VTechWorks staff will be away for the Thanksgiving holiday beginning at noon on Wednesday, November 27, through Friday, November 29. We will resume normal operations on Monday, December 2. Thank you for your patience.

Browsing by Author "Yuan, Lijuan"

Now showing 1 - 20 of 62
  • Thumbnail Image
    Cell-free protein synthesis of norovirus virus-like particles
    Sheng, Jiayuan; Lei, Shaohua; Yuan, Lijuan; Feng, Xueyang (Royal Society of Chemistry, 2017-05-25)
    Norovirus vaccine development largely depends on recombinant virus-like-particles (VLPs). Norovirus VLPs have been produced in several cell-based expression systems with long production times. Here we report, for the first time, that norovirus VLPs can be expressed and assembled by using a cell-free protein expression system within four hours.
  • Thumbnail Image
    Characterization of Biomedical and Incidental Nanoparticles in the Lungs and Their Effects on Health
    McDaniel, Dylan K. (Virginia Tech, 2018-11-20)
    Nanomaterials are defined as any material with at least one external dimension less than 100 nm. Recently, nanomaterials have become more common in medicine, technology, and engineering. One reason for their increased interest is due to nanomaterials having unique properties that allow them to interact effectively with biological systems. In terms of drug delivery, the lungs are a highly desirable site to administer therapeutic nanoparticles. Indeed, inflammatory diseases such as asthma and emphysema could potentially benefit from nanoparticle-mediated delivery. However, the lungs are also in constant contact with airborne particulate matter. Thus, harmful nanoparticles can enter the lungs and cause or even exacerbate inflammatory diseases. Our work focused on characterization of both therapeutic and potentially harmful nanoparticles in the lungs. We found that fluorescently-labeled nanoparticles were phagocytosed by macrophages and did not induce apoptosis or inflammation in the lungs, making them potentially useful as a therapeutic for inflammatory diseases. We also characterized a rare form of titanium-based particles called Magnéli phases, which have been shown to be produced via coal burning. We found that while these particles are non-inflammatory in the lungs of mice, they lead to apoptosis of macrophages as well as a change in gene expression associated with increased fibrosis. Ultimately, this was shown to lead to a decrease in lung function parameters and airway hyperresponsiveness, indicating increased lung stiffness after long-term nanoparticle exposure. Our data adds significant contributions to the field by assessing two nanoparticles with vastly different compositions in the lungs. Overall, we found that the unique properties of both particle types allows for interactions with cells and tissues. These interactions can have important outcomes on health, both in terms of disease treatment and exacerbation.
  • Thumbnail Image
    Characterization of Influenza:Streptococcus pneumoniae synergistic disease and potential for disease alleviation via sphingolipid therapy
    Gasser, Amanda Lynn (Virginia Tech, 2013-09-06)
    Influenza A virus (IAV) is generally associated with the seasonal malady that causes brief respiratory illness during the winter months, known simply as "the flu." Most otherwise healthy individuals will suffer from mild fever, congestion, headaches and myalgia that are resolved within 5-7 days of onset. However, there are nearly 500,000 influenza-related deaths that occur world-wide every year. Many of these casualties and patients hospitalized with influenza also test positive for bacterial pneumonia, the most common agent being Streptococcus pneumoniae. Although all individuals are subject to this viral:bacterial synergistic disease, the young, elderly, and immunocompromised are the most susceptible. Previous studies have shown that viral infection creates a prolonged hyper-responsive pro-inflammatory state in the lungs, which increases susceptibility to secondary bacterial infection. Lethality is due to detrimental pulmonary damage from a dysregulated host inflammatory response, known as the "cytokine storm." However, the nature of dual infection has not been well-studied in the elderly demographic. Therefore, we aim to better define this disease synergy in an aged mouse model and explore potential therapeutic alternatives that could be beneficial for the aged and other vulnerable populations. Sphingolipid modulation has emerged as a potential target to ameliorate the excessive inflammation (cytokine storm) elicited by highly pathogenic influenza. There is particular emphasis on sphingosine 1-phosphate (S1P) signaling, as well as control of intracellular S1P levels via sphingosine kinases (SK). Sphingolipids are involved in a multitude of cellular processes, and are tightly regulated by their metabolizing enzymes. We hypothesize that manipulation of sphingolipid signaling and alteration of the internal sphingolipid milieu will diminish the inflammatory response elicited by IAV infection. Using fluorescence-activated cell sorting (FACS), real-time PCR and cytometric bead array (CBA) analysis, we evaluated the immunomodulatory effects of systemic sphingosine analog treatment within the lung microenvironment under homeostatic and influenza-infected conditions. FTY720 treatment caused transient, but significant lymphopenia, influx of neutrophils and efflux of macrophages in the lungs, which was enhanced during a mild influenza infectionGene expression in the lungs was generally unaltered, but protein levels showed increases in specific influenza-induced cytokines, suggesting these treatments may have post-transcriptional effects on cytokine expression. To evaluate sphingolipid modulation in specific pulmonary cell types, we next observed the effects of these compounds and sphingosine kinase (SK) inhibitors in epithelial and alveolar macrophage-like cell lines. SK inhibitors and Enigmol demonstrated anti-viral effects in A549 cells, decreasing viral loads by up to 1.5 logs. Real-time PCR and CBA analysis further demonstrated that these effects were associated with alterations in key cytokine expression, including CCL2, CCL5, CXCL10, IL-6, and IL-8. Collectively, these findings indicate that therapeutic sphingolipid modulation has the potential for creating a protective microenvironment in the lungs that could alleviate or even prevent viral:bacterial synergistic disease.
