Browsing by Author "Witonsky, Sharon G."

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    The ability of TLR agonists to upregulate Brucella abortus strain RB51 mediated protection in a murine respiratory model
    Walker, Michelle Kay (Virginia Tech, 2014-01-23)
    Brucella abortus is amongst the top 5 zoonotic diseases worldwide. The overall goal of this research is to generate a safe and effective vaccine for humans. Brucella abortus strain RB51, approved for use in cattle, provides protection by initiating a strong T-helper 1 (Th1) type response is a candidate vaccine. Based on a model for aerosol exposure mice were vaccinated intranasally (IN) with strain RB51 and challenged IN with B. abortus strain 2308, strain RB51 did not protect. Protection against Brucella is mediated through TLRs 2, 4 and 9. The addition of TLR 2 or TLR 4 and a trend with TLR9 agonists with intranasal RB51 vaccination significantly increased bacterial clearance in the lung after strain 2308 challenge. Therefore, we hypothesized that combining TLR agonists 2, 4, and 9 with strain RB51 IN would upregulate protection and clearance in the lung against strain 2308 challenge (IN), by upregulating the DC1 and CD4 Th1 and CD8 immune response. This study showed that protection is not upregulated by combining all TLR agonists. Overall the addition of TLR 2 and 4 vs. TLR 2, 4 and 9 agonists affects the immune response and impacts the level of clearance. Our data support the development of a DC1 Th1 CD8 response, based on serology, and both DC and T-cell activation and function by the group which received the TLR 2 and 4 agonists and to a lesser degree the group receiving TLR 2, 4, and 9 agonists. Additional studies are warranted to further define the differential mechanisms and endpoints of protection.
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    Bovine Coccidiosis: Dynamics of infection in grazing cattle and the potential role of stress and immunity
    Lucas, Aaron Scott (Virginia Tech, 2011-08-02)
    Eimerian parasites infect cattle worldwide. Information on the infection dynamics of these parasites is lacking in the central Appalachian region of the United States. Studies aimed at characterizing the seasonal dynamics of eimerian parasites in this region were carried out in order to assess the impact of these organisms in grazing systems. In these studies the prevalence of Eimeria spp. infection was highest in calves less than one year of age and subsequently decreased to stable levels in older animals. Although E. bovis was the most common species identified in calves, heifers and cows, mixed species infections dominated. Additional studies were carried out to investigate the effect of stress on Eimeria spp. infection in beef calves. Lower stress, two-stage, weaning methods had no effect on Eimeria spp. infection dynamics in beef calves. These findings must be interpreted in light of the fact that calves used in this study were not managed in a way typical of many calves in the U.S.A. The fact that they were only transported short distances, never commingled, or exposed to a livestock market may explain why a rise in post weaning FOC was not observed. A model of stress- induced coccidiosis was developed using dexamethasone and E. bovis challenge. In this model, an oral challenge of at least 500,000 sporulated E. bovis oocysts in addition to dexamethasone injection at 7 days post challenge increased subsequent FOC. Further investigation of the immune response to E. bovis challenge during times of stress indicates that stress-induced suppression of cell mediated immunity and E. bovis challenge are required to increase subsequent oocyst shedding. These findings may represent the mechanism associated with stress-induced outbreaks of coccidiosis reported to occur in beef cattle in the United States.
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    Can levamisole upregulate the equine cell mediated immune response in vitro?
    Santonastaso, Amy Marie (Virginia Tech, 2016-07-19)
    Equine Protozoal Myeloencephalitis (EPM) is arguably the most common and costly equine neurologic diseases nationwide. The national seroprevalence is >50%, but only 0.5-1% of all horses develops disease during their lifetimes. Some EPM affected horses have decreased immune response. A cell-mediated immune response has been shown to be protective for development of EPM after infection with Sarcocystis neurona in mouse models. Levamisole has been proposed as an adjunctive therapy for EPM to upregulate the cell-mediated immune response based on positive results in other species, but there are very limited studies in equids. We hypothesized that levamisole will upregulate the equine cell-mediated macrophage (M1) dendritic cell (DC1) CD4 T-helper 1 (Th1) CD8 Tc1 immune response in vitro. The first aim was to determine optimal conditions and effects of levamisole on cellular proliferation. Equine PBMCs were harvested from ten horses seronegative for S. neurona. The cells were cultured alone, or with one of the mitogens: concanavalin A (ConA) or phorbol 12-myristate 13-acetate and ionomycin (PMA/I), or with a combination of the above mitogens and levamisole at several conditions. Cellular proliferation was assessed using a colorimetric bromodeoxyuridine ELISA assay. The second aim was to determine the ability of levamisole, under optimized conditions, to upregulate the M1 DC1 CD4Th1 CD8 Tc1 response in vitro based on activation and function. PBMCs from the same 10 horses were cultured with each of the following: no stimulation, conA, and levamisole with and without ConA. To determine proliferation of each specific subset, cells were labeled with a fluorescent dye, CellTrace. Proliferation was determined based on dye dilution using flow cytometry. To determine the effects of levamisole on the specific immune response, cell subsets were labeled with fluorescent antibodies for cell surface markers (CD4, CD8, CD21, CD172a, CD14) and dendritic and macrophage activations markers (MHC Class II, CD86). Induction of T-regs was based on FoxP3 expression. Immune phenotypes were determined based on intracellular cytokine expression (IFNɣ, IL4, IL10). Study results indicate that levamisole alone did not significantly alter PBMC proliferation compared to the response of unstimulated cells. Cells cultured with either ConA or PMA/I resulted in a statistically significant increase (P<0.05) in proliferation compared to unstimulated cells. Cells cultured with ConA and levamisole at 1µg/mL resulted in a significant decrease (P<0.05) in proliferation compared with cells cultured with ConA alone. Flow cytometry data failed to elucidate the specific immune phenotype that is affected by levamisole. Subjectively, there appeared to be a trend for inceased IFNɣ production by CD14 and CD172a positive cells (macrophages and dendritic cells) and a decrease in IFNɣ production by CD4 and CD8 positive cells (T-lymphocytes). These results demonstrate that levamisole downregulates ConA stimulated PBMC proliferation. Based on these in vitro results, further studies to determine the effectiveness of levamisole on modulating the equine immune system in vivo and to more specifically evaluate the immune cell subets affected by levamisole are warranted.
