Your search keyword '"Shannan L Rossi"' showing total 110 results

101. Adaptation of West Nile virus replicons to cells in culture and use of replicon-bearing cells to probe antiviral action

Author

Vivian O'Donnell, Shannan L. Rossi, Peter W. Mason, and Qizu Zhao

Subjects

viruses, Drug Evaluation, Preclinical, Hamster, Biology, Persistent infection, Virus Replication, Genome, Antiviral Agents, Microbiology, Cell Line, 03 medical and health sciences, Interferon, Virology, Chlorocebus aethiops, Ribavirin, medicine, Animals, Replicon, Vero Cells, 030304 developmental biology, Subgenomic mRNA, 0303 health sciences, 030306 microbiology, Viral encephalitis, Flavivirus, virus diseases, biochemical phenomena, metabolism, and nutrition, medicine.disease, biology.organism_classification, Antivirals, 3. Good health, nervous system diseases, Cell culture, West Nile virus, West Nile Fever, medicine.drug

Abstract

Flaviviruses are emerging threats to public health worldwide. Recently, one flavivirus, West Nile virus (WNV), has caused the largest epidemic of viral encephalitis in US history. Like other flaviviruses, WNV is thought to cause a persistent infection in insect cells, but an acute cytopathic infection of mammalian cells. To study adaptation of WNV to persistently replicate in cell culture and generate a system capable of detecting antiviral compounds in the absence of live virus, we generated subgenomic replicons of WNV and adapted these to persistently replicate in mammalian cells. Here we report that adaptation of these replicons to cell culture results in a reduction of genome copy number, and demonstrate that hamster, monkey, and human cells that stably carry the replicons can be used as surrogates to detect the activity of anti-WNV compounds. Additionally, we have used these cells to investigate the interaction of WNV genomes with interferon (IFN). These studies demonstrated that IFN can cure cells of replicons and that replicon-bearing cells display lower responses to IFN than their IFN-cured derivatives.

102. Testicular pathological alterations associated with SARS-CoV-2 infection

Author

Judy Ly, Rafael K. Campos, E. Eldridge Hager-Soto, Vidyleison N. Camargos, and Shannan L. Rossi

Subjects

SARS-CoV-2, testes, male reproductive tract, testicular disease, COVID-19, Reproduction, QH471-489, Medicine (General), R5-920

Abstract

Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) is the etiologic agent of the coronavirus disease 2019 (COVID-19), which caused one of the pandemics with the highest mortalities with millions of deaths and hundreds of millions of cases to date. Due to its potential for airborne transmission, many studies have focused on SARS-CoV-2 primarily as a respiratory disease. However, the spread of SARS-CoV-2 to non-respiratory organs has been experimentally demonstrated and clinically observed. During autopsy studies, histopathological lesions, and disruption of the blood-testes barrier (BTB) have been observed in the male reproductive tract. Here, we review findings from both autopsy cases and animal models that demonstrate testicular disease due to COVID-19 and present an overview of the pathological alterations that occur in the testes resulting from SARS-CoV-2 infection and explore its potential mechanisms.

Published

2023

103. A single dose of ChAdOx1 Chik vaccine induces neutralizing antibodies against four chikungunya virus lineages in a phase 1 clinical trial

Author

Pedro M. Folegatti, Kate Harrison, Lorena Preciado-Llanes, Fernando Ramos Lopez, Mustapha Bittaye, Young Chan Kim, Amy Flaxman, Duncan Bellamy, Rebecca Makinson, Jonathan Sheridan, Sasha R. Azar, Rafael Kroon Campos, Mark Tilley, Nguyen Tran, Daniel Jenkin, Ian Poulton, Alison Lawrie, Rachel Roberts, Eleanor Berrie, Shannan L. Rossi, Adrian Hill, Katie J. Ewer, and Arturo Reyes-Sandoval

Subjects

Science

Abstract

Chikungunya virus (CHIKV) is a reemerging mosquito-borne virus that has caused outbreaks in various regions of the world. Here the authors present safety and immunogenicity data from a phase 1 trial with the simian adenovirus vectored vaccine ChAdOx1 Chik, showing induction of neutralizing antibodies to four CHIKV lineages.

