VTechWorks Repository :: Browsing by Author "Sriranganathan, Nammalwar"

Browsing by Author "Sriranganathan, Nammalwar"

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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.
Anti-inflammatory Effects and Biodistribution of Cerium Oxide Nanoparticles
Hirst, Suzanne Marie (Virginia Tech, 2010-02-04)
Cerium oxide nanoparticles have the unique ability to accept and donate electrons, making them powerful antioxidants. Their redox nature is due to oxygen defects in the lattice structure, which are more abundant at the nanoscale. Reactive oxygen species (ROS) are pro-oxidants whose presence is increased during periods of inflammation in the body. ROS damage tissues and cellular function by stripping electrons from proteins, lipids, and DNA. We investigated the ability of nanoceria to quench ROS in vitro and in vivo, and examined the biodistribution and biocompatibility of nanoceria in murine models. Nanoceria was internalized in vitro by macrophages, is non-toxic at the concentrations we investigated, and proteins, mRNA, and oxidative markers of ROS were abated with nanoceria pretreatment in immune stimulated cells as measured by western blot, real time RT PCR, and Greiss assay respectively. In vivo, nanoceria was deposited in the spleen and liver, with trace amounts in the lungs and kidneys as determined by ICP-MS. Using IVIS in vivo imaging, it appeared that nanoceria deposition occurred in lymph tissue. Histology grades show no overt pathology associated with nanoceria deposition, although white blood cell (WBC) counts were generally elevated with nanoceria treatment. Nanoceria suspect particles were seen in lysosomes from kidney samples of IV injected mice in HRTEM images. Lastly, IV nanoceria treatment appears to reduce markers of oxidative stress in mice treated with carbon tetrachloride (CCl4) to induce ROS production. Taken together, our data suggest that nanoceria treatment has the potential to reduce oxidative stress.
Antibacterial efficacy of core-shell nanostructures encapsulating gentamicin against an in vivo intracellular Salmonella model
Ranjan, Ashish; Pothayee, Nikorn; Seleem, Mohamed N.; Tyler, Ronald D.; Brenseke, Bonnie; Sriranganathan, Nammalwar; Riffle, Judy S.; Kasimanickam, Ramanathan K. (Dove Medical Press, 2009-01-01)
Pluronic based core-shell nanostructures encapsulating gentamicin were designed in this study. Block copolymers of (PAA(+/-)Na-b-(PEO-b-PPO-b-PEO)-b-PAA(+/-)Na) were blended with PAA(-) Na(+) and complexed with the polycationic antibiotic gentamicin to form nanostructures. Synthesized nanostructures had a hydrodynamic diameter of 210 nm, zeta potentials of -0.7 (+/-0.2), and incorporated approximately 20% by weight of gentamicin. Nanostructures upon co-incubation with J774A.1 macrophage cells showed no adverse toxicity in vitro. Nanostructures administered in vivo either at multiple dosage of 5 microg g(-1) or single dosage of 15 microg g(-1) in AJ-646 mice infected with Salmonella resulted in significant reduction of viable bacteria in the liver and spleen. Histopathological evaluation for concentration-dependent toxicity at a dosage of 15 microg g(-1) revealed mineralized deposits in 50% kidney tissues of free gentamicin-treated mice which in contrast was absent in nanostructure-treated mice. Thus, encapsulation of gentamicin in nanostructures may reduce toxicity and improve in vivo bacterial clearance.