  • Thumbnail Image
    Combined Live Oral Priming and Intramuscular Boosting Regimen with Rotarix® and a Nanoparticle-Based Trivalent Rotavirus Vaccine Evaluated in Gnotobiotic Pig Models of G4P[6] and G1P[8] Human Rotavirus Infection
    Hensley, Casey; Nyblade, Charlotte; Zhou, Peng; Parreño, Viviana; Ramesh, Ashwin; Frazier, Annie; Frazier, Maggie; Garrison, Sarah; Fantasia-Davis, Ariana; Cai, Ruiqing; Huang, Peng-Wei; Xia, Ming; Tan, Ming; Yuan, Lijuan (MDPI, 2023-05-02)
    Human rotavirus (HRV) is the causative agent of severe dehydrating diarrhea in children under the age of five, resulting in up to 215,000 deaths each year. These deaths almost exclusively occur in low- and middle-income countries where vaccine efficacy is the lowest due to chronic malnutrition, gut dysbiosis, and concurrent enteric viral infection. Parenteral vaccines for HRV are particularly attractive as they avoid many of the concerns associated with currently used live oral vaccines. In this study, a two-dose intramuscular (IM) regimen of the trivalent, nanoparticle-based, nonreplicating HRV vaccine (trivalent S60-VP8*), utilizing the shell (S) domain of the capsid of norovirus as an HRV VP8* antigen display platform, was evaluated for immunogenicity and protective efficacy against P[6] and P[8] HRV using gnotobiotic pig models. A prime–boost strategy using one dose of the oral Rotarix® vaccine, followed by one dose of the IM trivalent nanoparticle vaccine was also evaluated. Both regimens were highly immunogenic in inducing serum virus neutralizing, IgG, and IgA antibodies. The two vaccine regimens failed to confer significant protection against diarrhea; however, the prime–boost regimen significantly shortened the duration of virus shedding in pigs challenged orally with the virulent Wa (G1P[8]) HRV and significantly shortened the mean duration of virus shedding, mean peak titer, and area under the curve of virus shedding after challenge with Arg (G4P[6]) HRV. Prime–boost-vaccinated pigs challenged with P[8] HRV had significantly higher P[8]-specific IgG antibody-secreting cells (ASCs) in the spleen post-challenge. Prime–boost-vaccinated pigs challenged with P[6] HRV had significantly higher numbers of P[6]- and P[8]-specific IgG ASCs in the ileum, as well as significantly higher numbers of P[8]-specific IgA ASCs in the spleen post-challenge. These results suggest the promise of and warrant further investigation into the oral priming and parenteral boosting strategy for future HRV vaccines.