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    Can levamisole upregulate the equine cell-mediated macrophage (M1) dendritic cell (DC1) T-helper 1 (CD4 Th1) T-cytotoxic (CD8) immune response in vitro?
    Witonsky, Sharon G.; Buechner-Maxwell, Virginia A.; Santonastasto, Amy; Pleasant, R. Scott; Werre, Stephen R.; Wagner, Bettina; Ellison, Siobhan; Lindsay, David S. (Wiley, 2019-03-01)
    Background: Equine protozoal myeloencephalitis (EPM) is a common and devastating neurologic disease of horses in the United States. Because some EPM-affected horses have decreased immune responses, immunomodulators such as levamisole have been proposed as supplemental treatments. However, little is known about levamisole's effects or its mechanism of action in horses. Objective: Levamisole in combination with another mitogen will stimulate a macrophage 1 (M1), dendritic cell 1 (DC1), T-helper 1 (CD4 Th1), and T-cytotoxic (CD8) immune response in equine peripheral blood mononuclear cells (PBMCs) in vitro as compared to mitogen alone. Animals: Ten neurologically normal adult horses serologically negative for Sarcocystis neurona. Methods: Prospective study. Optimal conditions for levamisole were determined based on cellular proliferation. Peripheral blood mononuclear cells were then cultured using optimal conditions of mitogen and levamisole to identify the immune phenotype, based on subset-specific activation markers, intracellular cytokine production, and cytokine concentrations in cell supernatants. Subset-specific proliferation was determined using a vital stain. Results: Concanavalin A (conA) with levamisole, but not levamisole alone, resulted in a significant decrease (P <.05) in PBMC proliferation compared to conA alone. Levamisole alone did not elicit a specific immune phenotype different than that induced by conA. Conclusion and Clinical Importance: Levamisole co-cultured with conA significantly attenuated the PBMC proliferative response as compared with conA. If the mechanisms by which levamisole modulates the immune phenotype can be further defined, levamisole may have potential use in the treatment of inflammatory diseases.
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    Characterization of basal and lipopolysaccharide-induced microRNA expression in equine peripheral blood mononuclear cells using Next-Generation Sequencing
    Parkinson, Nicholas J.; Buechner-Maxwell, Virginia A.; Witonsky, Sharon G.; Pleasant, R. Scott; Werre, Stephen R.; Ahmed, Sattar Ansar (PLOS, 2017-05-26)
    The innate immune response to lipopolysaccharide contributes substantially to the morbidity and mortality of gram-negative sepsis. Horses and humans share an exquisite sensitivity to lipopolysaccharide and thus the horse may provide valuable comparative insights into this aspect of the inflammatory response. MicroRNAs, small non-coding RNA molecules acting as post-transcriptional regulators of gene expression, have key roles in toll-like receptor signaling regulation but have not been studied in this context in horses. The central hypothesis of this study was that lipopolysaccharide induces differential microRNA expression in equine peripheral blood mononuclear cells in a manner comparable to humans. Illumina Next Generation Sequencing was used to characterize the basal microRNA transcriptome in isolated peripheral blood mononuclear cells from healthy adult horses, and to evaluate LPS-induced changes in microRNA expression in cells cultured for up to four hours. Selected expression changes were validated using quantitative reverse-transcriptase PCR. Only miR-155 was significantly upregulated by LPS, changing in parallel with supernatant tumor necrosis factor-α concentration. Eight additional microRNAs, including miR-146a and miR-146b, showed significant expression change with time in culture without a clear LPS effect. Target predictions indicated a number of potential immunity-associated targets for miR-155 in the horse, including SOCS1, TAB2 and elements of the PI3K signaling pathway, suggesting that it is likely to influence the acute inflammatory response to LPS. Gene alignment showed extensive conservation of the miR-155 precursor gene and associated promoter regions between horses and humans. The basal and LPS-stimulated microRNA expression pattern characterized here were similar to those described in human leukocytes. As well as providing a resource for further research into the roles of microRNAs in immune responses in horses, this will facilitate inter-species comparative study of the role of microRNAs in the inflammatory cascade during endotoxemia and sepsis.
