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Reexamining Cytolethal Distending Toxin's Host Cell Entry and Trafficking: The First Steps Down a Long RoadHuhn, George 01 January 2022 (has links) (PDF)
Cytolethal distending toxin (CDT) is a virulence factor produced by many Gram-negative bacteria, including Haemophilus ducreyi, the causative agent of genital chancroid. CDT is a heterotrimeric toxin consisting of a cell-binding domain (CdtA + CdtC) and a catalytic domain (CdtB) that has DNase activity. After binding to the host plasma membrane, CDT undergoes endocytosis and travels through the endosomes en route to the endoplasmic reticulum (ER). Only CdtB and CdtC arrive in the Golgi before moving to the ER. Only then does CdtB move into the nucleus, causing DNA damage that induces cell-cycle arrest and apoptosis. The previous CDT trafficking model suggested that CdtA remains on the plasma membrane while the CdtB/CdtC heterodimer is transported inside the cell. This model is based on experiments that were unable to detect CdtA inside the host cell. Here, we reexamine this model and demonstrate that CDT is internalized as an intact holotoxin. Furthermore, the acidification of the endosomes induces CdtA release from the CdtB/CdtC heterodimer. Using a cell-based ELISA, we report that CdtA facilitates CDT binding to the plasma membrane and demonstrate that nearly the entire pool of surface-bound toxin is internalized from the plasma membrane within 20 minutes. As determined by Western blot, all of internalized CdtA and most of internalized CdtB and CdtC are rapidly degraded in the lysosomes. CdtA colocalized with EEA-1, an early endosomal marker, before lysosomal degradation and was destabilized by the acidic conditions found in the early endosomes (pH 6.0-6.3). This led to its release from the CDT holotoxin as determined by circular dichroism and surface plasmon resonance. The results in this dissertation demonstrate that CDT is internalized as an intact holotoxin, with the acidic environment of endosomes triggering the separation of CdtA from the CdtB/CdtC heterodimer – the first stage of CDT's novel two-stage disassembly.
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Chitosan-Gallium Nanocomposite: Synthesis, Characterization and Antibacterial ActivityBhandari, Samjhana 01 January 2021 (has links) (PDF)
The emergence of multidrug-resistant (MDR) strains of bacteria and the lack of a novel class of antibiotics has become a global health concern. Pseudomonas aeruginosa is one common MDR bacteria responsible for nosocomial infections and related mortality worldwide. It has developed resistance against commonly available antibiotics and is in the WHO's priority list of bacteria for which new antibiotics are desperately needed. Currently there is a growing interest in developing metal and non-metal-based nanoparticles to target multidrug-resistant bacteria. The objective of this study is to evaluate the efficacy of a novel nanocomposite of two non-traditional antimicrobials: a metal (Ga-III) and a non-metal (chitosan nanoparticle) against P. aeruginosa. It was hypothesized that Gallium (III) nitrate in combination with hydrothermally-treated chitosan biopolymer, which has been widely studied for wound-healing applications, will exhibit synergistic antibacterial activity due to increased modes of action . The Ga(III) nitrate is an FDA approved drug that is used to lower blood levels of calcium in some cancer patients. The drug has been under clinical trials as an antimicrobial agent due to its Iron(III) mimicking property. The chitosan-gallium nanocomposite was synthesized using hydrothermal treatment in acidic conditions. Particle size, surface charge, optical properties, and chemical interactions between Ga (III) and chitosan were studied using Dynamic Light Scattering (DLS), FT-IR, UV-VIS and Fluorescence techniques. Microplate Alamar Blue Assay, Colony Forming Unit assay and Crystal Violet biofilm inhibition assay were conducted to study the antibacterial and antibiofilm properties of the nanocomposite in aqueous suspension (pH 5.7). UV-Visible and fluorescence spectra suggested the formation of optically-active chitosan-gallium nanocomposite, exhibiting broad absorption band (~290-325 nm) and emission at 422 nm. FTIR study confirmed the depolymerization of chitosan and gallium complexation through primary amine groups of chitosan. DLS analysis showed that primary particles have hydrodynamic diameter of 141 nm and average zeta potential of +46 mV at pH 5.7. Microplate alamar blue assay revealed the MIC of the composite to be 32 µg/ml while CFU assay determined the MBC to be 128 µg/ml against P.aeruginosa. Compared to the controls chitosan and gallium nitrate, the chitosan-gallium nanocomposite showed enhanced antibacterial efficacy. Furthermore, there was 21.5% inhibition of biofilm formation at 8 µg/ml of the composite. These preliminary findings suggest the potential of chitosan-gallium nanocomposite as an effective antibacterial agent against P.aeruginosa infections.
