition in the splenic white pulp, and perivasculitis and vasculitis in superficial dermal blood vessels of haired skin with rash. Initial infection occurred in the respiratory lymphoid tissues, fibroblastic reticular cells, dendritic cells, alveolar macrophages, and blood monocytes. Virus spread to regional lymph nodes, where significant viral replication occurred. Virus secondarily infected many additional blood monocytes and spread from the respiratory tissues to multiple organs, including the liver and spleen. Viremia, increased temperature, lymphocytopenia, neutrophilia, thrombocytopenia, and increased alanine aminotransferase, aspartate aminotransferase, γ-glutamyl transpeptidase, total bilirubin, serum urea nitrogen, creatinine, and hypoalbuminemia were measurable mid to late infection. Infection progressed rapidly with whole-body destruction of lymphoid tissues, hepatic necrosis, vasculitis, hemorrhage, and extravascular fibrin accumulation. Hypothermia and thrombocytopenia were noted in late stages with the development of disseminated intravascular coagulation and shock. This study provides unprecedented insight into pathogenesis of human aerosol Zaire ebolavirus infection and suggests development of a medical countermeasure to aerosol infection will be a great challenge due to massive early infection of respiratory lymphoid tissues. Rhesus macaques may be used as a model of aerosol infection that will allow the development of lifesaving medical countermeasures under the Food and Drug Administration’s animal rule.

Published

2012

71. Interferon-β therapy prolongs survival in rhesus macaque models of Ebola and Marburg hemorrhagic fever

Author

Christopher L. Karp, Thomas W. Geisbert, Jason Paragas, Judy Y. Yen, Anna N. Honko, Lisa E. Hensley, Andrea Stossel, Elizabeth A. Fritz, Howard A. Young, Joan B. Geisbert, Lauren M. Smith, Gene G. Olinger, Joshua C. Johnson, and Kathleen Rubins

Subjects

Male, Receptor complex, medicine.disease_cause, Marburg virus, Major Articles and Brief Reports, Marburg virus disease, Interferon, medicine, Immunology and Allergy, Animals, Humans, Marburg Virus Disease, Ebolavirus, Ebola virus, biology, Interferon-beta, Hemorrhagic Fever, Ebola, biology.organism_classification, Marburgvirus, Virology, Macaca mulatta, Recombinant Proteins, Rhesus macaque, Infectious Diseases, Immunology, Female, medicine.drug

Abstract

There is a clear need for novel, effective therapeutic approaches to hemorrhagic fever due to filoviruses. Ebola virus hemorrhagic fever is associated with robust interferon (IFN)–α production, with plasma concentrations of IFN-α that greatly (60- to 100-fold) exceed those seen in other viral infections, but little IFN-β production. While all of the type I IFNs signal through the same receptor complex, both quantitative and qualitative differences in biological activity are observed after stimulation of the receptor complex with different type I IFNs. Taken together, this suggested potential for IFN-β therapy in filovirus infection. Here we show that early postexposure treatment with IFN-β significantly increased survival time of rhesus macaques infected with a lethal dose of Ebola virus, although it failed to alter mortality. Early treatment with IFN-β also significantly increased survival time after Marburg virus infection. IFN-β may have promise as an adjunctive postexposure therapy in filovirus infection.

Published

2012

72. Transcriptional profiling of the circulating immune response to lassa virus in an aerosol model of exposure

Author

John H. Connor, Judy Y. Yen, Shikha Malhotra, Ignacio S. Caballero, Eric M. Mucker, John C. Trefry, Sara Garamszegi, Anna N. Honko, Joshua C. Johnson, and Lisa E. Hensley

Subjects

Male, lcsh:Arctic medicine. Tropical medicine, Microarray, lcsh:RC955-962, Immunology, Viremia, Disease, Biology, Adaptive Immunity, medicine.disease_cause, Microbiology, Transcriptome, Immune Activation, Immune system, Lassa Fever, Model Organisms, Virology, medicine, Animals, Lassa virus, Immune Response, Regulation of gene expression, lcsh:Public aspects of medicine, Gene Expression Profiling, Toll-Like Receptors, Public Health, Environmental and Occupational Health, Immunity, Immunoregulation, lcsh:RA1-1270, Immune Defense, Animal Models, medicine.disease, Immunity, Innate, Innate Immunity, Host-Pathogen Interaction, Animal Models of Infection, Infectious Diseases, Leukocytes, Mononuclear, Macaca, Female, Viral load, Macaque, Research Article

Abstract

Lassa virus (LASV) is a significant human pathogen that is endemic to several countries in West Africa. Infection with LASV leads to the development of hemorrhagic fever in a significant number of cases, and it is estimated that thousands die each year from the disease. Little is known about the complex immune mechanisms governing the response to LASV or the genetic determinants of susceptibility and resistance to infection. In the study presented here, we have used a whole-genome, microarray-based approach to determine the temporal host response in the peripheral blood mononuclear cells (PBMCs) of non-human primates (NHP) following aerosol exposure to LASV. Sequential sampling over the entire disease course showed that there are strong transcriptional changes of the immune response to LASV exposure, including the early induction of interferon-responsive genes and Toll-like receptor signaling pathways. However, this increase in early innate responses was coupled with a lack of pro-inflammatory cytokine response in LASV exposed NHPs. There was a distinct lack of cytokines such as IL1β and IL23α, while immunosuppressive cytokines such as IL27 and IL6 were upregulated. Comparison of IRF/STAT1-stimulated gene expression with the viral load in LASV exposed NHPs suggests that mRNA expression significantly precedes viremia, and thus might be used for early diagnostics of the disease. Our results provide a transcriptomic survey of the circulating immune response to hemorrhagic LASV exposure and provide a foundation for biomarker identification to allow clinical diagnosis of LASV infection through analysis of the host response., Author Summary Lassa virus (LASV), a member of the Arenaviridae family, is a viral hemorrhagic fever causing virus endemic to several countries in West Africa with a history of sporadic importation into the United States. It has been characterized as a Category A agent, and despite the significant public health issues posed by LASV and the potential biodefense risks, little is known about the immune response to the virus. In the study presented here, we have taken an unbiased genomics approach to map the temporal host response in the peripheral blood mononuclear cells (PBMCs) of non-human primates (NHP) exposed to LASV. Gene expression patterns over the entire disease course showed that there are strong transcriptional changes of the immune response to LASV exposure, including the upregulation of Toll-like receptor signaling pathways and innate antiviral transcription factors. However, there was a lack of pro-inflammatory cytokine response in LASV exposed NHPs similar to what is seen in human disease. Our data suggests that LASV induces negative regulation of immunological events, leading to an inefficient adaptive immune response as observed in LASV-infected human patients. Our results provide a picture of the host's circulating immune response to hemorrhagic LASV exposure and demonstrate that gene expression patterns correlate with specific stages of disease progression.