The Applicability and Use of Waterless Hand Sanitizer in Veterinary and Animal Agricultural Settings
McMillan, Naya Subira (Virginia Tech, 2004-05-06)
An increase in outbreaks caused by zoonotic agents has brought about intensified efforts to address the transmission of infectious organisms in animal settings. In October 2002, the CDC released recommendations for the use of waterless hand sanitizer (WHS) in human healthcare settings. The question arises whether WHS may be as effective in veterinary and animal agricultural settings given some of the dissimilarities in conditions. To address this question, three studies were conducted. The first was a retrospective analysis of a Samonella agona outbreak which occurred in 2001 at the Large Animal Teaching Hospital of the Virginia-Maryland Regional College of Veterinary Medicine (VMRCVM). The second evaluated the pattern of use and efficacy of hand hygiene products in the VMRCVM Large Animal Hospital. The third study assessed the efficacy of WHS among visitors to a children's petting zoo at the 2002 Virginia State Fair. Regarding the Salmonella outbreak, it is thought that a calf from the university owned dairy herd was the index case. A total of 16 equine patients acquired S. agona while hospitalized. The nosocomial disease incidence risk for in-house patients was estimated to be 33% (16/49). The LAH was closed for 7 months for cleaning, disinfection and renovation. The total cost of the outbreak was estimated to be at least $755,000. Waterless hand sanitizer proved useful in the veterinary hospital setting. When measured immediately after use, WHS reduced bacterial loads on the hands of 20 LAH personnel (P < 0.001). Before WHS use, HBC ranged from less than to 20 to 48,800 CFU/ml with a geometric mean of 6,926 CFU/ml. Counts after WHS use ranged from less than 20 to 23,400 with a geometric mean of 1,152 CFU/ml. Differences in before and after ranged from -4,000 to 48,200 CFU/ml with a median of 9,700 CFU/ml. The logarithmic reduction in bacterial load before and after WHS use was 0.78 (79.7%). In the petting zoo study, bacterial counts on the fingers of the children sampled before use of WHS ranged from 40 to 75,200 CFU/ml with a geometric mean of 8,653 CFU/ml. After WHS use, bacterial growth ranged from 19 to 58,400 CFU/ml with a geometric mean of 1,727 CFU/ml. Differences in before and after ranged from -35,600 to 59,400 CFU/ml with a median of 8,190 CFU/ml. The logarithmic reduction in bacterial load before and after WHS use was 0.70 (82.2%; P< 0.001). These data suggest that WHS may be of benefit in veterinary medicine and animal agriculture as a means to reduce nosocomial and zoonotic infections.
Applicability of vaccinia virus as cloning and expression vector for bacterial genes: mice immune responses to vaccinia virus expressing Brucella abortus and Listeria monocytogenes antigens
Baloglu, Simge (Virginia Tech, 2001-07-27)
Previous studies by our group showed that vaccinia virus recombinants expressing Brucella abortus (BA) antigens heat shock protein GroEL, 18 kDa protein and Cu/Zn SOD, were unable to induce protective immune responses against Brucella challenge. This dissertation analyzes the possible reasons for this phenomenon, by using other genes/proteins from BA and Listeria monocytogenes (LM), various shuttle plasmids (pSC65, pSC11) and immune response modulators (CpG, IL-12, B7-1). As the first objective, a vaccinia virus recombinant (WRL7/L12), expressing the BA L7/L12 gene was generated. L7/L12 ribosomal protein was used as a T-cell reactive antigen, with protective potential to Brucella challenge. The WRL7/L12 was able to express the gene of interest and induce IgG2A type antibody response, but not a protective immune response against Brucella challenge. As a control, an antigen from LM proven to induce CTL and protective immune responses, was used to test the efficacy of vaccinia virus to induce protection. A portion of hly gene, encoding partial listeriolysin (pLLO), was inserted into the same vaccinia virus stain. This recombinant (WRpLLO) was able to induce protection against a Listeria challenge. Next another vaccinia virus recombinant expressing Brucella abortus Cu/Zn SOD was analyzed. Although a variety of approaches, including the enhancement of the protein expression by the pMCO2 synthetic promoter, booster immunization, addition of the oligomer CpG adjuvant (WRSODCpG) to enhance Th1 type response, were used, the SOD recombinant failed to protect mice against Brucella challenge. Lastly, vaccinia virus produces a family of proteins that bind cytokines, chemokines and interferons to evade the host defensive systems. Therefore, a vaccinia virus strain co-expressing murine IL-12, and cofactor B7-1, were used to generate the recombinant WRIL12L7/L12. In order to further boost the induction of Th 1 type response, the adjuvant CpG was used. A similar recombinant, WRIL12pLLO, was generated with partial hly gene to serve as a positive control for protection. Mice immune responses to these recombinants, with and without adjuvant CpG, were analyzed, and compared with the recombinants generated with vaccinia strain WR. Co-expression of IL12 and B7 abrogated the protective efficacy of the vaccinia/ pLLO recombinant.
