Your search keyword '"Danielle L. Porier"' showing total 7 results

1. Exploring the immunogenicity of an insect-specific virus vectored Zika vaccine candidate

Author

Manette Tanelus, Krisangel López, Shaan Smith, John A. Muller, Danielle L. Porier, Dawn I. Auguste, William B. Stone, Sally L. Paulson, and Albert J. Auguste

Subjects

Medicine, Science

Abstract

Abstract Zika virus (ZIKV) is an important re-emerging flavivirus that presents a significant threat to human health worldwide. Despite its importance, no vaccines are approved for use in humans. Insect-specific flaviviruses (ISFVs) have recently garnered attention as an antigen presentation platform for vaccine development and diagnostic applications. Here, we further explore the safety, immunogenicity, and efficacy of a chimeric ISFV-Zika vaccine candidate, designated Aripo-Zika (ARPV/ZIKV). Our results show a near-linear relationship between increased dose and immunogenicity, with 1011 genome copies (i.e., 108 focus forming units) being the minimum dose required for protection from ZIKV-induced morbidity and mortality in mice. Including boosters did not significantly increase the short-term efficacy of ARPV/ZIKV-vaccinated mice. We also show that weanling mice derived from ARPV/ZIKV-vaccinated dams were completely protected from ZIKV-induced morbidity and mortality upon challenge, suggesting efficient transfer of maternally-derived protective antibodies. Finally, in vitro coinfection studies of ZIKV with Aripo virus (ARPV) and ARPV/ZIKV in African green monkey kidney cells (i.e., Vero-76) showed that ARPV and ARPV/ZIKV remain incapable of replication in vertebrate cells, despite the presence of active ZIKV replication. Altogether, our data continue to support ISFV-based vaccines, and specifically the ARPV backbone is a safe, immunogenic and effective vaccine strategy for flaviviruses.

Published

2023

2. Novel murine models for studying Cache Valley virus pathogenesis and in utero transmission

Author

Krisangel López, Sarah N. Wilson, Sheryl Coutermash-Ott, Manette Tanelus, William B. Stone, Danielle L. Porier, Dawn I. Auguste, John A. Muller, Orchid M. Allicock, Sally L. Paulson, Jesse H. Erasmus, and Albert J. Auguste

Subjects

Cache Valley virus, pathogenesis, animal models, murine model, orthobunyavirus, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Cache Valley virus (CVV) is a prevalent emerging pathogen of significant importance to agricultural and human health in North America. Emergence in livestock can result in substantial agroeconomic losses resulting from the severe embryonic lethality associated with infection during pregnancy. Although CVV pathogenesis has been well described in ruminants, small animal models are still unavailable, which limits our ability to study its pathogenesis and perform preclinical testing of therapeutics. Herein, we explored CVV pathogenesis, tissue tropism, and disease outcomes in a variety of murine models, including immune -competent and -compromised animals. Our results show that development of CVV disease in mice is dependent on innate immune responses, and type I interferon signalling is essential for preventing infection in mice. IFN-αβR-/- mice infected with CVV present with significant disease and lethal infections, with minimal differences in age-dependent pathogenesis, suggesting this model is appropriate for pathogenesis-related, and short- and long-term therapeutic studies. We also developed a novel CVV in utero transmission model that showed high rates of transmission, spontaneous abortions, and congenital malformations during infection. CVV infection presents a wide tissue tropism, with significant amplification in liver, spleen, and placenta tissues. Immune-competent mice are generally resistant to infection, and only show disease in an age dependent manner. Given the high seropositivity rates in regions of North America, and the continuing geographic expansion of competent mosquito vectors, the risk of epidemic and epizootic emergence of CVV is high, and interventions are needed for this important pathogen.