  • Thumbnail Image
    Complete Genome Sequence and Pathogenicity of Two Swine Parainfluenzaviruses Isolated from Pigs in the United States
    Qiao, Dan (Virginia Tech, 2009-05-21)
    Members of the family Paramyxoviridae are non-segmented, negative-strand RNA viruses. A large and diverse host species are infected by paramyxoviruses, including avian, porcine, canine, bovine, equine, ovine, reptiles, aquatic species and humans. In the last few decades, many novel paramyxoviruses have emerged causing catastrophic illnesses in different aquatic and terrestrial species of animals and some of them also made the species jump to humans. Two novel paramyxoviruses 81-19252 (Texas81) and 92-7783 (ISU92) were isolated in the 1980s and 1990s from the brain of pigs that experienced respiratory and central nervous system disease from South and North Central United States. To understand their importance as swine pathogens, molecular characterization and pathogenicity studies were undertaken. The complete genome of Texas81 virus was 15456 nucleotides (nt) and ISU92 was 15480 nt in length consisting of six non-overlapping genes coding for the nucloeo- (N), phospho- (P), matrix (M, fusion (F), hemagglutinin-neuraminidase (HN) and large polymerase (L) proteins in the order 3'-N-P/C/V-M-F-HN-L-5'. The features related to virus replication and found to be conserved in most members of Paramyxoviridae were also found in swine viruses. These include: conserved and complementary 3â leader and 5â trailer regions, trinucleotide intergenic sequences, highly conserved gene start and gene stop signal sequences. The length of each gene of these two viruses was similar except for the F gene, in which ISU92 had an additional 24 nt "U" rich 3â untranslated region (UTR). The P gene of these viruses were predicted to express the P protein from the primary transcript and edit a portion of its mRNA to encode V and D proteins and the C protein was expected to be expressed from alternate translation initiation from the P gene as in Respiroviruses. Sequence specific features related to virus replication and host specific amino acid signatures in P, F, HN and L proteins indicated that these viruses probably originated from bovine parainfluenzavirus 3. Pairwise comparisons of deduced amino acid sequences of swine viral proteins with members of Paramyxoviridae and phylogenetic analysis based on individual genes as well as predicted amino acid sequences suggested that these viruses were novel members of the genus Respirovirus of the Paramyxovirinae subfamily and genotype A of bovine parainfluenzavirus type 3. The mild clinical signs and undetectable gross and microscopic lesions observed in swine parainfluenzavirus (sPIV3)-infected pigs indicate the inapparent nature of these viruses in pigs. Limited seroprevalence studies in serum samples collected from pig farms in Minnesota and Iowa in 2007-2008 by indirect ELISA revealed that sPIV3 are not circulating in these farms. The mild pathogenicity of sPIV3 can facilitate its development as a vaccine vector. The screening ELISA developed by us could be used to detect seroprevalence of sPIV3 in animal and human populations.
  • Thumbnail Image
    Daily Rice Bran Consumption for Six Months Influences Serum Glucagon-Like Peptide-2 And Metabolite Profiles Without Differences in Trace Elements and Heavy Metals in Weaning Nicaraguan Infants At 12 Months of Age
    Zambrana, Luis E.; Weber, Annika; Borresen, Erica C.; Zarei, Iman; Perez, Johann; Perez, Claudia E.; Rodríguez, Iker; Becker-Dreps, Sylvia; Yuan, Lijuan; Vilchez, Samuel; Ryan, Elizabeth P. (Oxford University Press, 2021-09-01)
    Background: Environmental enteric dysfunction (EED) is associated with chronic gut inflammation affecting nutrient absorption and development of children, primarily in low- and middle-income countries. Several studies have shown that rice bran (RB) supplementation provides nutrients and modulates gut inflammation, which may reduce risk for undernutrition. Objective: The aim was to evaluate the effect of daily RB dietary supplementation for 6 mo on serum biomarkers in weaning infants and associated changes in serum and stool metabolites. Methods: A 6-mo randomized-controlled dietary intervention was conducted in a cohort of weaning 6-mo-old infants in León, Nicaragua. Anthropometric indices were obtained at 6, 8, and 12 mo. Serum and stool ionomics and metabolomics were completed at the end of the 6-mo intervention using inductively coupled plasma MS and ultra-high performance LC-tandem MS. The α1-acid glycoprotein, C-reactive protein, and glucagon-like peptide 2 (GLP-2) serum EED biomarkers were measured by ELISA. Results: Twenty-four infants in the control group and 23 in the RB group successfully completed the 6-mo dietary intervention with 90% dietary compliance. RB participants had higher concentrations of GLP-2 as compared with control participants at 12 mo [median (IQR): 743.53 (380.54) pg/mL vs. 592.50 (223.59) pg/mL; P = 0.04]. Metabolite profiles showed significant fold differences of 39 serum metabolites and 44 stool metabolites from infants consuming RB compared with control, and with significant metabolic pathway enrichment scores of 4.7 for the tryptophan metabolic pathway, 5.7 for polyamine metabolism, and 5.7 for the fatty acid/acylcholine metabolic pathway in the RB group. No differences were detected in serum and stool trace elements or heavy metals following daily RB intake for 6 mo. Conclusions: RB consumption influences a suite of metabolites associated with growth promotion and development, while also supporting nutrient absorption as measured by changes in serum GLP-2 in Nicaraguan infants. This clinical trial was registered at https://clinicaltrials.gov as NCT02615886.
  • Thumbnail Image
    Determinants of Rotavirus Polymerase Localization and Activity
    McKell, Allison Overstreet (Virginia Tech, 2017-09-19)
    Rotavirus (RV) is a viral pathogen that causes severe, watery diarrhea and vomiting in the young of humans and other animals. RV infections result in over 200,000 pediatric deaths around the world each year, especially in developing nations. Within the infected host cell, RV forms inclusion bodies, called viroplasms, where many stages of viral replication occur. The RV polymerase, known as VP1, must localize to viroplasms during infection where it replicates the virus' RNA genome. The work described in this dissertation focused on identifying region(s) of VP1 essential for its viroplasmic localization and its function as a polymerase. We found that a single amino acid change in a region of the polymerase called the N-terminal domain negatively impacted its capacity to localize to viroplasms during infection as well as its enzymatic activity in a test tube. Follow up studies using VP1 proteins from divergent strains and a mutant containing only the N-terminal domain of VP1 provided more insight into polymerase localization determinants. In total, our work suggests that the VP1 N-terminal domain plays an important role in localizing the polymerase to viroplasms via interactions with other viral proteins and supporting its function as a polymerase.