Approaches towards therapeutic development against chronic brucellosis in a mouse model
Jain, Neeta (Virginia Tech, 2012-01-19)
Brucellosis is the most common zoonotic disease worldwide. The intracellular localization of Brucella hinders the action of drugs that poorly cross cell membrane barriers. Additionally, when the immune response fails to clear the infection, chronic brucellosis ensues that becomes more challenging to treat with antibiotics. Therefore, two approaches, intracellular drug delivery and immunostimulation, have been explored in this dissertation, with an aim to develop a better therapeutic against Brucella infection in mice. First, to overcome the cell membrane barriers, drug loaded nanoparticles were tested to treat B. melitensis infection in mice. Gentamicin loaded block-ionomer complexes (BICs) and magnetite block-ionomer complexes (MBICs) were tested in vitro and along with clusters of MBICs (MBIClusters) were tested in vivo as tools to deliver gentamicin intracellularly. While these complexes showed very high efficacy compared to free gentamicin against Brucella in macrophage cell culture, they failed to show similar efficacies in mice. Histopathological examination of kidneys from mice treated with MBICs or MBIClusters showed deposition of brown pigment-laden macrophages in peri-renal adipose tissue and the pigment was confirmed as MBICs or MBIClusters based on special staining for iron. Additionally, it was found that doxycycline-gentamicin (DG) treatment results in better clearance of Brucella from infected mice compared to doxycycline alone. Secondly, two vaccine candidates, irradiated B. neotomae (IBN) and outer membrane vesicles (OMVs), were tested as immunostimulants to treat chronic B. melitensis infection in mice in combination with antibiotics. The non-ionic block co-polymer Pluronic P85, when mixed with OMVs as an adjuvant showed significantly higher protection against B. melitensis challenge in vaccinated mice compared to those vaccinated with OMVs alone. When tested as immunostimulants, there was no additive effect of vaccines and antibiotics on Brucella clearance from mice. However, IBN enhanced the production of IFN-γ while OMVs were associated with enhanced antibody production. This enhancement in the immune system resulted in the control of Brucella growth after the end of treatment. When given without antibiotics, vaccine alone failed to clear any Brucella from infected mice. The use of these vaccine candidates in combination with antibiotics shows a potential to prevent relapses in cases of brucellosis.
Approaches towards vaccine development against Neospora caninum
Ramamoorthy, Sheela (Virginia Tech, 2006-06-05)
Neospora caninum is an apicomplexan parasite that causes neuromuscular paralysis in dogs and abortions in cattle. N. caninum is responsible for losses of several million dollars to the dairy and beef industries in several parts of the world. The key players in the host immune response to N. caninum include CD4+ T cells, the Th1 cytokines IL-12, Interferon gamma and IgG2a isotype antibodies. There are currently no chemotherapeutic agents that are effective against adult cattle neosporosis. A commercially available, inactivated vaccine induces the undesirable Th2 type of immunity against N. caninum. Therefore, two approaches towards vaccine development against N. caninum that were designed to induce potent cell mediated immunity have been explored in this dissertation. The first approach consisted of the development of a bivalent recombinant vaccine for both brucellosis and neosporosis, while the second approach involved gamma irradiation of N. caninum tachyzoites for use as an attenuated vaccine against N. caninum. Since N. caninum research has been conducted with several strains of mice and the different strains of mice vary in their susceptibility to infection with N. caninum, there is a need to develop a standard lab animal model for N. caninum. A gerbil and a C57BL/6 mouse model for N. caninum vaccine testing have been developed. It was found that the LD50 of N. caninum tachyzoites in gerbils was 9.3 x105 tachyzoites per gerbil delivered intra-peritoneally, (i.p) while for C57BL/6 mice the LD50 was 1.5 x107 tachyzoites per mouse delivered i.p. Vertical transmission rates in C57BL/6 mice infected with N. caninum tachyzoites during mid-gestation were determined and found to be in the range of 96-100%. Putative protective antigens of N. caninum that included MIC1, MIC3, GRA2, GRA6 and SRS2 were expressed in B. abortus strain RB51 to create recombinant vaccine strains. C57BL/6 mice were vaccinated with either the recombinant strains or the irradiated tachyzoites. Antigen specific IgG2a and IgG1 responses and high levels of interferon gamma and IL-10 were induced by vaccination. Mice vaccinated with irradiated tachyzoites, RB51-MIC1 and RB51-GRA6 were completely protected against lethal challenge, while the mice vaccinated with RB51-SRS2, RB51-GRA2 and RB51-MIC3 were partially protected. To determine the efficacy of the vaccines in preventing vertical transmission of N. caninum, mice were vaccinated and bred after administration of a booster dose four weeks after the primary vaccination. Antigen specific IgG1 and IgG2a and significant levels of IFN-Ã£ and IL-10 were detected in vaccinated, pregnant mice. Pregnant mice were challenged with 5 x 106 N. caninum tachyzoites between days 11-13 of pregnancy. Brain tissue was collected from pups three weeks after birth and examined for the presence of N. caninum by a semi-nested PCR. Protection against vertical transmission elicited by the RB51-GRA6, RB51-MIC3, irradiated tachyzoite, RB51-GRA2, RB51-MIC1 and RB51-SRS2 vaccinated groups were 43%, 38%, 34%, 34%, 18%, and 7% respectively. Since not all the antigens that were highly protective against acute disease were not very effective in preventing vertical transmission, the role of the selected antigens in preventing acute disease and vertical transmission appear to differ. Only GRA6 was found to be effective in protecting against an acute lethal challenge as well as preventing vertical transmission 43% of the time. In summary, two animal models for the testing of N. caninum vaccines were developed. N. caninum protective antigens were successfully expressed in B. abortus strain RB51. The irradiated tachyzoite and recombinant RB51-Neospora vaccines were highly effective in protecting against acute neosporosis and partially protective against vertical transmission. Therefore, both these approaches show great promise as practical and effective means to achieve the goal of successful prophylaxis against N. caninum induced abortions and reduce the chances of vertical transmission.