Published

2021

3. Enemy of My Enemy: A Novel Insect-Specific Flavivirus Offers a Promising Platform for a Zika Virus Vaccine

Author

Danielle L. Porier, Sarah N. Wilson, Dawn I. Auguste, Andrew Leber, Sheryl Coutermarsh-Ott, Irving C. Allen, Clayton C. Caswell, James A. Budnick, Josep Bassaganya-Riera, Raquel Hontecillas, James Weger-Lucarelli, Scott C. Weaver, and Albert J. Auguste

Subjects

flavivirus, insect-specific virus, vaccine, Zika virus, correlates of protection, Medicine

Abstract

Vaccination remains critical for viral disease outbreak prevention and control, but conventional vaccine development typically involves trade-offs between safety and immunogenicity. We used a recently discovered insect-specific flavivirus as a vector in order to develop an exceptionally safe, flavivirus vaccine candidate with single-dose efficacy. To evaluate the safety and efficacy of this platform, we created a chimeric Zika virus (ZIKV) vaccine candidate, designated Aripo/Zika virus (ARPV/ZIKV). ZIKV has caused immense economic and public health impacts throughout the Americas and remains a significant public health threat. ARPV/ZIKV vaccination showed exceptional safety due to ARPV/ZIKV’s inherent vertebrate host-restriction. ARPV/ZIKV showed no evidence of replication or translation in vitro and showed no hematological, histological or pathogenic effects in vivo. A single-dose immunization with ARPV/ZIKV induced rapid and robust neutralizing antibody and cellular responses, which offered complete protection against ZIKV-induced morbidity, mortality and in utero transmission in immune-competent and -compromised murine models. Splenocytes derived from vaccinated mice demonstrated significant CD4+ and CD8+ responses and significant cytokine production post-antigen exposure. Altogether, our results further support that chimeric insect-specific flaviviruses are a promising strategy to restrict flavivirus emergence via vaccine development.

Published

2021

4. La Crosse Virus Shows Strain-Specific Differences in Pathogenesis

Author

Sarah N. Wilson, Krisangel López, Sheryl Coutermash-Ott, Dawn I. Auguste, Danielle L. Porier, Philip M. Armstrong, Theodore G. Andreadis, Gillian Eastwood, and Albert J. Auguste

Subjects

La Crosse virus, encephalitic disease, arbovirus, arbovirus pathogenesis, neurovirulence, neuroinvasiveness, Medicine

Abstract

La Crosse virus (LACV) is the leading cause of pediatric viral encephalitis in North America, and is an important public health pathogen. Historically, studies involving LACV pathogenesis have focused on lineage I strains, but no former work has explored the pathogenesis between or within lineages. Given the absence of LACV disease in endemic regions where a robust entomological risk exists, we hypothesize that some LACV strains are attenuated and demonstrate reduced neuroinvasiveness. Herein, we compared four viral strains representing all three lineages to determine differences in neurovirulence or neuroinvasiveness using three murine models. A representative strain from lineage I was shown to be the most lethal, causing >50% mortality in each of the three mouse studies. However, other strains only presented excessive mortality (>50%) within the suckling mouse neurovirulence model. Neurovirulence was comparable among strains, but viruses differed in their neuroinvasive capacities. Our studies also showed that viruses within lineage III vary in pathogenesis with contemporaneous strains, showing reduced neuroinvasiveness compared to an ancestral strain from the same U.S. state (i.e., Connecticut). These findings demonstrate that LACV strains differ markedly in pathogenesis, and that strain selection is important for assessing vaccine and therapeutic efficacies.

Published

2021

5. Novel murine models for studying Cache Valley virus pathogenesis and in utero transmission

Author

Orchid M. Allicock, Sarah N. Wilson, Manette Tanelus, John A. Muller, Sheryl Coutermash-Ott, William B. Stone, Albert J. Auguste, Dawn I. Auguste, Krisangel López, Sally L. Paulson, Danielle L. Porier, and Jesse H. Erasmus

Subjects

Epidemiology, Cache-Valley virus, Immunology, Mosquito Vectors, Biology, Bunyaviridae Infections, Microbiology, Orthobunyavirus, law.invention, murine model, Pathogenesis, Human health, Emerging pathogen, orthobunyavirus, Mice, law, Pregnancy, Virology, Drug Discovery, Animals, Bunyamwera virus, business.industry, pathogenesis, food and beverages, General Medicine, biology.organism_classification, animal models, Infectious Disease Transmission, Vertical, Disease Models, Animal, Infectious Diseases, Transmission (mechanics), Murine model, Cache Valley virus, Parasitology, Livestock, Female, business, Research Article