  • Thumbnail Image
    Development of Chimeric Hepatitis B (HBV) – Norovirus (NoV) P particle as candidate vaccine against Hepatitis B and norovirus infection
    Giri-Rachman, Ernawati Arifin; Irasonia Tan, Marselina; Ramesh, Ashwin; Fajar, Putri Ayu; Nurul Ilmi, Annisa; Retnoningrum, Debbie Sofie; Hertadi, Rukman; Irawan, Apriliani; Wojciechowska, Gladys Emmanuella Putri; Yuan, Lijuan (Elsevier, 2023-08-01)
    Introduction: Hepatitis B remains a global problem with no effective treatment. Here, a mucosal vaccine candidate was developed with HBsAg and HBcAg, to provide both prophylactic and therapeutic protection against hepatitis B. The antigens were presented using the P particle of human norovirus (HuNov). As a result, the chimeric HBV – HuNoV P particle can act as a dual vaccine for hepatitis B and HuNoV. Methods: The vaccine candidate was expressed and purified from Escherichia coli BL21 (DE3) cells. HBV-HuNoV chimeric P particles were successfully expressed and isolated, with sizes of approximately 25.64 nm. Then, the HBV-HuNoV chimeric P particles were evaluated for safety and immunogenicity in mice and gnotobiotic (Gn) pigs. After three doses (5 µg/dose in mice and 200 µg/dose in Gn pigs) of intranasal immunization, humoral and cellular immune responses, as well as toxicity, were evaluated. Results: The vaccine candidate induced strong HBV-HuNoV specific IFN-γ producing T-cell responses in the ileum, spleen, and blood of Gn pigs. Serum IgG and IgA antibodies against HBV-HuNoV chimeric P particles also increased significantly in Gn pigs. Increased HBsAg- and HuNoV-specific serum IgG responses were observed in mice and Gn pigs, although not statistically significant. The vaccine candidate did not show any toxicity in mice. Conclusions: In summary, the chimeric HBV-HuNoV P particle vaccine given intranasally was safe and induced strong cellular and humoral immune responses in Gn pig. Modifications to the vaccine structure and dosage need to be evaluated in future studies to further enhance immunogenicity and induce more balanced humoral and cellular responses.
  • Thumbnail Image
    Early influences of microbiota on white matter development in germ-free piglets
    Ahmed, Sadia; Travis, Sierrah; Díaz-Bahamonde, Francisca; Porter, Demisha; Henry, Sara; Ravipati, Aditya; Booker, Aryn; Ding, Hanzhang; Ju, Jing; Ramesh, Ashwin; Pickrell, Alicia M.; Wang, Maosen; LaConte, Stephen M.; Howell, Brittany R.; Yuan, Lijuan; Morton, Paul D. (Frontiers, 2021-12-27)
    Abnormalities in the prefrontal cortex (PFC), as well as the underlying white matter (WM) tracts, lie at the intersection of many neurodevelopmental disorders. The influence of microorganisms on brain development has recently been brought into the clinical and research spotlight as alterations in commensal microbiota are implicated in such disorders, including autism spectrum disorders, schizophrenia, depression, and anxiety via the gut-brain axis. In addition, gut dysbiosis is common in preterm birth patients who often display diffuse WM injury and delayed WM maturation in critical tracts including those within the PFC and corpus callosum. Microbial colonization of the gut aligns with ongoing postnatal processes of oligodendrogenesis and the peak of brain myelination in humans; however, the influence of microbiota on gyral WM development remains elusive. Here, we develop and validate a neonatal germ-free swine model to address these issues, as piglets share key similarities in WM volume, developmental trajectories, and distribution to humans. We find significant region-specific reductions, and sexually dimorphic trends, in WM volume, oligodendrogenesis, and mature oligodendrocyte numbers in germ-free piglets during a key postnatal epoch of myelination. Our findings indicate that microbiota plays a critical role in promoting WM development during early life when the brain is vulnerable to environmental insults that can result in an array of disabilities manifesting later in life.