Published

2021

104. Outcomes of Congenital Zika Disease Depend on Timing of Infection and Maternal-Fetal Interferon Action

Author

Jinling Chen, Yuejin Liang, Panpan Yi, Lanman Xu, Hal K. Hawkins, Shannan L. Rossi, Lynn Soong, Jiyang Cai, Ramkumar Menon, and Jiaren Sun

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Zika virus (ZIKV) infection during pregnancy in humans results in intrauterine growth restriction, spontaneous abortion, and microcephaly. Here, we found that fetus-derived type I interferon (IFN-I) signaling can enhance anti-ZIKV responses and provide clinical benefits to the fetus. Because IFN-λ shares signaling cascades and antiviral functions with IFN-I, we investigated the in vivo effects of IFN-λ in ZIKV-infected pregnant mice. IFN-λ administration during mid-pregnancy reduced ZIKV burden in maternal and fetal organs and alleviated placental injuries and fetal demise. In addition, prophylactic and therapeutic treatment of IFN-λ1 in a human trophoblast line, as well as in primary human amniotic epithelial cells, greatly reduced the ZIKV burden. Our data highlight IFN-λ1 as a potential therapeutic useful for women at risk for congenital Zika disease. : Chen et al. find that fetus-derived IFN-I signaling contributes to anti-ZIKV responses. IFN-λ administration during mid-pregnancy promotes host defense and reduces disease severity. IFN-λ1 treatment upregulates MX1 expression and establishes an antiviral state, leading to reduced ZIKV replication or elimination. Keywords: Zika virus, congenital infection, interferon-λ, antiviral, animal model, human pregnancy, gestational stage

Published

2017

105. A single-dose live-attenuated vaccine prevents Zika virus pregnancy transmission and testis damage

Author

Chao Shan, Antonio E. Muruato, Brett W. Jagger, Justin Richner, Bruno T. D. Nunes, Daniele B. A. Medeiros, Xuping Xie, Jannyce G. C. Nunes, Kaitlyn M. Morabito, Wing-Pui Kong, Theodore C. Pierson, Alan D. Barrett, Scott C. Weaver, Shannan L. Rossi, Pedro F. C. Vasconcelos, Barney S. Graham, Michael S. Diamond, and Pei-Yong Shi

Subjects

Science

Abstract

Zika virus infection can result in congenital disorders and cause disease in adults, and there is currently no approved vaccine. Here Shan et al. show that a single dose of a live-attenuated Zika vaccine prevents infection, testis damage and transmission to the fetus during pregnancy in different animal models.

Published

2017

106. Chikungunya Virus Strains Show Lineage-Specific Variations in Virulence and Cross-Protective Ability in Murine and Nonhuman Primate Models

Author

Rose M. Langsjoen, Sherry L. Haller, Chad J. Roy, Heather Vinet-Oliphant, Nicholas A. Bergren, Jesse H. Erasmus, Jill A. Livengood, Tim D. Powell, Scott C. Weaver, and Shannan L. Rossi

Subjects

alphavirus, chikungunya, vaccine, Microbiology, QR1-502

Abstract

ABSTRACT Chikungunya virus (CHIKV) is a reemerging arbovirus capable of causing explosive outbreaks of febrile illness, polyarthritis, and polyarthralgia, inflicting severe morbidity on affected populations. CHIKV can be genetically classified into 3 major lineages: West African (WA); East, Central, and South African (ECSA); Indian Ocean (IOL); and Asian. Additionally, the Indian Ocean (IOL) sublineage emerged within the ECSA clade and the Asian/American sublineage emerged within the Asian clade. While differences in epidemiological and pathological characteristics among outbreaks involving different CHIKV lineages and sublineages have been suggested, few targeted investigations comparing lineage virulence levels have been reported. We compared the virulence levels of CHIKV isolates representing all major lineages and sublineages in the type I interferon receptor-knockout A129 mouse model and found lineage-specific differences in virulence. We also evaluated the cross-protective efficacy of the IOL-derived, live-attenuated vaccine strain CHIKV/IRESv1 against the Asian/American CHIKV isolate YO123223 in both murine and nonhuman primate models, as well as the WA strain SH2830 in a murine model. The CHIKV/IRES vaccine provided protection both in mice and in nonhuman primate cohorts against Caribbean strain challenge and protected mice against WA challenge. Taken together, our data suggest that Asian/American CHIKV strains are less virulent than those in the Asian, ECSA, and WA lineages and that despite differences in virulence, IOL-based vaccine strains offer robust cross-protection against strains from other lineages. Further research is needed to elucidate the genetic basis for variation in CHIKV virulence in the A129 mouse model and to corroborate this variation with human pathogenicity. IMPORTANCE Chikungunya virus (CHIKV) is a reemerging human pathogen capable of causing debilitating and disfiguring polyarthritis, which can last for months to years after initial fever has resolved. There are four major genetic lineages of CHIKV, as well as two recently emerged sublineages, none of which have been evaluated for differences in virulence. Moreover, the ability of chikungunya vaccines to cross-protect against heterologous CHIKV lineages has not been explored. Therefore, we sought to compare the virulence levels among CHIKV lineages, as well as to evaluate the cross-protective efficacy of the CHIKV/IRESv1 vaccine candidate, in two different models of CHIKV infection. Our results suggest that, although significant differences in virulence were observed among CHIKV lineages, the CHIKV/IRESv1 vaccine elicits cross-lineage protective immunity. These findings provide valuable information for predicting the severity of CHIKV-associated morbidity in future outbreaks, as well as vaccine development considerations.