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    Characterization of Outer Membrane Vesicles from Brucella melitensis and Protection Induced in Mice
    Avila-Calderon, Eric Daniel; Lopez-Merino, Ahidé; Jain, Neeta; Peralta, Humberto; Lopez-Villegas, Edgar Oliver; Sriranganathan, Nammalwar; Boyle, Stephen M.; Witonsky, Sharon G.; Contreras-Rodriguez, Araceli (Hindawi Publishing Corp, 2011-12-29)
    The outer membrane vesicles (OMVs) from smooth B. melitensis 16 M and a derived rough mutant, VTRM1 strain, were purified and characterized with respect to protein content and induction of immune responses in mice. Proteomic analysis showed 29 proteins present in OMVs from B. melitensis 16 M; some of them are well-known Brucella immunogens such as SOD, GroES, Omp31, Omp25, Omp19, bp26, and Omp16. OMVs from a rough VTRM1 induced significantly higher expression of IL-12, TNFa, and IFN? genes in bone marrow dendritic cells than OMVs from smooth strain 16 M. Relative to saline control group, mice immunized intramuscularly with rough and smooth OMVs were protected from challenge with virulent strain B. melitensis 16 M just as well as the group immunized with live strain B. melitensis Rev1 (P < 0.005). Additionally, the levels of serum IgG2a increased in mice vaccinated with OMVs from rough strain VTRM1 consistent with the induction of cell-mediated immunity.
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    Characterization of the Capsular Polysaccharide of Haemophilus parasuis and its Application in the Diagnosis and Prevention of Glasser's Disease
    Hyman, Anne Catherine Michalenka (Virginia Tech, 2015-04-20)
    Haemophilus parasuis is a Gram-negative bacterium responsible for Glasser's Disease in pigs, though little is known regarding its antigenic or virulence factors. Our goals were to characterize the H. parasuis capsular polysaccharide (CP), determine its role in serotype-specificity and virulence, determine if CP is immunogenic, and develop diagnostic and protective products to prevent rampant H. parasuis infection within swine herds. Material from H. parasuis was purified using carbohydrate isolation techniques and compared to CPs from other Pasteurellaceae. Rabbits were immunized with CPs to generate antisera for microscopy, immunoassays, and bactericidal assays. CP antisera were conjugated to latex particles to create an agglutination assay for detection and typing of H. parasuis. CP was conjugated to Cholera Toxin B, and used to immunize mice and piglets before challenge with H. parasuis to determine its protective efficacy against Glasser's Disease. Broth-grown cells expressed CP, which reacted with antisera in microscopy and immunoassays. Broth-grown H. parasuis cells were serum-resistant unless homologous anti-CP serum was present. In contrast, agar-grown cells did not react with antisera in immunoassays, and cells were susceptible to killing by normal swine serum. CP was not expressed on the surface of agar-grown cells unless supplemented with bicarbonate. The addition of bicarbonate also contributed to the variability in CP quantity and upregulation of genes in the CP locus. Sensitized latex particles agglutinated strongest with homologous H. parasuis CPs, cells, and agar-grown cell lysates, but also reacted weakly with higher concentrations of heterologous CPs. The latex beads did not agglutinate with non-H. parasuis swine bacterial pathogens. Mice immunized with the CP-CTB conjugate produced a significantly higher IgG2/Th2 response than unimmunized mice or mice immunized with only CP, and immunized mice had fewer bacteria in their tissues that unimmunized mice. The CP conjugate produced a robust IgG antibody response to CP when used to immunized piglets, but because the control animals also survived H. parasuis challenge, the protective efficacy remains inconclusive. Therefore, the H. parasuis CP is the antigen that confers serotype identity, and can be implemented in methods and help direct future research in disease prevention and serotype tracking in H. parasuis infections.