Assessment of the Expression of Brucella Abortus Heat Shock Protein, Groel, in Vaccinia Virus to Induce Protection Against a Brucella Challenge in Balb/C Mice
Baloglu, Simge (Virginia Tech, 1997-07-08)
B. abortus is an intracellular facultative bacterial pathogen which causes abortion in cattle and undulant fever in humans. Cattle vaccines such as B. abortus strains 19 and RB51 are live vaccine strains which protect approximately 75% of the vaccinated animals. No effective vaccines are available for the prevention of brucellosis in humans. We are developing vaccinia virus recombinants expressing various B. abortus proteins to prevent brucellosis in susceptible mammalian species. In this work the B. abortus groEL gene encoding the antigenic heat shock protein GroEL was subcloned into vaccinia virus via homologous recombination. Expression of the GroEL protein in vaccinia infected cells in-vivo was confirmed by immunoblotting. Groups of 5 female BALB/C mice were injected with the vaccinia recombinant or appropriate positive and negative control vaccines. Mice were bled and their humoral immune responses assessed. In addition, mice were challenged with virulent B. abortus strain 2308 and protection measured by the rate of splenic clearance of live Brucella. In spite of demonstrating specific GroEL antibodies in recombinant vaccinia injected mice, no significant level of protection was demonstrable. Preliminary lymphocyte transformation assays were carried out to establish if a cell mediated immune response to GroEL was induced in the vaccinated animals.
Bacteriophage Felix O1: Genetic Characterization and Bioremedial Application
Whichard, Jean Marie (Virginia Tech, 2000-10-16)
Bacteriophage Felix O1 was studied for applicability as a Salmonella intervention. Felix O1's potential as a Salmonella therapeutic was explored, as was its utility as a food application. Felix O1 is specific for and infects most serovars within the genus Salmonella. The entire 86.155-kb sequence of the phage's linear, double-stranded chromosome was determined. 213 open reading frames (ORFs) were found, including 23 homologues of phage genes (e<0.008). Homology searches do not indicate genes that would be expected to increase virulence of Salmonella. Thirteen T4 homologues were found, including rIIA and rIIB, rapid lysis genes of T-even phages. Site-directed mutagenesis of the rIIB region was attempted by homologous recombination with plasmids containing luxAB of Vibrio harveyi. No DrIIB luxAB+ recombinants resulted from the methods tried. Serial in vivo passage was used to select for a longer-circulating Felix O1 mutant using the modified methods of Merril et al., (1996). No difference was found in the clearance of wild-type (WT) and Felix O1 following nine serial passages. Injection of 10⁹pfus yielded 24-hour concentrations of 6.5 and 4.9 log10 pfus/ml plasma for WT and 9th passage, respectively. Both isolates were undetectable in plasma by 72 hours, but remained in spleens at 96 hours. A large-plaque Felix O1 variant (LP) isolated during in vivo serial passage was compared with WT for Salmonella growth suppression. Spectrophotometric measurement of BHI cultures indicated greater suppression of S. typhi by LP than by WT, a difference not seen with S. typhimurium DT104. Both isolates suppressed 24-hour S. typhimurium DT104 growth on experimentally-contaminated chicken frankfurters at 22°C. Untreated frankfurters yielded 6.81 log10 Salmonella cfus/g, whereas WT and LP-treated samples yielded 5.01 and 4.70 log10 cfus/g, respectively. Both phages suppressed the Salmonella typhimurium DT104 growth (p<0.0001), but the isolates did not perform differently (p=0.5088). Presence of Salmonella caused a higher yield of WT phage than from the uninoculated group (p=0.0011), but did not affect LP yield (p=0.4416). With Salmonella present, the 24-hour LP concentration was lower than WT concentration. This supports the surmised LP rapid-lysis phenotype since T4 rapid-lysis mutants typically exhibit lower burst sizes than wild-type phage.