Published

2012

73. Ebola virus genome plasticity as a marker of its passaging history: a comparison of in vitro passaging to non-human primate infection

Author

Travis K. Warren, Sina Bavari, Peter B. Jahrling, Cynthia A. Rossi, Sarah E. McCarthy, Gustavo Palacios, Lisa E. Hensley, Anna N. Honko, Sheli R. Radoshitzky, Michael S. Lee, Jens H. Kuhn, John M. Dye, Jeffrey R. Kugelman, and Chris A. Whitehouse

Subjects

Viral Diseases, viruses, Cell Culture Techniques, lcsh:Medicine, medicine.disease_cause, Genome, Emerging Viral Diseases, Zoonoses, Natural Selection, Cluster Analysis, lcsh:Science, Genome Evolution, Genetics, Multidisciplinary, Zoonotic Diseases, Genomics, Ebolavirus, Infectious Diseases, Veterinary Diseases, Ebola, RNA, Viral, Medicine, Research Article, Genetic Markers, Primates, Genome, Viral, Biology, Genome Complexity, Polymorphism, Single Nucleotide, Microbiology, Ebola Hemorrhagic Fever, Deep sequencing, Virus, Viral Evolution, Viral Proteins, Virology, medicine, Animals, Gene, Vero Cells, Glycoproteins, Evolutionary Biology, Ebola virus, Polymorphism, Genetic, Sequence Analysis, RNA, lcsh:R, Genomic Evolution, Sequence Analysis, DNA, Hemorrhagic Fever, Ebola, Animal Models of Infection, Genetic marker, Mutation, Vero cell, lcsh:Q, Veterinary Science, Population Genetics

Abstract

To identify polymorphic sites that could be used as biomarkers of Ebola virus passage history, we repeatedly amplified Ebola virus (Kikwit variant) in vitro and in vivo and performed deep sequencing analysis of the complete genomes of the viral subpopulations. We then determined the sites undergoing selection during passage in Vero E6 cells. Four locations within the Ebola virus Kikwit genome were identified that together segregate cell culture-passaged virus and virus obtained from infected non-human primates. Three of the identified sites are located within the glycoprotein gene (GP) sequence: the poly-U (RNA editing) site at position 6925, as well as positions 6677, and 6179. One site was found in the VP24 gene at position 10833. In all cases, in vitro and in vivo, both populations (majority and minority variants) were maintained in the viral swarm, with rapid selections occurring after a few passages or infections. This analysis approach will be useful to differentiate whether filovirus stocks with unknown history have been passaged in cell culture and may support filovirus stock standardization for medical countermeasure development.

Published

2012

74. Ultrastructural study of Rift Valley fever virus in the mouse model

Author

Keith E. Steele, Anna N. Honko, Joshua D. Shamblin, Lisa E. Hensley, Darci R. Smith, and Christopher Reed

Subjects

Central Nervous System, Rift Valley Fever, Lymphoid Tissue, Apoptosis, Pathogenesis, Biology, Virus Replication, Viral hemorrhagic fever, Mouse model, Hepatitis, Mice, Microscopy, Electron, Transmission, Virology, medicine, Electron microscopy, Animals, Humans, Encephalitis, Viral, Rift Valley fever, Mice, Inbred BALB C, Stem Cells, medicine.disease, Rift Valley fever virus, Immunohistochemistry, Disease Models, Animal, Lymphatic system, Viral replication, Liver, Ultrastructure, Immunology, Hepatocytes, Female, Stem cell, Encephalitis

Abstract

Detailed ultrastructural studies of Rift Valley fever virus (RVFV) in the mouse model are needed to develop and characterize a small animal model of RVF for the evaluation of potential vaccines and therapeutics. In this study, the ultrastructural features of RVFV infection in the mouse model were analyzed. The main changes in the liver included the presence of viral particles in hepatocytes and hepatic stem cells accompanied by hepatocyte apoptosis. However, viral particles were observed rarely in the liver; in contrast, particles were extremely abundant in the CNS. Despite extensive lymphocytolysis, direct evidence of viral replication was not observed in the lymphoid tissue. These results correlate with the acute-onset hepatitis and delayed-onset encephalitis that are dominant features of severe human RVF, but suggest that host immune-mediated mechanisms contribute significantly to pathology. The results of this study expand our knowledge of RVFV–host interactions and further characterize the mouse model of RVF.

Published

2012

75. Real-time monitoring of cardiovascular function in rhesus macaques infected with Zaire ebolavirus

Author

Joshua C. Johnson, Robert G. Rivard, Gene G. Olinger, Mark G. Kortepeter, Bret K. Purcell, Lisa E. Hensley, Anna N. Honko, James V. Lawler, Mike Bray, and Matthew J. Hepburn

Subjects

Zaire ebolavirus, Male, Catheterization, Central Venous, Physiology, Viremia, Blood Pressure, medicine.disease_cause, Kidney, Blood Urea Nitrogen, Body Temperature, Ebola Hemorrhagic Fever, Electrocardiography, Random Allocation, Immunology and Allergy, Medicine, Animals, Telemetry, Lactic Acid, Blood urea nitrogen, Ebolavirus, Acid-Base Equilibrium, Ebola virus, business.industry, Respiration, Hemorrhagic Fever, Ebola, Hydrogen-Ion Concentration, medicine.disease, Macaca mulatta, Infectious Diseases, Blood pressure, Lactic acidosis, Creatinine, Immunology, Fluid Therapy, RNA, Viral, Female, Blood Gas Analysis, Hypotension, business

Abstract

Nine rhesus macaques were implanted with multisensor telemetry devices and internal jugular vein catheters before being infected with Zaire ebolavirus. All animals developed viremia, fever, a hemorrhagic rash, and typical changes of Ebola hemorrhagic fever in clinical laboratory tests. Three macaques unexpectedly survived this usually lethal disease, making it possible to compare physiological parameters in lethally challenged animals and survivors. After the onset of fever, lethal illness was characterized by a decline in mean arterial blood pressure, an increase in pulse and respiratory rate, lactic acidosis, and renal failure. Survivors showed less pronounced change in these parameters. Four macaques were randomized to receive supplemental volumes of intravenous normal saline when they became hypotensive. Although those animals had less severe renal compromise, no apparent survival benefit was observed. This is the first report of continuous physiologic monitoring in filovirus-infected nonhuman primates and the first to attempt cardiovascular support with intravenous fluids.