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    Comparative efficacy of three common treatments for equine recurrent airway obstruction
    Lee, Laura Caryn (Virginia Tech, 2009-04-17)
    Objective - evaluate horses with acute airway obstruction using three treatment regimens: tapering doses of dexamethasone (DEX), environmental modification (ENV), and a combination of both treatments (DEX + ENV) by analyzing clinical parameters, pulmonary function testing, bronchoalveolar lavage fluid (BALF) cytology and BALF cell expression of the cytokines IFN-? and IL-4 Animals - 6 horses with recurrent airway obstruction (RAO) Procedures - Clinical examination, pulmonary function test, and collection of BALF prior to treatment and during 22 day treatment period Hypothesis - Alterations in clinical parameters, pulmonary function and airway inflammation in acute equine RAO will return to remission values by treating with DEX, ENV or DEX + ENV Results - All horses demonstrated clinical disease, reduced pulmonary dynamic compliance (Cdyn) and an increased maximum change in pleural pressures (?Pplmax) when in a challenge environment. All treatments improved clinical parameters, ?Pplmax and Cdyn. BALF cytology during an RAO crisis demonstrated neutrophilic inflammation. ENV or DEX + ENV resulted in a significant decrease in airway neutrophilia that was maintained throughout the treatment period. In contrast, treatment with DEX caused a reduction in airway neutrophilia initially followed by a rebound neutrophilia as the period between administrations of dexamethasone (0.05mg/kg) was increased to 72 hours. The rebound neutrophilia was not accompanied by equivalent deterioration in clinical parameters or pulmonary function. Conclusions - Environmental modification is important in the management of RAO horses. Treatment of clinical RAO with a decreasing dosage protocol of corticosteroids in the absence of environmental modification results in the persistence of airway inflammation without recrudescence of clinical disease.
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    The Comparison of Airway Responses of Normal Horses Fed Round Bale versus Square Bale Hay
    Larson, Jennifer Lynn (Virginia Tech, 2012-06-13)
    Background – Feeding horses round bale hay (RBH) has been associated with airway inflammation. The purpose of this study was to determine if horses fed RBH for a 6-week period demonstrated more evidence of airway inflammation than horses fed square bale hay (SBH) of comparable quality. Hypothesis - The respiratory health of horses fed RBH will not differ from horses fed SBH of comparable quality. Animals – Two feeding groups of 15 healthy horses (mixed ages, breeds) from the University riding program. Methods – This was a prospective study performed during fall of 2009. At the beginning and end of a 6- week feeding trial, horses were examined (physical, upper airway endoscopic) and samples (tracheal aspirate (TA), bronchoalveolar lavage (BAL)) collected for cytology and/or bacterial/fungal culture. Hay was analyzed for nutritional value and bacterial/fungal content. Results – Horses fed RBH demonstrated an increase in pharyngeal lymphoid hyperplasia (p=0.0143) and percentage neutrophils (p=0.0078) in the TA samples post-feeding as compared to pre-feeding values. Nutritional analysis of hay and measurements of bacterial/fungal load did not differ over time and/or between hay types. Conclusions and clinical importance – The identification of airway inflammation in the horses fed RBH indicates that factors associated with the manner in which the hay is fed and consumed contribute to the development of subclinical airway inflammation. RBH affords horses continuous daily exposure to hay and as horses bury their muzzles in the bale, exposure to particulate matter is likely increased. These factors may partially explain the response in horses fed RBH. Further studies are required to confirm these predictions.
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    Cytokine-bearing Influenza Vaccine: Adjuvant Potential of Membrane-bound Immunomodulators
    Herbert, Andrew S. (Virginia Tech, 2009-04-27)
    Influenza epidemics continue to cause morbidity and mortality within the human population despite widespread vaccination efforts. This, along with the ominous threat of an avian influenza pandemic (H5N1), demonstrates the need for a much improved, more sophisticated influenza vaccine. Our group has developed an in vitro model system for producing a membrane-bound Cytokine-bearing Influenza Vaccine (CYT-IVAC). Numerous cytokines are involved in directing both innate and adaptive immunity and it is our goal to utilize the properties of individual cytokines and other immunomodulatory proteins to create a more immunogenic vaccine. Here we report methodologies for the construction of membrane-bound cytokine fusion constructs in which our cytokine of interest (mouse GM-CSF, mouse IL-2, mouse IL-4) was fused to the membrane anchoring regions of viral Hemagglutinin (HA). Progeny virions, produced from influenza infected MDCK cells expressing membrane-bound cytokines, readily incorporated membrane-bound cytokines during budding and these cytokines on the virus particles retained bioactivity following viral inactivation. In vivo vaccination studies in mice showed enhanced antibody titers and improved protection following lethal challenge in those mice vaccinated with IL-2 and IL-4-bearing CYT-IVAC's compared to the conventional wild-type vaccine without membrane-bound cytokines. In addition, the immune response induced by IL-2 and IL-4-bearing CYT-IVACs was skewed toward Th1 (cellular) mediated immunity compared to the Th2 (humoral) dominated response induced with wild-type vaccination. Cellular mediated immunity afforded by IL-2 and IL-4 CYT-IVACs was manifested as enhanced influenza specific T cell proliferation and activation. In conclusion, we have developed a novel methodology to introduce bioactive membrane-bound cytokines directly into virus particles in order to augment the immunogenicity of inactivated, whole virus influenza vaccines.
