Respiratory pathogens in thoroughbred foals up to one year of age on a stud farm in South Africa

Picard, J.A.

27 February 2006

The project was undertaken to monitor a group of 30 foals on a farm both clinically and microbiologically from birth until one year of age, to determine the aetiology of upper respiratory tract infections and to establish immune profiles of some of the known respiratory viral pathogens. One to two months prior to the birth of their foals, blood for serology was collected from the mares. The same specimens were collected from the foals just after birth, prior to suckling and a day after suckling. Thereafter the foals were examined monthly for the presence of respiratory disease and specimens taken. The following specimens were collected from each foal: three nasopharyngeal swabs, (one for virus isolation, one for bacteria and fungus isolation, and one for mycoplasma isolation) and blood that was allowed to clot. Blood was collected in heparin from sick foals with elevated rectal temperatures. Virus isolation was done on roller tube cultures of equine embryonic lung (EEL), Vero cells and rabbit kidney 13 (RK13) cells. The bacteria (including mycoplasmas) and fungi were cultured from the swabs and identified using a variety of traditional methods. The serum neutralization test (SNT) was used to detect antibodies to equid herpesvirus 1 (EHV-1), equid herpesvirus 4 (EHV-4), equine rhinovirus 1 (ERV-1), equine rhinovirus 2 (ERV-2) and equine adenovirus 1 (EAdV-1). The complement fixation test (CFT) was used to detect antibodies to EHV-1 and EHV-4 and the haemagglutination inhibition test (HIT) antibodies to equine influenzavirus (EIV). Only EHV-4 was cultured from the nasopharyngeal swabs of nine foals when they were 5 to 6 months of age and from one foal two months later. A wide variety of bacteria and fungi were cultured and it was established that coagulase-negative staphylococci, viridans streptococci, Moraxella spp. and Flavobacterium spp. predominated in most of the samples. Several potential bacterial pathogens were isolated but the most common were Streptococcus equi subsp. zooepidemicus, Actinobacillus equuland Staphylococcus aureus. Colostrum-derived antibodies were detected for all the viruses in all but two of the foals. It was found that the foals had similar or slightly higher titres than their mothers. The levels declined in direct proportion to what they initially were and were depleted by the time the foals were 2 to 7 months of age. Antibodies to natural infection was detected to EHV-4, ERV-2 and EAdV-1. A rise in antibody titres occurred when the foals were 5 to 6 months of age, two months later and when they were one year of age. Antibodies resulting from immunization was detected to EHV-1, EHV-4 and EIV. It was established that the most important virus causing upper respiratory tract disease of the foals from 5 to 12 months of age was EHV-1 with EAdV-1 playing a minor role. These viruses caused repeated bouts of infection with a two to five months interval. Streptococcus equi subsp. zooepidemicus was considered to be the most important secondary pathogen. Prior to this period most of the foals were healthy with only a few suffering from upper respiratory disease. The aetiology was not determined in these cases, but based on the bacteriology results, it was suspected that some of them were suffering from bacterial infections. / Dissertation (MSc (Veterinary Science))--University of Pretoria, 2005. / Veterinary Tropical Diseases / unrestricted

Infectious respiratory tract disease

Foals

Equid herpesvirus 4

Equine adenovirus

Equine rhinovirus 1

Equine rhinovirus 2

Equine influenzavirus

South africa

Equid herpesvirus 1

UCTD

Characterization of the Mucosal and Systemic Immune Responses Following Virus Vector-Based Gene Delivery into the Colonic Mucosa