  • Thumbnail Image
    Enterobacter cloacae inhibits human norovirus infectivity in gnotobiotic pigs
    Lei, Shaohua; Samuel, Helen; Twitchell, Erica; Bui, Tammy; Ramesh, Ashwin; Wen, Ke; Weiss, Mariah; Li, Guohua; Yang, Xingdong; Jiang, Xi; Yuan, Lijuan (2016-04-26)
    Human noroviruses (HuNoVs) are the leading cause of epidemic gastroenteritis worldwide. Study of HuNoV biology has been hampered by the lack of an efficient cell culture system. Recently, enteric commensal bacteria Enterobacter cloacae has been recognized as a helper in HuNoV infection of B cells in vitro. To test the influences of E. cloacae on HuNoV infectivity and to determine whether HuNoV infects B cells in vivo, we colonized gnotobiotic pigs with E. cloacae and inoculated pigs with 2.74 × 10(4) genome copies of HuNoV. Compared to control pigs, reduced HuNoV shedding was observed in E. cloacae colonized pigs, characterized by significantly shorter duration of shedding in post-inoculation day 10 subgroup and lower cumulative shedding and peak shedding in individual pigs. Colonization of E. cloacae also reduced HuNoV titers in intestinal tissues and in blood. In both control and E. cloacae colonized pigs, HuNoV infection of enterocytes was confirmed, however infection of B cells was not observed in ileum, and the entire lamina propria in sections of duodenum, jejunum, and ileum were HuNoV-negative. In summary, E. cloacae inhibited HuNoV infectivity, and B cells were not a target cell type for HuNoV in gnotobiotic pigs, with or without E. cloacae colonization.
  • Thumbnail Image
    Establishment of a gnotobiotic pig model of Clostridioides difficile infection and disease
    Nyblade, Charlotte; Parreno, Viviana; Zhou, Peng; Hensley, Casey; Oakes, Vanessa; Mahsoub, Hassan M.; Kiley, Kelsey; Frazier, Maggie; Frazier, Annie; Zhang, Yongrong; Feng, Hanping; Yuan, Lijuan (2022-06-06)
    Clostridioides difficile (C. difficile) is a gram-positive, spore-forming, anaerobic bacterium known to be the most common cause of hospital-acquired and antibiotic-associated diarrhea. C. difficile infection rates are on the rise worldwide and treatment options are limited, indicating a clear need for novel therapeutics. Gnotobiotic piglets are an excellent model to reproduce the acute pseudomembranous colitis (PMC) caused by C. difficile due to their physiological similarities to humans and high susceptibility to infection. Here, we established a gnotobiotic pig model of C. difficile infection and disease using a hypervirulent strain. C. difficile-infected pigs displayed classic signs of C. difficile infection, including severe diarrhea and weight loss. Inoculated pigs had severe gross and microscopic intestinal lesions. C. difficile infection caused an increase in pro-inflammatory cytokines in samples of serum, large intestinal contents, and pleural effusion. C. difficile spores and toxins were detected in the feces of inoculated animals as tested by anaerobic culture and cytotoxicity assays. Successful establishment of this model is key for future work as therapeutics can be evaluated in an environment that accurately mimics what happens in humans. The model is especially suitable for evaluating potential prophylactics and therapeutics, including vaccines and passive immune strategies.
  • Thumbnail Image
    Evaluation of the 50% Infectious Dose of Human Norovirus Cin-2 in Gnotobiotic Pigs: A Comparison of Classical and Contemporary Methods for Endpoint Estimation
    Ramesh, Ashwin; Parreño, Viviana; Schmidt, Philip J.; Lei, Shaohua; Zhong, Weiming; Jiang, Xi; Emelko, Monica B.; Yuan, Lijuan (MDPI, 2020-08-28)
    Human noroviruses (HuNoVs) are the leading causative agents of epidemic and sporadic acute gastroenteritis that affect people of all ages worldwide. However, very few dose–response studies have been carried out to determine the median infectious dose of HuNoVs. In this study, we evaluated the median infectious dose (ID50) and diarrhea dose (DD50) of the GII.4/2003 variant of HuNoV (Cin-2) in the gnotobiotic pig model of HuNoV infection and disease. Using various mathematical approaches (Reed–Muench, Dragstedt–Behrens, Spearman–Karber, exponential, approximate beta-Poisson dose–response models, and area under the curve methods), we estimated the ID50 and DD50 to be between 2400–3400 RNA copies, and 21,000–38,000 RNA copies, respectively. Contemporary dose–response models offer greater flexibility and accuracy in estimating ID50. In contrast to classical methods of endpoint estimation, dose–response modelling allows seamless analyses of data that may include inconsistent dilution factors between doses or numbers of subjects per dose group, or small numbers of subjects. Although this investigation is consistent with state-of-the-art ID50 determinations and offers an advancement in clinical data analysis, it is important to underscore that such analyses remain confounded by pathogen aggregation. Regardless, challenging virus strain ID50 determination is crucial for identifying the true infectiousness of HuNoVs and for the accurate evaluation of protective efficacies in pre-clinical studies of therapeutics, vaccines and other prophylactics using this reliable animal model.