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    Development of a Canine Coccidiosis Model and the Anticoccidial Effects of a New Chemotherapeutic Agent
    Mitchell, Sheila (Virginia Tech, 2008-04-11)
    Coccidia are obligate intracellular parasites belonging to the phylum Apicomplexa. Many coccidia are of medical and veterinary importance such as Cystoisospora species and Toxoplasma gondii. The need to discover new anticoccidial therapies has increased due to development of resistance by the parasite or toxicity issues in the patient. The goals of this work were to develop a model for canine coccidiosis while proving that Cystoisospora canis is a true primary pathogen in dogs and to determine the efficacy of a new anticoccidial agent. A canine coccidiosis model would be useful in evaluating new anticoccidial treatments. Oral infections with 5 X 104 (n=2) and 1 X 105 (n=20) sporulated C. canis oocysts were attempted in 22 purpose bred beagle puppies. Clinical signs associated with disease were observed in all dogs. Bacterial and viral pathogens were ruled out by transmission electron microscopy (TEM) and bacterial growth assays. Development of C. canis in cell culture was also evaluated. The efficacy of ponazuril, a new anticoccidial drug, was examined in T. gondii. In vitro studies were conducted to determine the activity of ponazuril on tachyzoites and how this agent affects development of apicomplexcan parasites. The tachyzoite production assay was conducted. Ponazuril at a dose of 1.0 µg/ml had a significant affect on tachyzoite reproduction. Comparisons were made on how ponazuril affects T. gondii and Neospora caninum. Inhibition of T. gondii tachyzoites occurred after the second round of replication and with N. caninum tachyzoites after 4 rounds of replication. Results of TEM revealed ponazuril affects replication of T. gondii and N. caninum differently. The efficacy of ponazuril to prevent and treat acute and chronic toxoplasmosis was investigated. Mice treated prophylactically with ponazuril were completely protected from developing an acute T. gondii infection. Fatal toxoplasmosis was prevented in mice starting treatment 3 and 6 days post infection at a dose of 20 mg/kg. Immunohistochemistry was used to evaluate ponazuril's effect on chronic toxoplasmosis. Sections of brain were scored according to the number of tissue cysts present. Ponazuril also proved to be highly active against toxoplasmic encephalitis in an interferon-gamma knockout mouse model.
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    Effects of Diethylstilbestrol on Murine Early Embryonic Stem Cell Differentiation Using an Embryoid Body Culture System
    Ladd, Sabine Margaret (Virginia Tech, 2005-04-14)
    Objectives: The effects of estrogens on immune system formation and function are well documented. Diethylstilbestrol (DES), a synthetic estrogen, has been linked to neoplasia and immune cell dysfunction in humans and animals exposed in-utero. In-vitro effects of DES exposure of murine embryonic stem (ES) cells on the early embryonic immune system development and the expression of cellular surface markers associated with common hemangioblastic and hematopoietic precursors of the endothelial, lymphoid & myeloid lineages were investigated. Hypothesis: Early ES cell expression of CD45 a marker common to lymphoid lineage hematopoietic stem cells and differentiation of lymphoid lineage precursors are affected by in-vitro exposure to DES. Methods: Murine ES cells were cultured using a variety of techniques: an OP9 co-culture system, and formation of embryoid bodies (EBs) in a liquid medium and hanging drop system. The OP9 co-culture system did not appear to give rise to well differentiated lymphoid lineage cells during 12 days of differentiation. The hanging drop EB culture system, previously shown to promote differentiation of endothelial and lymphoid precursor cells, was chosen for further studies of ES cell differentiation. ES cells were harvested at five time points: undifferentiated (day 0), and differentiated (days 3, 8, 12 and 16). Differentiating ES cells were treated with DES beginning on day 3. The synthetic estrogen, DES, was chosen as a treatment because of its similar potency to 17β estradiol and documented association with neoplasia in women exposed in-utero. Surface marker expression, measured by real-time RT-PCR amplification, was recorded using fluorogenic TaqMan(R) probes designed specifically for the surface proteins of interest: oct4, c-Kit, Flk1, ERα, ERβ, CD45, Flt1, & VE-cadherin. Analysis & Results: Changes in surface marker gene expression between day 0 and day 16 of differentiation were analyzed using the RT-PCR threshold counts (CT) and the comparative threshhold cycle method. The expression of each target mRNA was normalized internally to a housekeeping gene (18s rRNA) and calculated relative to day 0. ANOVA (Type 3 fixed-effects analysis, SAS) was performed using the unexponentiated ΔΔCT values. The effects of DES, time, and the interaction between DES and time were evaluated for days 8, 12 and 16. Additionally, the effects of DES on the expression of each marker were evaluated for day 16. Expression of estrogen receptor receptor α & β (ERα & β) in the EBs was established, and did not appear to be affected at any time by treatment with DES. ERα was expressed in significant levels on day 16, while ERβ was expressed in low levels throughout the period of differentiation. The expression of the cell surface marker, c-Kit was significantly (P<0.0001) altered by the presence of DES between the three time points sampled. The expression of the VEGF receptor, Flt1, and the adhesion molecule, VE-cadherin, markers of endothelial cells, were also significantly (P<0.026) altered by treatment with DES on day 16 of differentiation. Treatment with DES appeared to have no effect on the expression of CD45, a marker common to lymphoid precursor cells. Conclusions: These results indicate the presence of estrogen receptors in differentiating ES cells as early as day three in-vitro (ERβ) until day 16 (ERα). DES alters expression of common hemangioblastic and hematopoietic precursor, as well as endothelial lineage markers, but has no effect on expression of the marker of lymphoid lineage development before day 16. These effects coincided with the expression of ERα. The enduring effects of DES exposure in-utero may not be manifest in this ES model, or may occur at later stages of differentiation or in selected subpopulations of CD45+ cells.