The behavior and effects of Brucella abortus rough strain RB51 in mice and cattle
Buhrman, Dianne L. (Virginia Tech, 1989-07-05)
Brucella abortus st. RB51 is a rough mutant of smooth st. 2308 devoid of O-side chain and resistant to rifampin. The purpose of this investigation was to study the behavior and effects of viable st. RB51 organisms in inoculated mice and cattle and to further substantiate the lack of O-side chain antigens in this strain. A single injection of live st. RB51 persisted in BALB/C mice up to 28 days. A secondary exposure was cleared in 7-21 days. One or 2 injections of st. RB51 did not induce detectable titers of anti-O-side chain antibodies, although antibody titers to st. RB51 whole cell and cytoplasmic antigens were detected. Mice infected with st. RB51 alone or followed by infection with st. 2308, demonstrated a very strong reaction to a 14-18 Kd antigen which was believed to be the core of the LPS complex. When st. RB51 was administered after injection of st. 2308 the response to the core determinants were inhibited. One vaccination with st. RB51 was able to significantly protect mice against challenge with st. 2308 at one and four weeks post challenge. Two st. RB51 vaccinations were able to protect mice as well as one vaccination at one week post challenge but protection increased by four weeks post challenge. Strain RB5l was able to survive in cattle a for at least twenty-two days. The organism remained stable, rifampin resistant, and may have induced minor amounts of transient anti-O-side chain antibodies in some cows late in the experiments.
Biological Agent Sensing Integrated Circuit (BASIC): A New Complementary Metal-oxide-semiconductor (CMOS) Magnetic Biosensor System
Zheng, Yi (Virginia Tech, 2014-06-10)
Fast and accurate diagnosis is always in demand by modern medical professionals and in the area of national defense. At present, limitations of testing speed, sample conditions, and levels of precision exist under current technologies, which are usually slow and involve testing the specimen under laboratory conditions. Typically, these methods also involve several biochemical processing steps and subsequent detection of low energy luminescence or electrical changes, all of which reduce the speed of the test as well as limit the precision. In order to solve these problems and improve the sensing performance, this project proposes an innovative CMOS magnetic biological sensor system for rapidly testing the presence of potential pathogens and bioterrorism agents (zoonotic microorganisms) both in specimens and especially in the environment. The sensor uses an electromagnetic detection mechanism to measure changes in the number of microorganisms--tagged by iron nanoparticles--that are placed on the surface of an integrated circuit (IC) chip. Measured magnetic effects are transformed into electronic signals that count the number and type of organisms present. This biosensor introduces a novel design of a conical-shaped inductor, which achieves ultra-accuracy of sensing biological pathogens. The whole system is integrated on a single chip based on the fabrication process of IBM 180 nm (CMOS_IBM_7RF), which makes the sensor small-sized, portable, high speed, and low cost. The results of designing, simulating, and fabricating the sensor are reported in this dissertation.
Brucella abortus RB51 vaccine: Testing its Spectrum of Protective and Curative Characteristics
Contreras Rojas, Andrea Paz (Virginia Tech, 2004-07-30)
Brucella abortus (BA) are gram-negative, facultative intracellular bacteria that cause abortions in cattle and debilitating illness in humans. The US is now virtually free of bovine brucellosis, but the disease is endemic in wildlife. The official brucellosis vaccine in the US is strain RB51 (RB51). It elicits protective cell-mediated immunity (CMI) against BA infections. Mycobacterium avium subspecies paratuberculosis (MAP) causes paratuberculosis in ruminants. It is a slow growing intracellular parasite that requires CMI for its control, belongs to the genus Mycobacterium, and is closely related to M. avium avium (MA). Using RB51 as a vector that induces strong protective CMI may be useful to protect against MAP if it expresses MAP protective antigens. Therefore, MAP 85A and 35kDa proteins were expressed at low levels in RB51, and the immune responses elicited by these vaccines in BALB/c mice were evaluated. Strong anti-Brucella immunity was generated, but the anti-mycobacterial response was low. To evaluate protective efficacy, a BALB/c model using MA was developed. When mice were challenged with MA, protection was obtained in some experiments but was inconsistent. This may be due to the low expression of MAP antigens in RB51. Another objective was to evaluate the effect of an ongoing Brucella-infection on the efficacy of RB51 vaccination, and whether vaccination of already infected animals could have a curative effect. Mice acutely or chronically infected with virulent BA, rapidly cleared the RB51 vaccine organisms, but there was no significant decrease in the number of virulent BA. Brucella spp. have been developed as biological weapons, but there are no vaccines to protect humans. The development of a very attenuated protective vaccine is necessary to prevent human infections, as well as to protect wildlife. To generate such a vaccine, RB51 based vaccines were irradiated to render them non-replicative, but metabolically active. We demonstrated that in general, irradiated and non-irradiated RB51 vaccines remain protective at levels similar to those elicited by the live vaccines. Therefore, irradiation of strain RB51 is an effective means of attenuating the strain without affecting its protective characteristics, and could eventually be used as a vaccine for wildlife and humans.