  • Thumbnail Image
    Evaluation of the novel P particle vaccine candidate against human norovirus using the gnotobiotic pig challenge model
    Kocher, Jacob (Virginia Tech, 2014-12-10)
    Noroviruses (NoVs) are a cause of nonbacterial acute gastroenteritis affecting all ages. NoV infections result in over 200,000 pediatric deaths in developing countries annually. Vaccine development has been hindered by the lack of cell culture systems and small animal models; thus, vaccine development has relied upon recombinant VP1 capsid proteins, such as virus-like particles (VLPs) and P particles. P particles are a novel vaccine candidate derived from expression of the VP1 protruding (P) domain, while VLPs require expression of the full-length VP1. My studies utilize a gnotobiotic (Gn) pig model of human NoV infection and diarrhea to evaluate the protective efficacy and T cell responses induced by P particles and to compare them with prior NoV infection (NoVPO) and VLPs. Gn pigs received 100 µg of P particles (LoPP) or VLPs, 250 µg P particles (HiPP), or adjuvants only intranasally at post-inoculation day (PID) 0, 10, and 21. Monophosphoryl lipid A and chitosan were used as mucosal adjuvants. At PID 28, a subset of pigs were orally challenged with 10 median infectious doses (ID50) NoV. NoVPO, LoPP, HiPP, and VLPs provided partial protection from diarrhea (83%, 47%, 60%, and 60% protection rates, respectively). Only NoVPO and HiPP provided protection from shedding (49% and 60% protection rates, respectively) and also reduced the number of CD25- regulatory T cells (Tregs) in duodenum following challenge. NoV primary infection induced an overall pro-Treg and low, transient Th1 response. LoPP induced stronger overall T cell responses compared to VLPs, including activated CD4+ T cells and duodenal CD8+IFN-γ+ T cells, suggesting that P particles are more immunogenic than VLPs. I also evaluated the effects of simvastatin, a cholesterol-reducing drug that increases NoV infectivity, on P particle vaccine efficacy. Simvastatin abolished P particle-induced protection and significantly increased diarrhea severity. Simvastatin reduced total numbers of duodenal mononuclear cells, IFN-γ+ T cells pre-challenge, and Tregs post-challenge, indicating that simvastatin impairs development of immune system and immune responses. Findings from these studies elucidate potential mechanisms behind P particle-induced immunity and reveal the negative effects of simvastatin on NoV-induced protective immunity. The knowledge will facilitate the development of effective NoV vaccines.
  • Thumbnail Image
    Feasibility of Polyclonal Avian Immunoglobulins (IgY) as Prophylaxis against Human Norovirus Infection
    Artman, Chad; Idegwu, Nnebuefe; Brumfield, Kyle D.; Lai, Ken; Hauta, Shirley; Falzarano, Darryl; Parreño, Viviana; Yuan, Lijuan; Geyer, James D.; Goepp, Julius G. (MDPI, 2022-10-27)
    Background: Human norovirus (HuNoV) is the leading viral cause of diarrhea, with GII.4 as the predominant genotype of HuNoV outbreaks globally. However, new genogroup variants emerge periodically, complicating the development of anti-HuNoV vaccines; other prophylactic or therapeutic medications specifically for HuNoV disease are lacking. Passive immunization using oral anti-HuNoV antibodies may be a rational alternative. Here, we explore the feasibility of using avian immunoglobulins (IgY) for preventing HuNoV infection in vitro in a human intestinal enteroid (HIE) model. Methods: Hens were immunized with virus-like particles (VLP) of a GII.4 HuNoV strain (GII.4/CHDC2094/1974/US) by intramuscular injection. The resulting IgY was evaluated for inhibition of binding to histo-blood group antigens (HBGA) and viral neutralization against representative GII.4 and GII.6 clinical isolates, using an HIE model. Results: IgY titers were detected by three weeks following initial immunization, persisting at levels of 1:221 (1:2,097,152) from 9 weeks to 23 weeks. Anti-HuNoV IgY significantly (p < 0.05) blocked VLP adhesion to HBGA up to 1:12,048 dilution (0.005 mg/mL), and significantly (p < 0.05) inhibited replication of HuNoV GII.4[P16] Sydney 2012 in HIEs up to 1:128 dilution (0.08 mg/mL). Neutralization was not detected against genotype GII.6. Conclusions: We demonstrate the feasibility of IgY for preventing infection of HIE by HuNoV GII.4. Clinical preparations should cover multiple circulating HuNoV genotypes for comprehensive effects. Plans for animal studies are underway.