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    Effects of Experimental Sarcocystis neurona-Induced Infection on Immunity in an Equine Model
    Lewis, S. Rochelle; Ellison, Siobhan; Dascanio, John J.; Lindsay, David S.; Gogal, Robert M.; Werre, Stephen R.; Surendran, Naveen; Breen, Meghan E.; Heid, Bettina; Andrews, Frank M.; Buechner-Maxwell, Virginia A.; Witonsky, Sharon G. (2014)
    Sarcocystis neurona is the most common cause of Equine Protozoal Myeloencephalitis (EPM), affecting 0.5-1% horses in the United States during their lifetimes. The objective of this study was to evaluate the equine immune responses in an experimentally induced Sarcocystis neurona infection model. Neurologic parameters were recorded prior to and throughout the 70-day study by blinded investigators. Recombinant SnSAG1 ELISA for serum and CSF were used to confirm and track disease progression. All experimentally infected horses displayed neurologic signs after infection. Neutrophils, monocytes, and lymphocytes from infected horses displayed significantly delayed apoptosis at some time points. Cell proliferation was significantly increased in S. neurona-infected horses when stimulated nonspecifically with PMA/I but significantly decreased when stimulated with S. neurona compared to controls. Collectively, our results suggest that horses experimentally infected with S. neurona manifest impaired antigen specific response to S. neurona, which could be a function of altered antigen presentation, lack of antigen recognition, or both.
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    Endotoxin-induced microRNA expression in equine peripheral blood mononuclear cells
    Parkinson, Nicholas J. (Virginia Tech, 2016-07-22)
    The innate immune response to lipopolysaccharide (LPS) mediated by toll-like receptor 4 (TLR4) contributes substantially to the morbidity of equine gastrointestinal disease, neonatal sepsis and other diseases. MicroRNAs (miRNAs), small non-coding RNA molecules acting as post-transcriptional regulators of gene expression, have key roles in TLR4 signaling regulation in other species. The central hypothesis of this study was that LPS induces differential expression of miRNAs in equine peripheral blood mononuclear cells (PBMCs). PBMCs were isolated from healthy adult horses and cultured with LPS or medium only for 2, 4 and 8 hours. Concentrations of inflammatory cytokines were measured in supernatants by immunoassay. Illumina Next-Generation Sequencing of the miRNA transcriptome was performed in PBMCs at 0, 2 and 4 hours. Selected expression changes were verified by qRT-PCR. 327 mature miRNAs were detected in equine PBMCs. Only miR-155 was significantly upregulated by LPS. 9 miRNAs showed statistically significant expression changes with time. Tumor necrosis factor-α concentration was significantly higher in supernatants from LPS-treated cells than controls from 2 hours, while interleukin-10 and interferon-γ were increased at 8 hours. miR-155 expression was correlated to all three cytokines. These data provide a foundation for future research into miRNA involvement in equine inflammatory responses. miR-155 is the principal LPS-induced miRNA in horses. Bioinformatic target predictions support roles in regulation of innate and adaptive immune responses including TLR4 signaling, as in humans. It is thus likely to influence the acute inflammatory response to LPS. Further research will be necessary to establish its role in naturally occurring disease.
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    Engrafting Horse Immune Cells into Mouse Hosts for the Study of the Acute Equine Immune Responses
    Leeth, Caroline M.; Adkins, Janie; Hay, Alayna N.; Bogers, Sophie Helen; Potter, Ashley; Witonsky, Sharon G.; Zhu, Jing (MDPI, 2021-10-14)
    Immunological studies in the horse are frequently hampered by lack of environmental control, complicated study design, and ethical concerns when performing high risk studies. The purpose of the current study was to investigate the utility of a xenograft model for studying acute equine immune responses. Immunocompromised non obese diabetic (NOD). sudden combined immunodeficiency (scid).gamma-/- (NSG) mice were engrafted with either equine peripheral blood lymphocytes (PBLs) or equine bone marrow to determine an optimal protocol for equine lymphocyte engraftment. We found that both PBL and bone marrow grafts populated the host mice successfully. Bone marrow transplants were technically more challenging and required further processing to retard graft versus host disease. Graft vs host disease was apparent at 28 days post-PBL transfer and 56 days post-bone marrow transfer. The results of these studies support the use of mouse hosts to study acute equine immune responses and that different engraftment techniques can be used depending on the experimental design.