Published

2011

76. Therapeutics of Ebola hemorrhagic fever: whole-genome transcriptional analysis of successful disease mitigation

Author

Kathleen Rubins, Anna N. Honko, Lisa E. Hensley, Joan B. Geisbert, Thomas W. Geisbert, Yu Xia, Judy Y. Yen, Sara Garamszegi, and John H. Connor

Subjects

Gene Expression Regulation, Viral, Chemokine, Transcription, Genetic, medicine.medical_treatment, Disease, medicine.disease_cause, Lymphocyte Activation, Ebola Hemorrhagic Fever, Immune system, medicine, Blood Coagulation Factor Inhibitors, Immunology and Allergy, Animals, Genetic Predisposition to Disease, Biological response modifiers, Blood Coagulation, Oligonucleotide Array Sequence Analysis, Ebola virus, Genome, biology, Gene Expression Profiling, Hemorrhagic Fever, Ebola, Ebolavirus, Macaca mulatta, Infectious Diseases, Cytokine, Multigene Family, Immunology, biology.protein

Abstract

The mechanisms of Ebola (EBOV) pathogenesis are only partially understood, but the dysregulation of normal host immune responses (including destruction of lymphocytes, increases in circulating cytokine levels, and development of coagulation abnormalities) is thought to play a major role. Accumulating evidence suggests that much of the observed pathology is not the direct result of virus-induced structural damage but rather is due to the release of soluble immune mediators from EBOV-infected cells. It is therefore essential to understand how the candidate therapeutic may be interrupting the disease process and/or targeting the infectious agent. To identify genetic signatures that are correlates of protection, we used a DNA microarray-based approach to compare the host genome-wide responses of EBOV-infected nonhuman primates (NHPs) responding to candidate therapeutics. We observed that, although the overall circulating immune response was similar in the presence and absence of coagulation inhibitors, surviving NHPs clustered together. Noticeable differences in coagulation-associated genes appeared to correlate with survival, which revealed a subset of distinctly differentially expressed genes, including chemokine ligand 8 (CCL8/MCP-2), that may provide possible targets for early-stage diagnostics or future therapeutics. These analyses will assist us in understanding the pathogenic mechanisms of EBOV infection and in identifying improved therapeutic strategies.

Published

2011

77. Recombinant adenovirus serotype 26 (Ad26) and Ad35 vaccine vectors bypass immunity to Ad5 and protect nonhuman primates against ebolavirus challenge

Author

Mario Roederer, Daphne A. Stanley, Thomas W. Geisbert, Joshua C. Johnson, Jerome Custers, Peter B. Jahrling, Sabue Mulangu, Jort Vellinga, Richard A. Koup, Jaap Goudsmit, Nancy J. Sullivan, Maria Grazia Pau, Joan B. Geisbert, Lisa E. Hensley, Clement Asiedu, Michael Bailey, Anna N. Honko, Jenny Hendriks, and Other departments

Subjects

Serotype, Genetic Vectors, Immunology, Biology, Antibodies, Viral, medicine.disease_cause, Microbiology, Immune system, Viral Envelope Proteins, Immunity, Virology, medicine, Animals, Lymphocytes, Vector (molecular biology), Ebola Vaccines, Ebolavirus, Drug Carriers, Vaccines, Synthetic, Ebola vaccine, Adenoviruses, Human, Vaccination, Hemorrhagic Fever, Ebola, biochemical phenomena, metabolism, and nutrition, Vaccine efficacy, Macaca fascicularis, Insect Science, Pathogenesis and Immunity

Abstract

The use of adenoviruses (Ad) as vaccine vectors against a variety of pathogens has demonstrated their capacity to elicit strong antibody and cell-mediated immune responses. Adenovirus serotype C vectors, such as Ad serotype 5 (Ad5), expressing Ebolavirus (EBOV) glycoprotein (GP), protect completely after a single inoculation at a dose of 10 10 viral particles. However, the clinical application of a vaccine based on Ad5 vectors may be hampered, since impairment of Ad5 vaccine efficacy has been demonstrated for humans and nonhuman primates with high levels of preexisting immunity to the vector. Ad26 and Ad35 segregate genetically from Ad5 and exhibit lower seroprevalence in humans, making them attractive vaccine vector alternatives. In the series of studies presented, we show that Ad26 and Ad35 vectors generate robust antigen-specific cell-mediated and humoral immune responses against EBOV GP and that Ad5 immune status does not affect the generation of GP-specific immune responses by these vaccines. We demonstrate partial protection against EBOV by a single-shot Ad26 vaccine and complete protection when this vaccine is boosted by Ad35 1 month later. Increases in efficacy are paralleled by substantial increases in T- and B-cell responses to EBOV GP. These results suggest that Ad26 and Ad35 vectors warrant further development as candidate vaccines for EBOV.