Published

2018

107. Understanding Zika Virus Stability and Developing a Chimeric Vaccine through Functional Analysis

Author

Xuping Xie, Yujiao Yang, Antonio E. Muruato, Jing Zou, Chao Shan, Bruno T. D. Nunes, Daniele B. A. Medeiros, Pedro F. C. Vasconcelos, Scott C. Weaver, Shannan L. Rossi, and Pei-Yong Shi

Subjects

Microbiology, QR1-502

Abstract

ABSTRACT Compared with other flaviviruses, Zika virus (ZIKV) is uniquely associated with congenital diseases in pregnant women. One recent study reported that (i) ZIKV has higher thermostability than dengue virus (DENV [a flavivirus closely related to ZIKV]), which might contribute to the disease outcome; (ii) the higher thermostability of ZIKV could arise from an extended loop structure in domain III of the viral envelope (E) protein and an extra hydrogen-bond interaction between E molecules (V. A. Kostyuchenko, E. X. Y. Lim, S. Zhang, G. Fibriansah, T.-S. Ng, J. S. G. Ooi, J. Shi, and S.-M. Lok, Nature 533:425–428, 2016, https://doi.org/10.1038/nature17994 ). Here we report the functional analysis of the structural information in the context of complete ZIKV and DENV-2 virions. Swapping the prM-E genes between ZIKV and DENV-2 switched the thermostability of the chimeric viruses, identifying the prM-E proteins as the major determinants for virion thermostability. Shortening the extended loop of the E protein by 1 amino acid was lethal for ZIKV assembly/release. Mutations (Q350I and T351V) that abolished the extra hydrogen-bond interaction between the E proteins did not reduce ZIKV thermostability, indicating that the extra interaction does not increase the thermostability. Interestingly, mutant T351V was attenuated in A129 mice defective in type I interferon receptors, even though the virus retained the wild-type thermostability. Furthermore, we found that a chimeric ZIKV with the DENV-2 prM-E and a chimeric DENV-2 with the ZIKV prM-E were highly attenuated in A129 mice; these chimeric viruses were highly immunogenic and protective against DENV-2 and ZIKV challenge, respectively. These results indicate the potential of these chimeric viruses for vaccine development. IMPORTANCE Analysis of a recently observed high-resolution structure of ZIKV led to a hypothesis that its unusual stability may contribute to the associated, unique disease outcomes. Here we performed a functional analysis to demonstrate that viral prM-E genes are the main determinants for the high stability of ZIKV. The extra hydrogen-bond interaction (observed in the high-resolution structure) between ZIKV E proteins did not enhance virion stability, whereas the extended loop of E protein (CD loop in domain III) was essential for ZIKV assembly. More importantly, we found that a chimeric ZIKV with DENV-2 prM-E genes and a chimeric DENV-2 with ZIKV prM-E genes were highly attenuated in A129 mice. Mice immunized with these chimeric viruses generated robust neutralizing antibody responses and were fully protected from DENV-2 and ZIKV challenge, respectively, indicating that these chimeric viruses could be further developed as vaccine candidates.