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    Equine Protozoal Myeloencephalitis: An Updated Consensus Statement with a Focus on Parasite Biology, Diagnosis, Treatment, and Prevention
    Reed, S. M.; Furr, M. O.; Howe, D. K.; Johnson, A. L.; MacKay, R. J.; Morrow, J. K.; Pusterla, N.; Witonsky, Sharon G. (American College of Veterinary Internal Medicine, 2016-03)
    Equine protozoal myeloencephalitis (EPM) remains an important neurologic disease of horses. There are no pathognomonic clinical signs for the disease. Affected horses can have focal or multifocal central nervous system (CNS) disease. EPM can be difficult to diagnose antemortem. It is caused by either of 2 parasites, Sarcocystis neurona and Neospora hughesi, with much less known about N. hughesi. Although risk factors such as transport stress and breed and age correlations have been identified, biologic factors such as genetic predispositions of individual animals, and parasite-specific factors such as strain differences in virulence, remain largely undetermined. This consensus statement update presents current published knowledge of the parasite biology, host immune response, disease pathogenesis, epidemiology, and risk factors. Importantly, the statement provides recommendations for EPM diagnosis, treatment, and prevention.
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    Equine Protozoal Myeloencephalitis: investigating immunopathogenesis and treatment efficacy in mouse models and clinically affected horses
    Hay, Alayna N. (Virginia Tech, 2020-01-09)
    Equine protozoal myeloencephalitis (EPM), predominantly caused by the protozoa Saracocystis neurona, is a common neurologic disease in horses from North America. Equine exposure to the parasite occurs frequently as the protozoa is excreted in opossum (Didelphis virginiana) feces and contaminates the horse's environment. However, clinical neurologic disease only emerges in a small fraction of exposed horses. The seemingly protective immune response that develops in some exposed horses but not all is not fully defined. Previous reports utilizing horse EPM models and immune compromised mouse models, which develop disease simulating EPM after infection with S. neurona, have reported a role of T-lymphocytes and the cytokine interferon gamma, in disease protection. As part of this dissertation, the role of T-lymphocytes and IFNγ was further elucidated. It was determined that IFNγ production is essential for T-lymphocytes to offer protection against S. neurona induced encephalitis, in immune compromised mice. Another factor hindering prognosis of EPM affected horses is treatment failure. The efficacy of the antiprotozoal decoquinate, was tested and found to be ineffective at preventing S. neurona encephalitis, in immune compromised mice. However, the antiprotozoal, diclazuril, was found to be effective at preventing S. neurona encephalitis in immunocompromised mice but once treatment was terminated, infection persisted, and neurologic disease developed. In-situ methods were employed to extensively evaluate the immunopathology of spinal cord tissue samples collected from EPM affected horses. A novel in-situ hybridization technique was successfully utilized to identify S. neurona in tissue samples collected from horses with EPM. This technique will create new opportunities for investigating the immunopathology of EPM. Overall results from the studies conducted in this dissertation suggest that IFNγ production from T lymphocytes is essential for them to offer protection against S. neurona encephalitis. Additionally, further insight on FDA approved and non-FDA approved treatment options for S. neurona infection was gained through the use of the B6Ifnγ -/- mouse model. Collectively, these studies expanded on the knowledge of an understudied equine neurologic disease.
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    Experimental infection with Sarcocystis neurona alters the immune response: the effect on CD4+, CD8+, B-cell, monocyte and granulocyte populations in horses
    Lewis, Stephanie Rochelle (Virginia Tech, 2009-06-11)
    Previous studies have demonstrated differences in CD4+, CD8+ and B-cell populations between EPM affected and normal horses. The overall goal of our project was to further define the immune deficiencies associated with S. neurona infection. We hypothesized that PMA/I stimulated suppression in EPM horses is due to decreased proliferation of monocytes, CD4+ and CD8+ cells. Our objectives were 1) to determine whether S. neurona infection causes an increase in apoptosis of a particular immune subset, and 2) to determine whether S. neurona causes a decrease in the number of cellular divisions (proliferation) of a particular immune cell subset. For this study, nine S. neurona antibody negative, immunocompetent horses were obtained. Baseline neurologic examinations, SnSAG1 (S. neurona Surface Antigen 1) ELISAs on cerebrospinal fluid (CSF) and serum, and baseline immune function assays were performed. Horses were randomly divided into groups. Five horses were challenged for ten days via intravenous injection of autologous lymphocytes infected with S. neurona. Neurologic parameters of all horses were assessed for 70 days following infection. Immune function was based on proliferation responses to mitogens, as assessed through thymidine incorporation. Enumeration of cellular subsets, degree of apoptosis and number of cellular divisions were assessed through flow cytometry. SnSAG1 ELISA of serum and CSF samples performed post-infection confirmed infection and disease. All infected horses displayed moderate neurologic signs on clinical examination. Some significant differences in cellular activities were noted. Additionally, this is the first time the method using S. neurona infected lymphocytes has been reproduced successfully by different investigators.