Published

2011

78. Postexposure protection of non-human primates against a lethal Ebola virus challenge with RNA interference: a proof-of-concept study

Author

Susan D de Jong, Adam Judge, Vandana Sood, Joshua C. Johnson, Joan B. Geisbert, Iran Tavakoli, Marjorie Robbins, Amy C.H. Lee, Thomas W. Geisbert, Lisa E. Hensley, Ian MacLachlan, and Anna N. Honko

Subjects

Male, Small interfering RNA, Viral protein, Genetic enhancement, ZMapp, medicine.disease_cause, Virus Replication, Article, Mice, Viral Proteins, RNA interference, Chlorocebus aethiops, medicine, Animals, Viremia, RNA, Small Interfering, Infusions, Intravenous, Vero Cells, Polymerase, Mice, Inbred ICR, Ebola virus, biology, Interleukin-6, Interferon-alpha, General Medicine, Hemorrhagic Fever, Ebola, Ebolavirus, Virology, Macaca mulatta, Immunology, biology.protein, Nucleic acid, Female, RNA Interference, medicine.drug

Abstract

Summary Background We previously showed that small interfering RNAs (siRNAs) targeting the Zaire Ebola virus (ZEBOV) RNA polymerase L protein formulated in stable nucleic acid-lipid particles (SNALPs) completely protected guineapigs when administered shortly after a lethal ZEBOV challenge. Although rodent models of ZEBOV infection are useful for screening prospective countermeasures, they are frequently not useful for prediction of efficacy in the more stringent non-human primate models. We therefore assessed the efficacy of modified non-immunostimulatory siRNAs in a uniformly lethal non-human primate model of ZEBOV haemorrhagic fever. Methods A combination of modified siRNAs targeting the ZEBOV L polymerase (EK-1 mod), viral protein (VP) 24 (VP24-1160 mod), and VP35 (VP35-855 mod) were formulated in SNALPs. A group of macaques (n=3) was given these pooled anti-ZEBOV siRNAs (2 mg/kg per dose, bolus intravenous infusion) after 30 min, and on days 1, 3, and 5 after challenge with ZEBOV. A second group of macaques (n=4) was given the pooled anti-ZEBOV siRNAs after 30 min, and on days 1, 2, 3, 4, 5, and 6 after challenge with ZEBOV. Findings Two (66%) of three rhesus monkeys given four postexposure treatments of the pooled anti-ZEBOV siRNAs were protected from lethal ZEBOV infection, whereas all macaques given seven postexposure treatments were protected. The treatment regimen in the second study was well tolerated with minor changes in liver enzymes that might have been related to viral infection. Interpretation This complete postexposure protection against ZEBOV in non-human primates provides a model for the treatment of ZEBOV-induced haemorrhagic fever. These data show the potential of RNA interference as an effective postexposure treatment strategy for people infected with Ebola virus, and suggest that this strategy might also be useful for treatment of other emerging viral infections. Funding Defense Threat Reduction Agency.

Published

2010

79. Demonstration of cross-protective vaccine immunity against an emerging pathogenic Ebolavirus Species

Author

Michael Bailey, Anna N. Honko, Nancy J. Sullivan, Victoria Wahl-Jensen, Clement Asiedu, Stuart T. Nichol, Sabue Mulangu, Thomas G. Ksiazek, Lisa E. Hensley, Mario Roederer, Giulia Fabozzi, Richard A. Koup, Daphne A. Stanley, Peter B. Jahrling, Pierre E. Rollin, and Joshua C. Johnson

Subjects

CD4-Positive T-Lymphocytes, lcsh:Immunologic diseases. Allergy, Cellular immunity, Immunology, Biology, CD8-Positive T-Lymphocytes, Cross Reactions, medicine.disease_cause, Microbiology, Communicable Diseases, Emerging, Epitopes, Viral Proteins, Immune system, Species Specificity, Immunity, Virology, Immunology/Immunity to Infections, Infectious Diseases/Viral Infections, Genetics, medicine, Animals, Humans, Uganda, Ebola Vaccines, Molecular Biology, lcsh:QH301-705.5, Virology/Vaccines, Glycoproteins, Ebolavirus, Ebola virus, Ebola vaccine, Viral Vaccine, Vaccination, Hemorrhagic Fever, Ebola, Immunity, Humoral, Macaca fascicularis, Infectious Diseases, lcsh:Biology (General), DNA, Viral, Immunology/Immune Response, Parasitology, lcsh:RC581-607, Research Article

Abstract

A major challenge in developing vaccines for emerging pathogens is their continued evolution and ability to escape human immunity. Therefore, an important goal of vaccine research is to advance vaccine candidates with sufficient breadth to respond to new outbreaks of previously undetected viruses. Ebolavirus (EBOV) vaccines have demonstrated protection against EBOV infection in nonhuman primates (NHP) and show promise in human clinical trials but immune protection occurs only with vaccines whose antigens are matched to the infectious challenge species. A 2007 hemorrhagic fever outbreak in Uganda demonstrated the existence of a new EBOV species, Bundibugyo (BEBOV), that differed from viruses covered by current vaccine candidates by up to 43% in genome sequence. To address the question of whether cross-protective immunity can be generated against this novel species, cynomolgus macaques were immunized with DNA/rAd5 vaccines expressing ZEBOV and SEBOV glycoprotein (GP) prior to lethal challenge with BEBOV. Vaccinated subjects developed robust, antigen-specific humoral and cellular immune responses against the GP from ZEBOV as well as cellular immunity against BEBOV GP, and immunized macaques were uniformly protected against lethal challenge with BEBOV. This report provides the first demonstration of vaccine-induced protective immunity against challenge with a heterologous EBOV species, and shows that Ebola vaccines capable of eliciting potent cellular immunity may provide the best strategy for eliciting cross-protection against newly emerging heterologous EBOV species., Author Summary Ebola virus causes death, fear, and economic disruption during outbreaks. It is a concern worldwide as a natural pathogen and a bioterrorism agent, and has caused death to residents and tourists of Africa where the virus circulates. A vaccine strategy to protect against all circulating Ebola viruses is complicated by the fact that there are five different virus species, and individual vaccines provide protection only against those included in the vaccine. Making broad vaccines that contain multiple components is complicated, expensive, and poses challenges for regulatory approval. Therefore, in the present work, we examined whether a prime-boost immunization strategy with a vaccine targeted to one Ebola virus species could cross protect against a different species. We found that genetic immunization with vectors expressing the Ebola virus glycoprotein from Zaire blocked infection with a newly emerged virus species, Bundibugyo EBOV, not represented in the vaccine. Protection occurred in the absence of antibodies against the second species and was mediated instead by cellular immune responses. Therefore, single-component vaccines may be improved to protect against multiple Ebola viruses if they are designed to generate this type of immunity.