Safroneeva , Ekaterina

January 2009

While adenovirus (Ad) vectors have been shown to elicit potent antigen-specific T cell responses, the kinetics and nature of antigen-specific mucosa! and systemic T-cell responses has rarely been examined, especially following mucosal administration of Ad-based vectors. In the present studies, the phenotypic and functional characterization of antigen-specific CD8+ T cell responses following intrarectal (i.r.) vaccination with an Ad vector expressing Gallus gallus ovalbumin (OVA) was conducted. The frequencies of OVA-specific CD8+ T cells was maximal at 2 weeks post-vaccination in all tissues examined and then declined, demonstrating normal expansion and contraction kinetics. CD8+ T cells induced in the course of immunization exhibited phenotypic characteristics of effector memory T cells including up-regulation of the cell surface molecules CD43, CD44 and a low level of expression of CD127 at both local and systemic sites. While the discordance between the number of tetramer-reactive and cytokine-producing OVA-specific CD8+ T cells was observed, CD8+ T cells appeared to be fully functional in vivo. Upon secondary antigen exposure, the CD8+ T cell population expanded dramatically, particularly at the mucosa! surfaces. In addition, the CD8+ T cell response generated in the course of i.r. priming protected mice from intravaginal (i. vag.) vaccinia virus one month after immunization, thus underscoring the importance of inducing a tissue-resident effector memory T cell subset for protection against pathogens at mucosal surfaces. In developing future vaccines for mucosal diseases, the induction of a tissue-resident effector memory T cell subset should be one of the immunization objectives. Lentiviral vectors represent an attractive mode of genetic vaccination. Most commonly used, vesicular stomatitis virus glycoprotein (VSVG)-pseudotyped lentiviral vectors do not efficiently infect epithelial cells from the apical side, and, therefore, are not suitable as mucosa! vaccines. In the present studies, Ebola Zaïre strain glycoprotein (EboZ)-pseudotyped lentiviral vectors, which have been previously used to deliver transgene to the lung epithelium, were delivered i.r. and evaluated as a mucosal booster vaccine. Rectal delivery of EboZ-pseudotyped lentiviral vectors expressing β-galactosidase (β-gal) had resulted in low, but detectable levels of β-gal expression 2 weeks after administration. When delivered on its own, EboZ-pseudotyped lentivirus did not prime detectable antigen-specific immune response. However, when delivered i.r. 30 days after i.r. Adβ-gal immunization, a significant enlargement (boost) of β-gal-specific CD8+ T cell responses, especially in the colonic lamina propria (LP), was observed as compared to the delivery of EboZ-pseudotyped vector encoding different transgenes or VSVG-pseudotyped lentivirus expressing β-gal. When these animals were i. vag. challenged with vaccinia virus expressing β-gal, a dramatic expansion of β-gal-specific CD8+ T cells, especially in the vaginal tract, was observed. In addition, this prime and boost strategy protected the mice from i. vag. vaccinia virus challenge. Therefore, i.r. Ad-based priming followed by i.r. EboZ-pseudotyped lentiviral boosting was an effective strategy for eliciting protective mucosal CD8+ T cell responses. / Thesis / Doctor of Philosophy (PhD)

mucosal and systemic T-cell responses

CD8+ T cells

immunization

vaccination

cell population

protein expression

lentiviral vectors

booster vaccine

STRUCTURAL INSIGHTS INTO RECOGNITION OF ADENOVIRUS BY IMMUNOLOGIC AND SERUM FACTORS

Flatt, Justin Wayne

11 June 2014

No description available.

Biology

Biophysics

Immunology

Virology

adenovirus

cryo-electron microscopy

macromolecular complexes

virus

immunology

innate immunity

alpha defensin

coagulation FX

structural biology

hybrid methods

computational modeling

Fetal Mesenchymal Stem Cells Achieve Greater Gene Expression in Vitro, but Less Effective Osteoinduction in Vivo than Adult Mesenchymal Stem Cells

Santiago-Torres, Juan E.

26 December 2014

No description available.

Biology

Biomedical Research

Cellular Biology

Comparative

Health

Medicine

Therapy

AN EXAMINATION OF THE RESPONSE OF MAMMALIAN CELLS TO OXIDATIVE DNA DAMAGE IN RELATION TO AGEING AND NEURODEGENERATION USING RECOMBINANT ADENOVIRUS VECTORS

Leach, Derrik M.