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    Finding Typhoid Mary: Identifying Latent Carriers of Salmonella enterica serovar Typhimurium
    Schroeder, Betsy (Virginia Tech, 2020-09-16)
    Salmonella enterica serovar Typhimurium (S. Typhimurium) is an important human pathogen. The Centers for Disease Control and Prevention (CDC) estimates that 1,027,561 people become ill with nontyphoidal Salmonellosis annually, and S. Typhimurium is one of the most common disease causing serovars. Quantification of the true number of cases of salmonellosis is hampered by the presence of a carrier state. These carriers are animals and humans that carry the pathogens for a variable period of time without showing any clinical signs. One of the biggest barriers to controlling and preventing salmonellosis in a population is identification of these carriers. Identifying these latent carriers of chronic infections is vital to preventing such disease transmission and creating avenues for novel control and treatments. In my dissertation research, we developed a cell culture model to study latent Salmonella infections. By activating human monocytes with retinoic acid and vitamin D3, we were able to isolate Salmonella from such cells 45 days after inoculation. We subsequently used this model to identify genes that were upregulated in this chronic infection model. We found that aceA, a gene that codes for isocitrate lyase, is significantly upregulated on days 10 and 30 post infection. Isocitrate lyase is part of the glyloxylate cycle. Some bacterial species have developed a mechanism to utilize acetone as a carbon source to synthesize tricarboxylic acid (TCA) cycle intermediates. This anaplerotic reaction allows organisms to conserve carbon and use alternative carbon sources. This cycle is one way in which bacteria can adapt and survive in an intracellular environment. This intracellular survival is key to latent infections persisting within a host. It is biologically plausible that, in order to survive in a latent state, S. Typhimurium would up-regulate genes that would facilitate intracellular survival. After establishing the cell culture model, we tested the hypothesis that aceA is upregulated in latent infections of S. Typhimurium in a mouse model. We orally challenged mice that were resistant to Salmonella infection, collected their feces, and collected tissue specimens at several time points up to 135 days post-challenge. These samples were cultured and tested using quantitative polymerase chain reaction (qPCR). The qPCR results showed that tissue samples from inoculated mice had increased aceA expression 95 days after challenge. Finally, we examined whether aceA expression could be detected in cattle lymph node samples. Supra-mammary lymph nodes from 40 dairy cattle and mesenteric lymph nodes from 100 culled cattle were sampled and submitted for culture and qPCR. None of the supra-mammary lymph nodes were positive for Salmonella via culture or aceA qPCR; however, 11 mesenteric lymph nodes showed increased aceA expression in qPCR compared to 5 culture positive lymph nodes. Further research is necessary, but these results demonstrate some of the advantages of using genetic primers to identify latent Salmonella infections in clinically normal cattle. In addition, the assay may be able to differentiate between latent and active salmonellosis, and could be used to provide targeted drug delivery.
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    Horses experimentally infected with sarcocystis neurona develop altered immune responses in vitro
    Witonsky, Sharon G.; Ellison, Siobhan; Yang, Jibing; Gogal, Robert M.; Lawler, Heather; Suzuki, Yasuhiro; Sriranganathan, Nammalwar; Andrews, Frank M.; Ward, Daniel; Lindsay, David S. (American Society of Parasitology, 2008-10)
    Equine protozoal myeloencephalitis (EPM) due to Sarcocystis neurona infection is I of the most common neurologic diseases in horses in the United States. The mechanisms by which most horses resist disease, as well as the possible mechanisms by which the immune system may be suppressed in horses that develop EPM, are not known. Therefore, the objectives of this study were to determine whether horses experimentally infected with S. neurona developed suppressed immune responses. Thirteen horses that were negative for S. neurona antibodies in serum and cerebrospinal fluid (CSF) were randomly assigned to control (n = 5) or infected (n = 8) treatment groups. Neurologic exams and cerebrospinal fluid analyses were performed prior to, and following, S. neurona infection. Prior to, and at multiple time points following infection, immune parameters were determined. All 8 S. neurona-infected horses developed clinical signs consistent with EPM, and had S. neurona antibodies in the serum and CSF Both infected and control horses had increased percentages (P < 0.05) of B cells at 28 clays postinfection. Infected horses had significantly decreased (P < 0.05) proliferation responses as measured by thymidine incorporation to nonspecific mitogens phorbol myristate acetate (PMA) and ionomycin (I) as soon as 2 days postinfection.