Abstract

Cache Valley virus (CVV) is a prevalent emerging pathogen of significant importance to agricultural and human health in North America. Emergence in livestock can result in substantial agroeconomic losses resulting from the severe embryonic lethality associated with infection during pregnancy. Although CVV pathogenesis has been well described in ruminants, small animal models are still unavailable, which limits our ability to study its pathogenesis and perform preclinical testing of therapeutics. Herein, we explored CVV pathogenesis, tissue tropism, and disease outcomes in a variety of murine models, including immune -competent and -compromised animals. Our results show that development of CVV disease in mice is dependent on innate immune responses, and type I interferon signalling is essential for preventing infection in mice. IFN-αβR-/- mice infected with CVV present with significant disease and lethal infections, with minimal differences in age-dependent pathogenesis, suggesting this model is appropriate for pathogenesis-related, and short- and long-term therapeutic studies. We also developed a novel CVV in utero transmission model that showed high rates of transmission, spontaneous abortions, and congenital malformations during infection. CVV infection presents a wide tissue tropism, with significant amplification in liver, spleen, and placenta tissues. Immune-competent mice are generally resistant to infection, and only show disease in an age dependent manner. Given the high seropositivity rates in regions of North America, and the continuing geographic expansion of competent mosquito vectors, the risk of epidemic and epizootic emergence of CVV is high, and interventions are needed for this important pathogen.

Published

2021

6. Enemy of My Enemy: A Novel Insect-Specific Flavivirus Offers a Promising Platform for a Zika Virus Vaccine

Author

Sheryl Coutermarsh-Ott, Scott C. Weaver, Raquel Hontecillas, Irving C. Allen, Danielle L. Porier, Clayton C. Caswell, Albert J. Auguste, Dawn I. Auguste, Andrew Leber, James Weger-Lucarelli, James A. Budnick, Sarah N. Wilson, and Josep Bassaganya-Riera

Subjects

Pharmacology, biology, correlates of protection, Immunogenicity, insect-specific virus, Immunology, biology.organism_classification, Virology, Article, Zika virus, Vaccination, Flavivirus, Infectious Diseases, Immunization, flavivirus, vaccine, Drug Discovery, biology.protein, Medicine, Pharmacology (medical), Viral disease, Vector (molecular biology), Neutralizing antibody

Abstract

Vaccination remains critical for viral disease outbreak prevention and control, but conventional vaccine development typically involves trade-offs between safety and immunogenicity. We used a recently discovered insect-specific flavivirus as a vector in order to develop an exceptionally safe, flavivirus vaccine candidate with single-dose efficacy. To evaluate the safety and efficacy of this platform, we created a chimeric Zika virus (ZIKV) vaccine candidate, designated Aripo/Zika virus (ARPV/ZIKV). ZIKV has caused immense economic and public health impacts throughout the Americas and remains a significant public health threat. ARPV/ZIKV vaccination showed exceptional safety due to ARPV/ZIKV’s inherent vertebrate host-restriction. ARPV/ZIKV showed no evidence of replication or translation in vitro and showed no hematological, histological or pathogenic effects in vivo. A single-dose immunization with ARPV/ZIKV induced rapid and robust neutralizing antibody and cellular responses, which offered complete protection against ZIKV-induced morbidity, mortality and in utero transmission in immune-competent and -compromised murine models. Splenocytes derived from vaccinated mice demonstrated significant CD4+ and CD8+ responses and significant cytokine production post-antigen exposure. Altogether, our results further support that chimeric insect-specific flaviviruses are a promising strategy to restrict flavivirus emergence via vaccine development. Published version

Published

2021

7. Structure and Dynamics of the Bcl-2 Promoter G-Quadruplex using the Drude Polarizable Force Field

Author

Alexa M. Salsbury, Justin A. Lemkul, Danielle L. Porier, and Brian D. Ratnasinghe

Subjects

Physics, Chemical physics, Force field (physics), Polarizability, Dynamics (mechanics), Biophysics, Structure (category theory), G-quadruplex

Published

2019