Published

2017

108. A Single and Un-Adjuvanted Dose of a Chimpanzee Adenovirus-Vectored Vaccine against Chikungunya Virus Fully Protects Mice from Lethal Disease

Author

Rafael Kroon Campos, Lorena Preciado-Llanes, Sasha R. Azar, Cesar Lopez-Camacho, Arturo Reyes-Sandoval, and Shannan L. Rossi

Subjects

vaccine, adenovirus-vectored, chimpanzee adenovirus, chikungunya virus, alphavirus, togaviridae, joint swelling, 181/25, a129 mice, Medicine

Abstract

The mosquito-borne chikungunya virus (CHIKV) has become a major global health problem. Upon infection, chikungunya fever (CHIKF) can result in long-term joint pain and arthritis, and despite intense research, no licensed vaccine for CHIKV is available. We have developed two recombinant chimpanzee adenovirus-vectored vaccines (ChAdOx1) that induce swift and robust anti-CHIKV immune responses with a single dose, without the need for adjuvants or booster vaccines. Here, we report the vaccines’ protective efficacies against CHIKV infection in a lethal A129 mouse model. Our results indicate that a single, un-adjuvanted ChAdOx1 Chik or ChAdOx1 Chik ΔCap dose provided complete protection against a lethal virus challenge and prevented CHIKV-associated severe inflammation. These candidate vaccines supported survival equal to the attenuated 181/25 CHIKV reference vaccine but without the vaccine-related side effects, such as weight loss. Vaccination with either ChAdOx1 Chik or ChAdOx1 Chik ΔCap resulted in high titers of neutralizing antibodies that are associated with protection, indicating that the presence of the capsid within the vaccine construct may not be essential to afford protection under the conditions tested. We conclude that both replication-deficient ChAdOx1 Chik vaccines are safe even when used in A129 mice and afford complete protection from a lethal challenge.

Published

2019

109. Zika Virus Vector Competency of Mosquitoes, Gulf Coast, United States

Author

Charles E. Hart, Christopher M. Roundy, Sasha R. Azar, Jing H. Huang, Ruimei Yun, Erin Reynolds, Grace Leal, Martin R. Nava, Jeremy Vela, Pamela M. Stark, Mustapha Debboun, Shannan L. Rossi, Scott C. Weaver, Saravanan Thangamani, and Nikos Vasilakis

Subjects

Zika, Zika virus, vector, competence, Culex quinquefasciatus, Aedes taeniorhynchus, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Zika virus has recently spread throughout the Americas. Although Aedes aegypti mosquitoes are considered the primary vector, Culex quinquefasciatus and mosquitoes of other species may also be vectors. We tested Cx. quinquefasciatus and Ae. taeniorhynchus mosquitoes from the US Gulf Coast; both were refractory to infection and incapable of transmission.

Published

2017

110. ZIKV Demonstrates Minimal Pathologic Effects and Mosquito Infectivity in Viremic Cynomolgus Macaques

Author

Sasha R. Azar, Shannan L. Rossi, Sherry H. Haller, Ruimei Yun, Jing H. Huang, Jessica A. Plante, Jiehua Zhou, Juan P. Olano, Christopher M. Roundy, Kathryn A. Hanley, Scott C. Weaver, and Nikos Vasilakis

Subjects

Macaca fascicularis, Zika virus, Aedes aegypti, pathogenesis, vector competence, Flaviviridae, Microbiology, QR1-502

Abstract

To evaluate the effects of ZIKV infection on non-human primates (NHPs), as well as to investigate whether these NHPs develop sufficient viremia to infect the major urban vector mosquito, Aedes aegypti, four cynomolgus macaques (Macaca fascicularis) were subcutaneously infected with 5.0 log10 focus-forming units (FFU) of DNA clone-derived ZIKV strain FSS13025 (Asian lineage, Cambodia, 2010). Following infection, the animals were sampled (blood, urine, tears, and saliva), underwent daily health monitoring, and were exposed to Ae. aegypti at specified time points. All four animals developed viremia, which peaked 3⁻4 days post-infection at a maximum value of 6.9 log10 genome copies/mL. No virus was detected in urine, tears, or saliva. Infection by ZIKV caused minimal overt disease: serum biochemistry and CBC values largely fell within the normal ranges, and cytokine elevations were minimal. Strikingly, the minimally colonized population of Ae. aegypti exposed to viremic animals demonstrated a maximum infection rate of 26% during peak viremia, with two of the four macaques failing to infect a single mosquito at any time point. These data indicate that cynomolgus macaques may be an effective model for ZIKV infection of humans and highlights the relative refractoriness of Ae. aegypti for ZIKV infection at the levels of viremia observed.

Published

2018