Published

2010

80. Mucosal administration of flagellin induces innate immunity in the mouse lung

Author

Anna N. Honko and Steven B. Mizel

Subjects

Chemokine, Neutrophils, Immunology, Chemokine CXCL2, Biology, Granulocyte, Microbiology, law.invention, Mice, law, Gram-Negative Bacteria, Granulocyte Colony-Stimulating Factor, medicine, Animals, Interleukin 6, Chemokine CCL4, Lung, Mice, Inbred BALB C, Mice, Inbred C3H, Host Response and Inflammation, Innate immune system, Interleukin-6, Tumor Necrosis Factor-alpha, Monokines, Macrophage Inflammatory Proteins, medicine.disease, Immunity, Innate, Recombinant Proteins, Infectious Diseases, medicine.anatomical_structure, Salmonella enteritidis, Recombinant DNA, biology.protein, Cytokines, Parasitology, Tumor necrosis factor alpha, Female, Infiltration (medical), Flagellin

Abstract

Nonsurgical intratracheal instillation of 1 μg of purified, recombinant flagellin in several strains of mice stimulated a transient innate immune response in the lung characterized by the infiltration of neutrophils and the rapid production of tumor necrosis factor alpha, interleukin 6, granulocyte colony-stimulating factor, and the chemokines keratinocyte-derived chemokine, MIP1α, and MIP-2.

Published

2004

81. Development and Evaluation of a Panel of Filovirus Sequence Capture Probes for Pathogen Detection by Next-Generation Sequencing

Author

Joseph N. Fair, Jeffrey W. Koehler, Jean-Jacques Muyembe, Prime Mulembekani, Gustavo Palacios, P. Alexander Rolfe, Adrienne T. Hall, Adeyemi Adesokan, Anna N. Honko, Randal J. Schoepp, and Timothy D. Minogue

Subjects

DNA, Complementary, Molecular biology, lcsh:Medicine, Context (language use), Filoviridae, Microbial Genomics, Biology, Molecular biology assays and analysis techniques, medicine.disease_cause, Polymerase Chain Reaction, Microbiology, Marburg virus, Virology, Emerging Viral Diseases, Genetics, medicine, Animals, Humans, lcsh:Science, Pathogen, Ebolavirus, Viral Genomics, Multidisciplinary, Ebola virus, Biology and life sciences, Nucleic acid analysis, lcsh:R, Outbreak, Sequence Analysis, DNA, Genomics, Hemorrhagic Fever, Ebola, RNA analysis, biology.organism_classification, Macaca mulatta, Bundibugyo virus, Viral Disease Diagnosis, Molecular biology techniques, Democratic Republic of the Congo, RNA, Viral, lcsh:Q, DNA Probes, Research Article

Abstract

A detailed understanding of the circulating pathogens in a particular geographic location aids in effectively utilizing targeted, rapid diagnostic assays, thus allowing for appropriate therapeutic and containment procedures. This is especially important in regions prevalent for highly pathogenic viruses co-circulating with other endemic pathogens such as the malaria parasite. The importance of biosurveillance is highlighted by the ongoing Ebola virus disease outbreak in West Africa. For example, a more comprehensive assessment of the regional pathogens could have identified the risk of a filovirus disease outbreak earlier and led to an improved diagnostic and response capacity in the region. In this context, being able to rapidly screen a single sample for multiple pathogens in a single tube reaction could improve both diagnostics as well as pathogen surveillance. Here, probes were designed to capture identifying filovirus sequence for the ebolaviruses Sudan, Ebola, Reston, Taï Forest, and Bundibugyo and the Marburg virus variants Musoke, Ci67, and Angola. These probes were combined into a single probe panel, and the captured filovirus sequence was successfully identified using the MiSeq next-generation sequencing platform. This panel was then used to identify the specific filovirus from nonhuman primates experimentally infected with Ebola virus as well as Bundibugyo virus in human sera samples from the Democratic Republic of the Congo, thus demonstrating the utility for pathogen detection using clinical samples. While not as sensitive and rapid as real-time PCR, this panel, along with incorporating additional sequence capture probe panels, could be used for broad pathogen screening and biosurveillance.

Published

2014

82. Lassa and Marburg viruses elicit distinct host transcriptional responses early after infection

Author

Arthur J. Goff, Ignacio S. Caballero, John H. Connor, Judy Y. Yen, Lisa E. Hensley, and Anna N. Honko

Subjects

Male, Hemorrhagic Fevers, Viral, Transcription, Genetic, Biology, medicine.disease_cause, Virus, Viral hemorrhagic fever, Marburg virus, Transcriptome, Transcriptional response, Genetics, medicine, Animals, Lassa virus, Transcriptomics, Interferon-stimulated genes, Pathogen, Regulation of gene expression, Sequence Analysis, RNA, Gene Expression Profiling, Monkey Diseases, Early stage diagnostics, Reproducibility of Results, Biomarker, Gene expression profile, medicine.disease, Marburgvirus, biology.organism_classification, Virology, Macaca fascicularis, Gene Expression Regulation, Host-Pathogen Interactions, Interferon Type I, Immunology, Leukocytes, Mononuclear, Female, Research Article, Biotechnology

Abstract

Background Lassa virus and Marburg virus are two causative agents of viral hemorrhagic fever. Their diagnosis is difficult because patients infected with either pathogen present similar nonspecific symptoms early after infection. Current diagnostic tests are based on detecting viral proteins or nucleic acids in the blood, but these cannot be found during the early stages of disease, before the virus starts replicating in the blood. Using the transcriptional response of the host during infection can lead to earlier diagnoses compared to those of traditional methods. Results In this study, we use RNA sequencing to obtain a high-resolution view of the in vivo transcriptional dynamics of peripheral blood mononuclear cells (PBMCs) throughout both types of infection. We report a subset of host mRNAs, including heat-shock proteins like HSPA1B, immunoglobulins like IGJ, and cell adhesion molecules like SIGLEC1, whose differences in expression are strong enough to distinguish Lassa infection from Marburg infection in non-human primates. We have validated these infection-specific expression differences by using microarrays on a larger set of samples, and by quantifying the expression of individual genes using RT-PCR. Conclusions These results suggest that host transcriptional signatures are correlated with specific viral infections, and that they can be used to identify highly pathogenic viruses during the early stages of disease, before standard detection methods become effective. Electronic supplementary material The online version of this article (doi:10.1186/1471-2164-15-960) contains supplementary material, which is available to authorized users.