Brucella abortus RB51 ΔleuB expressing Salmonella FliC conjugated gonadotropins reduces mouse fetal numbers: A possible feral swine brucellosis immunocontraceptive vaccine
Waldrop, Steven Grant; Smith, Garrett P.; Boyle, Stephen M.; Sriranganathan, Nammalwar (2021-02)
Population and health management of wildlife is a key to environmental health, domestic herd health, and ultimately public health. Many different methods including: surgical sterilization, poison baits, and sponsored hunting programs have been used in the attempt to control populations of various nuisance animal species. Particular interest has been given to immunocontraception through wildlife vaccination protocols. This study specifically looked at the potential immunocontraceptive and protective properties of a Brucella abortus RB51 Delta leuB vaccine expressing Salmonella typhimurium FliC conjugated to porcine follicle stimulating hormone beta subunit (FSH beta) or gonadotropin releasing hormone (GnRH) DNA sequences. B. abortus RB51 Delta leuB pNS4-TrcD-FliC-FSH beta (RB51LFSH beta) and B. abortus RB51 Delta leuB pNS4-TrcD-FliC-GnRH (RB51LGnRH) were tested in a pilot breeding study with BALB/c mice, and a significant reduction in fertility characteristics was observed in both male and female mice. Ultimately, this study provides support to test these vaccine candidates in feral swine, a destructive invasive species in the United States of America.
Brucella abortus Strain RB51 Outer Membrane Vesicles as a Vaccine Against Brucellosis in a Murine Model
Cassidy, Clifton Clark (Virginia Tech, 2010-02-03)
Brucella abortus is a zoonotic agent that primarily infects cattle and causes brucellosis. B. abortus strain RB51 is a live, attenuated vaccine licensed for cattle. However, there is no available vaccine to prevent human brucellosis. Outer membrane vesicles have been tested as potential vaccines to prevent diseases caused by bacterial species. OMV are constantly released from Gram-negative bacteria. They are comprised principally of the outer membrane components and periplasmic proteins from the bacterial cell envelope. The research in this thesis examined the adjuvant property of non-replicative, metabolically active irradiated strain RB51 and the protective ability of OMV derived from strain RB51. Irradiated B. abortus strain RB51 was assessed for its ability to act as an adjuvant to induce protection against malaria. It was found that irradiated B. abortus strain RB51 administered along with fasciclin related adhesive protein (FRAP) to mice induced a protective immune response and a significant decrease in parasitemia after challenge with Plasmodium berghei. Strain RB51 and strain RB51 over-producing Cu/Zn superoxide dismutase (Cu/Zn SOD) were used to produce OMV. Western blotting and SDS-PAGE gel staining confirmed the presence of OMV and the over-production of Cu/Zn SOD. OMV were delivered to mice using an intraperitoneal route and, in some cases, with aluminum hydroxide adjuvant. The immune response was assessed by antibody isotyping with respect to OMV and measuring splenic clearance (i.e. protection) from a B. abortus strain 2308 challenge. The results demonstrate that OMV from B. abortus strain RB51 or strain RB51 over producing Cu/Zn SOD produced a Th1 polarized immune response as measured by specific OMV antibodies and cytokines but no statistically significant protection was observed.
Cellulose Esters and Cellulose Ether Esters for Oral Drug Delivery Systems
Arca, Hale Cigdem (Virginia Tech, 2016-11-01)
Amorphous solid dispersion (ASD) is a popular method to increase drug solubility and consequently poor drug bioavailability. Cellulose ω-carboxyesters were designed and synthesized specifically for ASD preparations in Edgar lab that can meet the ASD expectations such as high Tg, recrystallization prevention and pH-triggered release due to the free -COOH groups. Rifampicin (Rif), Ritonavir (Rit), Efavirenz (Efa), Etravirine (Etra) and Quercetin (Que) cellulose ester ASDs were investigated in order to increase drug solubility, prevent release at low pH and controlled release of the drug at small intestine pH that can improve drug bioavailability, decrease needed drug content and medication price to make it affordable in third world countries, and extent pill efficiency period to improve patient quality of life and adherence to the treatment schedule. The studies were compared with cellulose based commercial polymers to prove the impact of the investigation and potential for the application. Furthermore, the in vitro results obtained were further supported by in vivo studies to prove the significant increase in bioavailability and show the extended release. The need of new cellulose derivatives for ASD applications extended the research area, the design and synthesis of a new class of polymers, alkyl cellulose ω-carboxyesters for ASD formulations investigated and the efficiency of the polymers were summarized to show that they have the anticipated properties. The polymers were synthesized by the reaction of commercial cellulose alkyl ethers with benzyl ester protected, monofunctional hydrocarbon chain acid chlorides, followed by removal of protecting group using palladium hydroxide catalyzed hydrogenolysis to form the alkyl cellulose wcarboxyalkanoate. Having been tested for ASD preparation, it was proven that the polymers were efficient in maintaining the drug in amorphous solid state, release the drug at neutral pH and prevent the recrystallization for hours, as predicted.