  • Thumbnail Image
    A framework for understanding heterogeneous differentiation of CD4⁺ T cells
    Hong, Tian (Virginia Tech, 2013-08-05)
    CD4+ T cells are a group of lymphocytes that play critical roles in the immune system. By releasing cytokines, CD4+ T cells regulate other immune cells for maximizing the efficiency of the system. Naive CD4+ T cells are activated and become mature upon engagement with antigens, and the mature CD4+ T cells have several subsets, which play diverse regulatory functions. For the past two decades, our understanding of CD4+ T cells has been advanced through the studies on the differentiation process and the lineage specification of various subsets of these cells. Although in most experimental studies of CD4+ T cells, researchers focused on how transcription factors and signaling molecules influence the differentiation of a particular subset of these cells, many evidence have shown that the differentiation of CD4+ T cells can be heterogeneous in terms of the phenotypes of the cells involved. This dissertation describes a framework that uses mathematical models of the dynamics of the signaling pathways to explain heterogeneous differentiation. We show that the mutual inhibitions among the master regulators govern the formation of multi-stability behavior, which in turn gives rise to heterogeneous differentiation. The framework can be applied to systems with two or more master regulators, and models based on the framework can make specific predictions about heterogeneous differentiations. In addition, this dissertation describes an experimental study on CD4+ T cell differentiation. Being part of the adaptive immune system, the differentiation of CD4+ T cells was previously known to be induced by the signals from the innate immune cells. However, the expression of Toll-like receptor in CD4+ T cells suggests that microbial products can also influence the differentiation directly. Using an in vitro cell differentiation approach, we show that the differentiation and proliferation of CD4+ T cells can be influenced by lipopolysaccharide under the condition that would favor the differentiation of induced regulatory T cells. These theoretical and experimental studies give novel insights on how CD4+ T cells differentiate in response to pathogenic challenges, and help to gain deeper understanding of regulatory mechanisms of the complex immune system.
  • Thumbnail Image
    Gnotobiotic Pig Models for the Study of Enteric Pathogen Replication and Pathogenesis
    Nyblade, Charlotte June (Virginia Tech, 2024-10-09)
    Clostridioides difficile (C. difficile) and human rotavirus (HRV) are leading causes of bacterial and viral gastroenteritis worldwide. Treatment and vaccination options for both pathogens have significant limitations. C. difficile infections are treated with antibiotics, which is paradoxical as C. difficile itself is associated with antibiotic usage. In the United States, two live oral attenuated vaccines (Rotarix and RotaTeq) are licensed for protection against HRV. Since receiving approval from the World Health Organization (WHO), Rotarix and RotaTeq have been widely implemented into global national childhood immunization schedules, with one report finding 59 countries using Rotarix and 25 using RotaTeq. However, these vaccines have much lower efficacy rates in low- and middle-income countries. Because of these caveats, there is an urgent need to generate novel prophylaxes and treatments for C. difficile and HRV. In order to address this need, animal models that replicate the nuances of each infection are imperative. We have developed gnotobiotic (Gn) pig models for each pathogen. Gn pigs infected with spores of the hypervirulent UK1 strain of C. difficile develop classical signs of infection, including watery diarrhea and weight loss. Gross necropsy reveals colonic distention and discoloration, and histopathological evaluation shows volcano lesions, pseudo membrane formation, and epithelial cell erosion. Gn pigs infected with a G4P[6] strain of HRV also display pathogen specific signs of infection, including diarrhea, fecal rotavirus shedding, and damaged intestinal villi. A dose response study of the G4P[6] strain revealed diarrhea and virus shedding occurred at all tested doses, however the most severe diarrhea and virus shedding, measured by cumulative diarrhea score, area under the curve (AUC) of diarrhea, peak virus titer, and AUC of virus shedding, were all detected in the highest dose group. Based on the presentation of clinical signs of infection, 105 fluorescent focus units was selected as the optimal challenge dose for future studies. These models enable us to test candidate therapeutics, but also elucidate unique replicative features of the pathogens. For example, we found that HRV can replicate in the salivary glands and nasal cavity of Gn pigs in addition to the small intestine. HRV infection primed immune responses in the ileum, tonsils, and facial lymph nodes; infection also induced high levels of systemic and mucosal rotavirus specific antibody responses. Moving forward, we hope to expand upon this replication study to identify what cell types within the glands are infected as well as look at local cellular immune responses to HRV infection. Additional future directions include determining the protective efficacy of next generation HRV vaccines and evaluating effectiveness of an engineered probiotic yeast in reducing severity of C. difficile infection and disease. The Gn pig models of C. difficile and G4P[6] HRV are clinically relevant, and they will continue to serve as useful tools to better our understanding of pathogenesis, infection, and prevention of these pathogens.