Published

2014

83. Small Molecule Therapeutics of Viruses of Families Bunyaviridae and Arenaviridae

Author

Marcela Karpuj, Emma Harrell, Darci R. Smith, Anna N. Honko, Nessie Van Loan, Sean Broce, Andrea Stossel, Clarence R. Hurt, Vishwanath R. Lingappa, Colm A. Kelleher, William Hansen, Lisa E. Hensley, Jaisri R. Lingappa, and Brenna Kelley-Clarke

Subjects

Pharmacology, biology, Virology, Arenaviridae, Bunyaviridae, biology.organism_classification, Small molecule

Published

2010

84. Development of FGI-106 as a broad-spectrum therapeutic with activity against members of the family Bunyaviridae

Author

Aura R. Garrison, Anna N. Honko, Josh Johnson, Abdul Yunus, Gene G. Olinger, Michael S. Kinch, Monica M. Ogg, Lisa E. Hensley, and Darci R. Smith

Subjects

0303 health sciences, La Crosse virus, 030306 microbiology, viruses, Immunology, Andes virus, RNA, Spleen, Biology, Virology, Virus, 3. Good health, 03 medical and health sciences, Infectious Diseases, medicine.anatomical_structure, Veterinary virology, medicine, Hantaan virus, 030304 developmental biology, FGI-106

Abstract

The family Bunyaviridae is a diverse group of negative-strand RNA viruses that infect a wide range of arthropod vectors and animal hosts. Based on the continuing need for new therapeutics to treat bunyavirus infections, we evaluated the potential efficacy of FGI-106, a small-molecular compound that previously demonstrated activity against different RNA viruses. FGI-106 displayed substantial antiviral activity in cell-based assays of different bunyavirus family members, including Asian and South American hantaviruses (Hantaan virus and Andes virus), Crimean-Congo hemorrhagic fever virus, La Crosse virus, and Rift Valley fever virus. The pharmacokinetic profile of FGI-106 revealed sufficient exposure of the drug to critical target organs (lung, liver, kidney, and spleen), which are frequently the sites of bunyavirus replica- tion. Consistent with these findings, FGI-106 treatment delivered via intraperitoneal injection prior to virus exposure was sufficient to delay the onset of Rift Valley fever virus infection in mouse-based models and to enhance survival in the face of an otherwise lethal infection. Alto- gether, these results suggest a potential opportunity for the use of FGI-106 to treat infections by members of the family Bunyaviridae.

Published

2010

85. Low-Input, High-Resolution 5′ Terminal Filovirus RNA Sequencing with ViBE-Seq

Author

Stephen J. Ross, Adam J. Hume, Judith Olejnik, Jacquelyn Turcinovic, Anna N. Honko, Lindsay G. A. McKay, John H. Connor, Anthony Griffiths, Elke Mühlberger, and Daniel Cifuentes

Subjects

5′ end RNA sequencing, ViBE-Seq, viral bona fide end sequencing, emerging viruses, Ebola virus, Marburg virus, Microbiology, QR1-502

Abstract

Although next-generation sequencing (NGS) has been instrumental in determining the genomic sequences of emerging RNA viruses, de novo sequence determination often lacks sufficient coverage of the 5′ and 3′ ends of the viral genomes. Since the genome ends of RNA viruses contain the transcription and genome replication promoters that are essential for viral propagation, a lack of terminal sequence information hinders the efforts to study the replication and transcription mechanisms of emerging and re-emerging viruses. To circumvent this, we have developed a novel method termed ViBE-Seq (Viral Bona Fide End Sequencing) for the high-resolution sequencing of filoviral genome ends using a simple yet robust protocol with high fidelity. This technique allows for sequence determination of the 5′ end of viral RNA genomes and mRNAs with as little as 50 ng of total RNA. Using the Ebola virus and Marburg virus as prototypes for highly pathogenic, re-emerging viruses, we show that ViBE-Seq is a reliable technique for rapid and accurate 5′ end sequencing of filovirus RNA sourced from virions, infected cells, and tissue obtained from infected animals. We also show that ViBE-Seq can be used to determine whether distinct reverse transcriptases have terminal deoxynucleotidyl transferase activity. Overall, ViBE-Seq will facilitate the access to complete sequences of emerging viruses.

Published

2024

86. Previremic Identification of Ebola or Marburg Virus Infection Using Integrated Host-Transcriptome and Viral Genome Detection

Author

Emily Speranza, Ignacio Caballero, Anna N. Honko, Joshua C. Johnson, J. Kyle Bohannon, Lisa Evans DeWald, Dawn M. Gerhardt, Jennifer Sword, Lisa E. Hensley, Richard S. Bennett, and John H. Connor

Subjects

diagnostic, Ebola virus, filovirus, host response, Marburg virus, presymptomatic, Microbiology, QR1-502

Abstract

ABSTRACT Outbreaks of filoviruses, such as those caused by the Ebola (EBOV) and Marburg (MARV) virus, are difficult to detect and control. The initial clinical symptoms of these diseases are nonspecific and can mimic other endemic pathogens. This makes confident diagnosis based on clinical symptoms alone impossible. Molecular diagnostics for these diseases that rely on the detection of viral RNA in the blood are only effective after significant disease progression. As an approach to identify these infections earlier in the disease course, we tested the effectiveness of viral RNA detection combined with an assessment of sentinel host mRNAs that are upregulated following filovirus infection. RNAseq analysis of EBOV-infected nonhuman primates identified host RNAs that are upregulated at early stages of infection. NanoString probes that recognized these host-response RNAs were combined with probes that recognized viral RNA and were used to classify viral infection both prior to viremia and postviremia. This approach was highly successful at identifying samples from nonhuman primate subjects and correctly distinguished the causative agent in a previremic stage in 10 EBOV and 5 MARV samples. This work suggests that unified host response/viral fingerprint assays can enable diagnosis of disease earlier than testing for viral nucleic acid alone, which could decrease transmission events and increase therapeutic effectiveness. IMPORTANCE Current molecular tests that identify infection with high-consequence viruses such as Ebola virus and Marburg virus are based on the detection of virus material in the blood. These viruses do not undergo significant early replication in the blood and, instead, replicate in organs such as the liver and spleen. Thus, virus begins to accumulate in the blood only after significant replication has already occurred in those organs, making viremia an indicator of infection only after initial stages have become established. Here, we show that a multianalyte assay can correctly identify the infectious agent in nonhuman primates (NHPs) prior to viremia through tracking host infection response transcripts. This illustrates that a single-tube, sample-to-answer format assay could be used to advance the time at which the type of infection can be determined and thereby improve outcomes.