04 1900

<p>Ageing is associated with a progressive decline in cognitive and physical function, as well as neurodegeneration. The DNA damage theory of ageing postulates that phenotypes associated with chronological ageing result from a time dependent accumulation of DNA damage caused by endogenously generated reactive oxygen species (ROS). In this work, we have used a host cell reactivation (HCR) technique to examine base excision repair (BER), the major pathway for removal of ROS generated damage, in fibroblasts from normal individuals and from patients with Cockayne syndrome (CS). The HCR assay utilizes an adenovirus encoded β-galactosidase (β-gal) reporter gene treated with methylene blue plus visible light (MB+VL) to measure BER of 7,8-dihydro-8-oxoguanine (8-oxoG). The results presented here demonstrate that host cell repair mechanisms remove MB+VL generated 8-oxoG from viral DNA and that reactivation of gene expression correlates with cellular repair capacity and requires CSA and CSB. Using the HCR assay, we demonstrate that culturing of primary human fibroblasts in media containing low levels of MB increases BER, suggesting increased DNA repair capacity may play a role in the therapeutic application of MB in Alzheimer’s disease treatment. We also demonstrate that BER decreases <em>in vitro </em>with increasing number of cell divisions, and that HCR of the damaged reporter gene is lower in fibroblasts from older donors. Using a second β-gal reporter gene assay, the enhanced expression assay, we were unable to show a relationship between the degree of decreased BER in CS and severity of clinical phenotype. However, we identified an interaction between CSB and the telomere protein TRF2. Overexpression of TRF2 leads to decreased nucleotide excision repair of UVC induced damage in a CSB dependent manner. We also demonstrate defective telomeres in the absence of functional CSB. The data presented in this work provide additional support for the DNA damage theory of ageing.</p> / Doctor of Philosophy (PhD)

DNA damage theory of ageing

base excision repair

host cell reactivation

recombinant adenovirus

8-oxoguanine

Cockayne syndrome

Biology

Cell Anatomy

Molecular Biology

Biology

Construction of an Adenovirus Expression Vector Containing the T4 Den V Gene, Which Can Complement the DNA Repair Deficiency of Xeroderma Pigmentosum Fibroblasts / Construction of an AD 5 Vector Containing the T4 Den V Gene

Colicos, Michael, A.

08 1900

This study demonstrates the use of an adenovirus vector system to study the effect of a DNA repair gene on untransformed human fibroblasts. The bacteriophage T4 pyrimidine dimer DNA glycosylase (den V) gene has been inserted into the E3 region of human adenovirus type 5. The resulting recombinant virus Ad Den V was determined to be producing correctly initiated RNA from the RSV 3' LTR promoter used in the den V expression cartridge inserted into the virus. The effect of the den V gene product on human fibroblasts 'liras examined by assaying for the percent host cell reactivation (%HCR) of Vag production for UV irradiated Ad Den V in comparison to that for a control virus. It was shown that the %HCR was significantly greater for Ad Den V as compared to the control virus in xeroderma pigmentosum (XP) cells. UV survival of adenovirus in XP cells exhibited a two component nature. Introduction of the den V gene into XP group A cells increased the D0 value of the first component of the viral survival curve to a level similar to that of XPC cells, which showed no change in this component irrespective of the presence of the den V gene. It has been suggested that the den V gene is able to partially complement the deficiency in some XP cells because of its small size, allowing it to gain access to the DNA damage site where as the cellular repair enzyme complex can not. Since XPC cells are proficient in their alteration of DNA secondary structure prior to DNA excision repair, these results are consistant with the hypothesis that the first component of UV viral survival curves reflects the pathway involved in accessing the damaged sites. The manuscript of a paper has been included as an appendix. The work theorizes on the origin of mammalian immune system diversity and bacteriophage lambda, and their possible relationship to prokaryotic DNA repair genes. / Thesis / Master of Science (MS)

Glycoconjugates : synthesis and investigation of carbohydrate-protein interactions