  • Thumbnail Image
  • Thumbnail Image
    High Protective Efficacy of Probiotics and Rice Bran against Human Norovirus Infection and Diarrhea in Gnotobiotic Pigs
    Lei, Shaohua; Ramesh, Ashwin; Twitchell, Erica; Wen, Ke; Bui, Tammy; Weiss, Mariah; Yang, Xingdong; Kocher, Jacob; Li, Guohua; Giri-Rachman, Ernawati; Trang, Nguyen Van; Jiang, Xi; Ryan, Elizabeth P.; Yuan, Lijuan (2016)
    Probiotics have been recognized as vaccine adjuvants and therapeutic agents to treat acute gastroenteritis in children. We previously showed that rice bran (RB) reduced human rotavirus diarrhea in gnotobiotic pigs. Human noroviruses (HuNoVs) are the major pathogens causing non-bacterial acute gastroenteritis worldwide. In this study, Lactobacillus rhamnosus GG (LGG) and Escherichia coli Nissle 1917 (EcN) were first screened for their ability to bind HuNoV P particles and virions derived from clinical samples containing HuNoV genotype GII.3 and GII.4, then the effects of LGG+EcN and RB on HuNoV infection and diarrhea were investigated using the gnotobiotic pig model. While LGG+EcN colonization inhibited HuNoV shedding, probiotic cocktail regimens in which RB feeding started 7 days prior to or 1 day after viral inoculation in the LGG+EcN colonized gnotobiotic pigs exhibited high protection against HuNoV diarrhea and shedding, characterized by significantly reduced incidence (89 versus 20%) and shorter mean duration of diarrhea (2.2 versus 0.2 days), as well as shorter mean duration of virus shedding (3.2 versus 1.0 days). In both probiotic cocktail groups, the diarrhea reduction rates were 78% compared with the control group, and diarrhea severity was reduced as demonstrated by the significantly lower cumulative fecal scores. The high protective efficacy of the probiotic cocktail regimens was attributed to stimulation of IFN-γ(+) T cell responses, increased production of intestinal IgA and IgG, and maintenance of healthy intestinal morphology (manifested as longer villi compared with the control group). Therefore, probiotic cocktail regimens containing LGG+EcN and RB may represent highly efficacious strategies to prevent and treat HuNoV gastroenteritis, and potentially other human enteric pathogens.
  • Thumbnail Image
    High protective efficacy of rice bran against human rotavirus diarrhea via enhancing probiotic growth, gut barrier function, and innate immunity
    Yang, Xingdong; Twitchell, Erica; Li, Guohua; Wen, Ke; Weiss, Mariah; Kocher, Jacob; Lei, Shaohua; Ramesh, Ashwin; Ryan, Elizabeth P.; Yuan, Lijuan (Nature Publishing Group, 2015-10-13)
    Previously, we showed that rice bran (RB) was able to reduce human rotavirus (HRV) diarrhea in gnotobiotic pigs. Here, we investigated its effect on the growth of diarrhea-reducing probiotic Lactobacillus rhamnosus GG (LGG) and Escherichia coli Nissle (EcN), and the resulting effects on HRV diarrhea, gut epithelial health, permeability and innate immune responses during virulent HRV challenge. On 3, 5, and 7 days of age pigs were inoculated with 2 × 104 colony-formingunits LGG+EcN to initiate colonization. Daily RB supplementation (replacing 10% calorie intake) was started at 5 days of age and continued until euthanasia. A subset of pigs in each group was challenged orally with 105 focus-forming-units of virulent HRV at 33 days of age. RB completely prevented HRV diarrhea in LGG+EcN colonized pigs. RB significantly promoted the growth of both probiotic strains in the gut (~5 logs) and increased the body-weight-gain at 4–5 weeks of age compared to non-RB group. After HRV challenge, RB-fed pigs had significantly lower ileal mitotic index and villus width, and significantly increased intestinal IFN-γ and total IgA levels compared to non-RB group. Therefore, RB plus LGG+EcN colonization may represent a highly effective therapeutic approach against HRV and potentially a variety of other diarrhea-inducing enteric pathogens.
  • Thumbnail Image
    Human norovirus animal model essential for vaccine development
    Yuan, Lijuan; Parreño, Viviana; Ramesh, Ashwin (Research Features, 2021-12-29)
    Human noroviruses are the most common cause of acute gastroenteritis and represent an incredibly high burden on the healthcare sector. Currently no vaccines or drugs exist to prevent or treat the disease. This is in part due to a lack of animal models. Here, Dr Lijuan Yuan and the team at Virginia Polytechnic Institute and State University developed and validated gnotobiotic pigs as an animal model for the human norovirus GII.4/2003 Cin-2. Determining dose-response relationships as well as the median infectious dose, by using different statistical approaches for this virus, means we are one step closer on the path to vaccine development.