Published

2020

87. Virus-encoded miRNAs in Ebola virus disease

Author

Janice Duy, Anna N. Honko, Louis A. Altamura, Sandra L. Bixler, Suzanne Wollen-Roberts, Nadia Wauquier, Aileen O’Hearn, Eric M. Mucker, Joshua C. Johnson, Joshua D. Shamblin, Justine Zelko, Miriam A. Botto, James Bangura, Moinya Coomber, M. Louise Pitt, Jean-Paul Gonzalez, Randal J. Schoepp, Arthur J. Goff, and Timothy D. Minogue

Subjects

Medicine, Science

Abstract

Abstract Ebola virus (EBOV) is a negative-strand RNA virus that replicates in the cytoplasm and causes an often-fatal hemorrhagic fever. EBOV, like other viruses, can reportedly encode its own microRNAs (miRNAs) to subvert host immune defenses. miRNAs are short noncoding RNAs that can regulate gene expression by hybridizing to multiple mRNAs, and viral miRNAs can enhance viral replication and infectivity by regulating host or viral genes. To date, only one EBOV miRNA has been examined in human infection. Here, we assayed mouse, rhesus macaque, cynomolgus macaque, and human samples infected with three EBOV variants for twelve computationally predicted viral miRNAs using RT-qPCR. Ten miRNAs aligned to EBOV variants and were detectable in the four species during disease with several viral miRNAs showing presymptomatic amplification in animal models. miRNA abundances in both the mouse and nonhuman primate models mirrored the human cohort, with miR-1-5p, miR-1-3p, and miR-T3-3p consistently at the highest levels. These striking similarities in the most abundant miRNAs during infection with different EBOV variants and hosts indicate that these miRNAs are potential valuable diagnostic markers and key effectors of EBOV pathogenesis.

Published

2018

88. High dose sertraline monotherapy fails to protect rhesus macaques from lethal challenge with Ebola virus Makona

Author

Anna N. Honko, Joshua C. Johnson, Jonathan S. Marchand, Louis Huzella, Ricky D. Adams, Nicholas Oberlander, Lisa M. Torzewski, Richard S. Bennett, Lisa E. Hensley, Peter B. Jahrling, and Gene G. Olinger

Subjects

Medicine, Science

Abstract

Abstract The recent epidemic of Ebola virus disease in West Africa resulted in an unprecedented number of cases and deaths. Due to the scope of the outbreak combined with the lack of available approved treatment options, there was strong motivation to investigate any potential drug which had existing data reporting anti-Ebola activity. Drugs with demonstrated antiviral activity in the nonhuman primate models already approved for another indication or for which there was existing safety data were considered to be priorities for evaluation by the World Health Organization. Sertraline hydrochloride was reported to have anti-Ebola activity in vitro alone and in combination with other approved drugs. Although the efficacy was less than 100% in the murine model, the established safety profile of this product, the potential benefit alone and in combination, as well as the lack of other available options prioritized this compound for testing in the Ebola virus intramuscular rhesus macaque challenge model. Using a blinded dosing strategy, we demonstrated that high dose sertraline monotherapy provided no benefit for the prevention of Ebola virus disease in rhesus macaques with regards to reduction of viral load, morbidity, or survival highlighting the challenges of translating results between in vitro and in vivo models.

Published

2017

89. Ebola Virus Infections in Nonhuman Primates Are Temporally Influenced by Glycoprotein Poly-U Editing Site Populations in the Exposure Material

Author

John C. Trefry, Suzanne E. Wollen, Farooq Nasar, Joshua D. Shamblin, Steven J. Kern, Jeremy J. Bearss, Michelle A. Jefferson, Taylor B. Chance, Jeffery R. Kugelman, Jason T. Ladner, Anna N. Honko, Dean J. Kobs, Morgan Q.S. Wending, Carol L. Sabourin, William D. Pratt, Gustavo F. Palacios, and M. Louise M. Pitt

Subjects

Ebola virus, Kikwit, filovirus, nonhuman primate, glycoprotein, RNA editing, pathogenesis, animal model, vaccine, therapeutic, Microbiology, QR1-502

Abstract

Recent experimentation with the variants of the Ebola virus that differ in the glycoprotein’s poly-uridine site, which dictates the form of glycoprotein produced through a transcriptional stutter, has resulted in questions regarding the pathogenicity and lethality of the stocks used to develop products currently undergoing human clinical trials to combat the disease. In order to address these concerns and prevent the delay of these critical research programs, we designed an experiment that permitted us to intramuscularly challenge statistically significant numbers of naïve and vaccinated cynomolgus macaques with either a 7U or 8U variant of the Ebola virus, Kikwit isolate. In naïve animals, no difference in survivorship was observed; however, there was a significant delay in the disease course between the two groups. Significant differences were also observed in time-of-fever, serum chemistry, and hematology. In vaccinated animals, there was no statistical difference in survivorship between either challenge groups, with two succumbing in the 7U group compared to 1 in the 8U challenge group. In summary, survivorship was not affected, but the Ebola virus disease course in nonhuman primates is temporally influenced by glycoprotein poly-U editing site populations.