Characterization and Pharmacokinetics of Rifampicin Laden Carboxymethylcellulose Acetate Butyrate Particles
Casterlow, Samantha Alexandra (Virginia Tech, 2012-04-24)
Tuberculosis, caused by Mycobacterium tuberculosis (MTB), is a common and potentially lethal infectious human disease. Rifampicin is a front line anti-tuberculosis drug usually prescribed in combination with isoniazid, pyrazinamide and streptomycin for a period of six to seven months. When given orally for the treatment of MTB, rifampicin exhibits low bioavailability. Recent attempts to increase bioavailability and decrease dosage of anti-tuberculosis drugs have focused on creating polymer coated rifampicin nanoparticles. The research effort presented in this thesis evaluates the formation, characterization and relative bioavailability of rifampicin loaded carboxymethylcellulose acetate butyrate (CMCAB) particles using two different formulation techniques. Multi inlet vortex mixer (MIVM) and manual spray drying techniques were used to form the rifampicin containing CMCAB particles. Characterization studies and analyses of particles revealed differences in particle sizes, shapes and drug loading between the different particle formulation techniques. In vivo pharmacokinetic studies in BALB/c mice indicate that a single dose of rifampicin laden CMCAB spray dried particle formulations are able to improve pharmacokinetic parameters including relative bioavailability of rifampicin compared to that of the free drug form at the same concentration.
Characterization and regulation of the speA gene in Escherichia coli
Moore, Robert C. (Virginia Tech, 1990)
In Escherichia coli, the speA gene encodes biosynthetic arginine decarboxylase (ADC), the first enzyme in a putrescine biosynthetic pathway. ADC converts arginine to agmatine, which is hydrolyzed by agmatine ureohydrolase, encoded by the speB gene, to putrescine and urea. ADC is negatively regulated by mechanisms requiring either cAMP and cAMP receptor protein (CRP) or putrescine. A 3,236 base pair (bp) BalI-AccI restriction fragment derived from plasmid pKA5, which contains a 7.5 kilobase (kb) E. coli genomic fragment in pBR322, was subcloned into pGEM-3Z to produce plasmids pRM15 and pRM59. Both pRM15 and pRM59 overexpress ADC and the DNA sequence of the BalI-AccI fragment in each plasmid was determined. A 2,119 bp restriction fragment containing 730 bp 5’ to speA, the speA promoter, and 1,389 bp (463 amino acids) of the 5’-end of speA was used to construct transcriptional (pRM161 and pRM162) and translational (pRM65) speA-lacZ fusion plasmids. The presence of the predicted 160,000 and 157,000 dalton ADC
Characterization of Atypical Hemolytic Ornithobacterium rhinotracheale Isolates and Comparison with the Normal Non-Hemolytic Phenotype
Walters, Jessica Nicole (Virginia Tech, 2014-10-24)
Ornithobacterium rhinotracheale (ORT) is a Gram-negative bacterium that causes respiratory disease in poultry characterized by rhinitis, tracheitis, and pneumonia with mortality averaging 2-3%. In the Shenandoah Valley of Virginia, the seroprevalence for ORT among turkey flocks as determined by enzyme-linked immunosorbent assay (ELISA) was found to be 70.9% (n=175). Additionally, the seroprevalence for hemorrhagic enteritis virus (vaccine induced), Bordetella avium, and paramyxovirus-1 was 100%, 74.8%, and 6.3% respectively. No significant interactions were detected. The type strain of ORT is characteristically non-hemolytic at least for 96 hours at 37°C on Columbia Blood Agar. In recent years, atypical isolates that rapidly produce hemolysis have been isolated with increasing frequency. A variety of in vitro tests were used to determine differences between representative isolates of the hemolytic (H) and non-hemolytic (NH) phenotypes. Findings suggest that the H isolate contains a 4 kb plasmid similar to that found in Reimerella anatipestifer. No plasmid was found in the NH isolate. Differences in growth characteristics and resistance to tetracyclines were also noted. No differences in proteins, biochemical characteristics or 16S rRNA sequences were found, the latter serving as confirmation that the isolates were both ORT. Embryo inoculation was used to assess virulence. No significant differences were observed and most embryos survived through to the day of hatch (pip) despite the fact that ORT could be re-isolated. In turkey poults however, the H phenotype did appear less virulent. A significant depression in weight gain was noted for birds inoculated intratracheally with the NH isolate at 7 days post-inoculation (dpi). NH inoculates also had significantly higher antibody levels on ELISA at 14 and 21 dpi and histopathological lesion scores for lung at 7, 14, and 21 dpi. The NH isolate could be re-isolated from NH-inoculated poults through 21 dpi; whereas the H isolate could only be re-isolated through 14 dpi. In conclusion, there are numerous differences between the NH and H isolates found in the field with the H isolate appearing less virulent and as such, making it a potential vaccine candidate. The phenotypic difference appears to correlate with this, but may not suffice to explain it.