Spjut, Sara

January 2010

To study the functions of glycoconjugates in biological systems reliable and efficient protocols for glycoconjugate synthesis are needed. To reach this goal we have developed methods for solid-phase synthesis of glycoconjugates that can be monitored with gel-phase 19F spectroscopy using fluorinated linkers, building blocks, and protecting groups. We have developed a new fluorine containing linker suitable for solid-phase synthesis of glycoconjugates. The linker was more acid-labile than similar linkers in order to enable cleavage under mild conditions of the target compound from the linker resin.  A carbamate-based strategy has been applied to attach a spacer carrying an amino group to a fluorinated Wang linker for synthesis of amino-functionalized glycoconjugates using thioglycoside donors with fluorinated protective groups. Cleavage from the solid support was performed with trifluoroacetic acid and subsequent protecting group removal gave the target compound. The terminal amine was conjugated with didecyl squarate and this derivative can be attached to various proteins and solid surfaces carrying primary or secondary amines. To evaluate this methodology we have immobilized glycoconjugates in amino-functionalized microtiter plates and successfully probed them with lectin. In addition, a novel fluorine containing protecting group has been designed, synthesized and evaluated. The protecting group was used for protection of the unreactive 4-OH in a galactose building block that was applied in the synthesis of 6-aminohexyl galabioside and was removed with TBAF in THF. Adenovirus serotype 8 (Ad8), Ad19, and Ad37 cause the severe ocular infection, epidemic keratoconjunctivities (EKC). During infection, the adenoviruses interact with sialic acid containing glycoconjugates on the epithelial cells via fiber structures extending from the viral particles. The virus particle most likely binds to the host cell in a multivalent way by simultaneously using multiple fiber proteins and binding sites. Multivalent sialic acid containing conjugates could efficiently inhibit Ad37 cell attachment and subsequent infection of human corneal epithelial (HCE) cells. Three compact tri- and tetravalent sialic acid conjugates were prepared and evaluated as inhibitors of adenoviral host cell attachment and subsequent infection and all conjugates were potent as anti-adenoviral agents. The conjugates can readily be synthesized from accessible starting materials. A crystal structure of the Ad37 fiber knob protein and the trivalent sialic acid conjugate showed that the three binding sites were all occupied by one sialic acid residue each.

Glycoconjugates

Carbohydrates

Galactose

Glucose

Solid-phase synthesis

SPOS

Glycosylation

Gel-phase 19F NMR spectroscopy

Fluorinated linker

Carbohydrate array

Microtiter plates

Carbohydrate-protein interactions

carbamate linker

Fsec

Protecting group

Fluorinated protecting group

Multivalent glycoconjugates

Adenovirus

Ad37

Epidemic keratoconjunctivitis

EKC

Sialic acid

Adenovirus inhibitor

Trivalent

Tetravalent

X-ray crystal structure

Bioorganic chemistry

Bioorganisk kemi

Entwicklung von Rekombinase-Polymerase-Amplifikations-Nachweisverfahren für virale Erreger von Atemwegsinfektionen / Development of a panel of recombinase polymerase amplification assays for detection of respiratory viruses

Ehnts, Kai Ilmo

06 August 2013

No description available.

610

RPA

Rekombinase-Polymerase-Amplifikation

Influenza

Adenovirus

Schnelltest

Nukleinsäurenachweisverfahren

Grippe

Atemwegsinfektion

RPA

recombinase polymerase amplification

Influenza

Adenovirus

PoC

point-of-care diagnostic

detection of nucleic acid

PCR

Nucleic Acid Amplification Test

NAAT

Flu

Acute respiratory infection

Medizin (PPN619874732)

Diagnostik {Medizin} (PPN619875739)

Pathogen entry mechanisms and endocytic responses to plasma membrane damage

Nygård Skalman, Lars

January 2017

Endocytosis is a fundamental cellular process by which cells transport material from the outside to the inside of the cell through the formation of membrane invaginations that bud off from the plasma membrane. This process is important for nutrient uptake, regulating cell surface receptors and the overall plasma membrane composition. Cells have several different types of endocytic pathways where clathrin- mediated endocytosis is the most studied. Importantly, pathogens and secreted virulence factors bind to cell surface receptors and hijack the endocytic pathways in order to enter host cells. Depending on their size and molecular composition, pathogens and virulence factors are thought to make use of distinct endocytic pathways into the cell. This thesis focuses on early host cell interactions with virus, bacterial membrane vesicles and a pore-forming toxin, with a particular emphasis on endocytic mechanisms and plasma membrane repair. During entry of pathogens, it is thought that interactions with specific cell surface molecules drive the recruitment of endocytic proteins to the plasma membrane. Viruses possess a very defined molecular composition and architecture, which facilitate specificity to these interactions. We found that Adenovirus 37, a human ocular pathogen, binds to αVβ1 and α3β1 integrins on human corneal epithelial cells and that this interaction is important for infection. In contrast to viruses, membrane vesicles shed from Helicobacter pylori are heterogeneous in size and molecular composition. These vesicles harbour various adhesins and toxins that may facilitate binding to the cell surface and recruitment of different endocytic pathways. We developed a quantitative internalization assay and showed that the H. pylori vesicles were internalized mainly via clathrin-mediated endocytosis but were also capable of exploiting other endocytic pathways. Damage to the plasma membrane disrupts cellular homeostasis and can lead to cell death if not repaired immediately. Although endocytic mechanisms have been shown to be important for plasma membrane repair, little is known about their specific role. Listeriolysin O (LLO) is a bacterial toxin that can form pores in the plasma membrane and disrupt cellular homeostasis. We developed a reporter system for real-time imaging of the endocytic response to LLO pore formation. We found that two clathrin-independent endocytic pathways were important for plasma membrane repair. However, they were not directly involved in removing LLO pores from the plasma membrane. Our data suggests that these endocytic systems might rather influence membrane repair by their ability to regulate the plasma membrane composition, shape and tension. In conclusion, this thesis describes how pathogens and their virulence factors make use of specific mechanisms to enter host cells as well as revealing new insights on the role of the endocytic pathways in plasma membrane repair.