Published

2015

90. Euthanasia Assessment in Ebola Virus Infected Nonhuman Primates

Author

Travis K. Warren, John C. Trefry, Shannon T. Marko, Taylor B. Chance, Jay B. Wells, William D. Pratt, Joshua C. Johnson, Eric M. Mucker, Sarah L. Norris, Mark Chappell, John M. Dye, and Anna N. Honko

Subjects

filovirus, nonhuman primate, viral hemorrhagic fever, euthanasia, clinical pathology, Ebola virus, Microbiology, QR1-502

Abstract

Multiple products are being developed for use against filoviral infections. Efficacy for these products will likely be demonstrated in nonhuman primate models of filoviral disease to satisfy licensure requirements under the Animal Rule, or to supplement human data. Typically, the endpoint for efficacy assessment will be survival following challenge; however, there exists no standardized approach for assessing the health or euthanasia criteria for filovirus-exposed nonhuman primates. Consideration of objective criteria is important to (a) ensure test subjects are euthanized without unnecessary distress; (b) enhance the likelihood that animals exhibiting mild or moderate signs of disease are not prematurely euthanized; (c) minimize the occurrence of spontaneous deaths and loss of end-stage samples; (d) enhance the reproducibility of experiments between different researchers; and (e) provide a defensible rationale for euthanasia decisions that withstands regulatory scrutiny. Historic records were compiled for 58 surviving and non-surviving monkeys exposed to Ebola virus at the US Army Medical Research Institute of Infectious Diseases. Clinical pathology parameters were statistically analyzed and those exhibiting predicative value for survival are reported. These findings may be useful for standardization of objective euthanasia assessments in rhesus monkeys exposed to Ebola virus and may serve as a useful approach for other standardization efforts.

Published

2014

91. Filovirus RefSeq Entries: Evaluation and Selection of Filovirus Type Variants, Type Sequences, and Names

Author

Jens H. Kuhn, Kristian G. Andersen, Yīmíng Bào, Sina Bavari, Stephan Becker, Richard S. Bennett, Nicholas H. Bergman, Olga Blinkova, Steven Bradfute, J. Rodney Brister, Alexander Bukreyev, Kartik Chandran, Alexander A. Chepurnov, Robert A. Davey, Ralf G. Dietzgen, Norman A. Doggett, Olga Dolnik, John M. Dye, Sven Enterlein, Paul W. Fenimore, Pierre Formenty, Alexander N. Freiberg, Robert F. Garry, Nicole L. Garza, Stephen K. Gire, Jean-Paul Gonzalez, Anthony Griffiths, Christian T. Happi, Lisa E. Hensley, Andrew S. Herbert, Michael C. Hevey, Thomas Hoenen, Anna N. Honko, Georgy M. Ignatyev, Peter B. Jahrling, Joshua C. Johnson, Karl M. Johnson, Jason Kindrachuk, Hans-Dieter Klenk, Gary Kobinger, Tadeusz J. Kochel, Matthew G. Lackemeyer, Daniel F. Lackner, Eric M. Leroy, Mark S. Lever, Elke Mühlberger, Sergey V. Netesov, Gene G. Olinger, Sunday A. Omilabu, Gustavo Palacios, Rekha G. Panchal, Daniel J. Park, Jean L. Patterson, Janusz T. Paweska, Clarence J. Peters, James Pettitt, Louise Pitt, Sheli R. Radoshitzky, Elena I. Ryabchikova, Erica Ollmann Saphire, Pardis C. Sabeti, Rachel Sealfon, Aleksandr M. Shestopalov, Sophie J. Smither, Nancy J. Sullivan, Robert Swanepoel, Ayato Takada, Jonathan S. Towner, Guido van der Groen, Viktor E. Volchkov, Valentina A. Volchkova, Victoria Wahl-Jensen, Travis K. Warren, Kelly L. Warfield, Manfred Weidmann, and Stuart T. Nichol

Subjects

Bundibugyo virus, cDNA clone, cuevavirus, Ebola, Ebola virus, ebolavirus, filovirid, Filoviridae, filovirus, genome annotation, ICTV, International Committee on Taxonomy of Viruses, Lloviu virus, Marburg virus, marburgvirus, mononegavirad, Mononegavirales, mononegavirus, Ravn virus, RefSeq, Reston virus, reverse genetics, Sudan virus, Taï Forest virus, virus classification, virus isolate, virus nomenclature, virus strain, virus taxonomy, virus variant, Microbiology, QR1-502

Abstract

Sequence determination of complete or coding-complete genomes of viruses is becoming common practice for supporting the work of epidemiologists, ecologists, virologists, and taxonomists. Sequencing duration and costs are rapidly decreasing, sequencing hardware is under modification for use by non-experts, and software is constantly being improved to simplify sequence data management and analysis. Thus, analysis of virus disease outbreaks on the molecular level is now feasible, including characterization of the evolution of individual virus populations in single patients over time. The increasing accumulation of sequencing data creates a management problem for the curators of commonly used sequence databases and an entry retrieval problem for end users. Therefore, utilizing the data to their fullest potential will require setting nomenclature and annotation standards for virus isolates and associated genomic sequences. The National Center for Biotechnology Information’s (NCBI’s) RefSeq is a non-redundant, curated database for reference (or type) nucleotide sequence records that supplies source data to numerous other databases. Building on recently proposed templates for filovirus variant naming [ ()////-], we report consensus decisions from a majority of past and currently active filovirus experts on the eight filovirus type variants and isolates to be represented in RefSeq, their final designations, and their associated sequences.

Published

2014

92. Potential Vaccines and Post-Exposure Treatments for Filovirus Infections

Author

Gene G. Olinger, Brian M. Friedrich, John C. Trefry, Lisa E. Hensley, Anna N. Honko, Darci R. Smith, and Julia E. Biggins

Subjects

filovirus, Ebola, ebolavirus, Marburg virus, marburgvirus, vaccines, post-exposure treatments, clinical trials, non-human primates, animal models, Microbiology, QR1-502

Abstract

Viruses of the family Filoviridae represent significant health risks as emerging infectious diseases as well as potentially engineered biothreats. While many research efforts have been published offering possibilities toward the mitigation of filoviral infection, there remain no sanctioned therapeutic or vaccine strategies. Current progress in the development of filovirus therapeutics and vaccines is outlined herein with respect to their current level of testing, evaluation, and proximity toward human implementation, specifically with regard to human clinical trials, nonhuman primate studies, small animal studies, and in vitro development. Contemporary methods of supportive care and previous treatment approaches for human patients are also discussed.

Published

2012