Characterization of Avirulent Turkey Hemorrhagic Enteritis Virus: A Study of the Molecular Basis for Variation in Virulence and the Occurrence of Persistent Infection
Beach, Nathan Matthew (Virginia Tech, 2006-08-04)
Hemorrhagic enteritis is a disease of turkeys caused by virulent strains of Turkey Hemorrhagic Enteritis Virus (THEV) resulting in depression, splenomegaly, intestinal hemorrhage, immunosuppression, and mortality. Avirulent strains that do not produce intestinal lesions and mortality are used in live-virus vaccines that protect turkeys from virulent field challenge. The cause for the difference in phenotype between virulent and avirulent strains is unknown. The full-length genome of the Virginia Avirulent Strain (VAS) of THEV was sequenced and compared to the genome sequence of a virulent field isolate from Israel. Genetic differences were found in seven viral genes. Further sequencing narrowed the focus from seven genes to three: ORF1, E3, and Fiber. Consistent variation in these genes between strains of THEV with different phenotypes strongly indicates these genes as key factors affecting virulence. THEV is an officially recognized member of the viral family Adenoviridae, genus Siadenovirus. The genomes of the members of the genus, THEV and Frog Adenovirus 1, are not well-characterized. The genome sequences of both members were compared for the prediction of genetic and structural elements. Common features were found that distinguish this genus from all other adenoviruses, and differences were found that possibly contribute to host specificity of the members. The VAS is known to stimulate a life-long protective antibody response, though viral replication is only of short duration. Several studies were undertaken to determine changes in virus location and serology over time. Viral DNA was detected in various tissues through 15 weeks post-infection in the presence of high antibody titers. THEV infection was found to be similar to the non-lytic persistent infections seen with human adenoviruses. Regardless of the mechanism involved in the persistent stimulation of antibodies in infected turkeys, the VAS was shown to be an ideal vector for use in a recombinant live-virus vaccine. The next step in THEV research should be the creation of a full-length infectious DNA clone, which could be used in the creation of a recombinant vaccine. The infectious clone would also allow for the systematic testing of genes that are suspected to be involved in virulence.
Characterization of Clinical and Commensal Escherichia coli Isolates from an Integrated Turkey Operation
Altekruse, Sean Fitzgerald (Virginia Tech, 2001-10-26)
Pathogenic E. coli infections cause approximately one quarter of disease losses in commercial turkey flocks. A small subgroup of E. coli causes most infections. Epidemiologic studies of this disease have been hindered by a lack of reliable markers to discriminate between pathogenic and fecal E. coli and by the diversity of poultry strains. Reliance on antimicrobials to control E. coli infections has caused widespread antimicrobial resistance. One hundred five clinical E. coli were obtained, and 1104 isolates were collected from fecal specimens of 20 flocks in an integrated turkey operation. Biochemical fingerprinting and antimicrobial susceptibility tests were performed on all isolates, and somatic antigen serologic testing and PCR for potential virulence genes were conducted on 299 strains including all clinical isolates and fecal isolates that had similar traits to clinical isolates. Most avian E. coli infections were caused by a few clonal strains that were uncommon in normal fecal flora. The potential virulence genes iss, K1 and tsh were detected more frequently among clinical than fecal isolates; however, the pattern of occurrence did not suggest that these genes were useful markers for identifying pathogenic strains. Syndromes consistent with colibacillosis were the most commonly reported illness and principal rationale for antimicrobial therapy in sampled flocks. Most clinical E. coli isolates were resistant to gentamicin, sulfamethoxazole and tetracycline. Although resistance to fluoroquinolones and β-lactam antibiotics occurred less frequently, the potential for resistance to emerge to these antimicrobials was evident. A Bayesian model to estimate sample size confirmed the diversity of avian fecal E. coli strains. Studies are needed to define risk factors for infection with and identify markers for avian pathogenic E. coli strains. These research priorities are complementary and may lead to the identification of new interventions to prevent this important infectious disease of poultry.

Browsing by Author "Sriranganathan, Nammalwar"

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