Endocytosis

plasma membrane

pathogens

virus

bacterial membrane vesicles

Helicobacter pylori

adenovirus 37

listeriolysin O

pore-forming toxins

membrane repair

Cell and Molecular Biology

Cell- och molekylärbiologi

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Microbiology

Mikrobiologi

Cavitation-enhanced delivery of therapeutics to solid tumors

Rifai, Bassel

January 2011

Poor drug penetration through tumor tissue has emerged as a fundamental obstacle to cancer therapy. The solid tumor microenvironment presents several physiological abnormalities which reduce the uptake of intravenously administered therapeutics, including leaky, irregularly spaced blood vessels, and a pressure gradient which resists transport of therapeutics from the bloodstream into the tumor. Because of these factors, a systemically administered anti-cancer agent is unlikely to reach 100% of cancer cells at therapeutic dosages, which is the efficacy required for curative treatment. The goal of this project is to use high-intensity focused ultrasound (HIFU) to enhance drug delivery via phenomena associated with acoustic cavitation. ‘Cavitation’ is the formation, oscillation, and collapse of bubbles in a sound field, and can be broadly divided into two types: ‘inertial’ and ‘stable’. Inertial cavitation involves violent bubble collapse and is associated with phenomena such as heating, fluid jetting, and broadband noise emission. Stable cavitation occurs at lower pressure amplitudes, and can generate liquid microstreaming in the bubble vicinity. It is the combination of fluid jetting and microstreaming which it is attempted to explore, control, and apply to the drug delivery problem in solid tumors. First, the potential for cavitation to enhance the convective transport of a model therapeutic into obstructed vasculature in a cell-free in vitro tumor model is evaluated. Transport is quantified using post-treatment image analysis of the distribution of a dye-labeled macromolecule, while cavitation activity is quantified by analyzing passively recorded acoustic emissions. The introduction of exogenous cavitation nuclei into the acoustic field is found to dramatically enhance both cavitation activity and convective transport. The strong correlation between inertial cavitation activity and drug delivery in this study suggested both a mechanism of action and the clinical potential for non-invasive treatment monitoring. Next, a flexible and efficient method to simulate numerically the microstreaming fields instigated by cavitating microbubbles is developed. The technique is applied to the problem of quantifying convective transport of a scalar quantity in the vicinity of acoustically cavitating microbubbles of various initial radii subject to a range of sonication parameters, yielding insight regarding treatment parameter choice. Finally, in vitro and in vivo models are used to explore the effect of HIFU on delivery and expression of a biologically active adenovirus. The role of cavitation in improving the distribution of adenovirus in porous media is established, as well as the critical role of certain sonication parameters in sustaining cavitation activity in vivo. It is shown that following intratumoral or intravenous co-injection of ultrasound contrast agents and adenovirus, both the distribution and expression of viral transgenes are enhanced in the presence of inertial cavitation. This ultrasound-based drug delivery system has the potential to be applied in conjunction with a broad range of macromolecular therapeutics to augment their bioavailability for cancer treatment. In order to reach this objective, further developmental work is recommended, directed towards improving therapeutic transducer design, using transducer arrays for treatment monitoring and mapping, and continuing the development of functionalized monodisperse cavitation nuclei.

615.19