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Cholera Transmission Dynamic Model with Environmental Impacts of Plankton ReservoirsSarker, Sweety 01 January 2022 (has links) (PDF)
Cholera is an acute disease that is a global threat to the world and can kill people within a few hours if left untreated. In the last 200 years, seven pandemics occurred, and, in some countries, it remains endemic. The World Health Organization (WHO) declared a global initiative to prevent cholera by 2030. Cholera dynamics are contributed by several environmental factors such as salinity level of water, water temperature, presence of plankton especially zooplankton such as cladocerans, rotifers, copepods, etc. Vibrio cholerae (V. cholerae) bacterium is the main reason behind the cholera disease and the growth of V. cholerae depends on its host in the water reservoir which is the zooplankton because they share a symbiotic relationship. Investigating plankton bloom could be one of the key indicators for predicting cholera outbreaks. Though there are lots of models for cholera transmission dynamics, there are few existing models focused on the environmental impacts of plankton reservoirs. In this work, we have formulated a model of cholera transmission dynamics with the environmental impacts of plankton reservoirs. We have derived the basic reproduction number and discussed various alternative threshold parameters using the next generation matrix approach. Next, we have considered the existence and stability of the disease-free and positive equilibria. Our model analysis could be helpful for scientists to better understand the impact of environmental factors on cholera outbreaks and eventually for a possible prediction of the timing and location of the next cholera outbreak.
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Cerium Oxide Nanoparticles and Beneficial Bacteria: Two Novel Treatments for Eradicating Bacteria Associated with Prosthetic Infection?Conteh, Etta 01 January 2020 (has links)
The purpose of this thesis was to investigate new possible compounds that can be used to treat orthopedic implant infections caused by bacterial pathogens. Current treatment includes the use of antibiotics and the DAIR procedure, which stands for debridement, antibiotic therapy, irrigation, and retention. However, antibiotics are becoming less effective as a treatment due to bacteria gaining antibiotic resistance. Two bacterial species involved in orthopedic implant infections are P. aeruginosa and S. aureus. This thesis investigated cerium oxide nanoparticles and L. fermentum, a beneficial bacterium, as possible treatments to stop bacterial growth and the formation of biofilm. This was done by using the Kirby-Bauer disk diffusion method with P. aeruginosa and S. aureus. An XTT assay, a viability assay, was also performed on RAW macrophages to determine how these compounds affect human immune cells. Dextran-coated, 50/50, and 70/30 Ce4+/Ce3+ CNP (cerium oxide nanoparticles) at 1, 10, 20, 100, 500, and 800 µg/mL were investigated. These kinds of CNP were investigated to determine which type of CNP and at what concentration was most effective. The results show significant reductions (p-value ≤ 0.05) in infection totals for various treatments, such as 10 µg/mL 50/50 CNP (cerium oxide nanoparticles). This study adds to the field of research in investigating new treatments for orthopedic implant infections.
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Biochemical properties and regulation of human T-cell lymphotropic virus type 2 Rex protein function /Narayan, Murli January 2002 (has links)
No description available.
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A study of Campylobacter jejuni /Deibel, Kurt Eugene January 1985 (has links)
No description available.
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Analysis of Multi-Drug Resistant Mycobacterium tuberculosis Using Split DeoxyribozymesFergus, Abryana 01 January 2023 (has links) (PDF)
Globally, tuberculosis, a disease caused by the species of Mycobacterium tuberculosis (Mtb) complex, stands as a leading cause of death from a single infectious agent. Even though antituberculous drugs are available, treatment is challenging due to antibiotic resistance associated with point mutations in the bacterial genome. Resistance to the first-line antibiotics – rifampin and isoniazid – results in multidrug-resistant tuberculosis (MDR) requiring a more complicated treatment regimen. Timely and accurate identification of drug-resistant TB cases can help prescribe the most effective treatment and prevent the spread of infection. This research aims to develop an assay to discern multi-drug resistant forms of tuberculosis using a molecular assay based on split deoxyribozyme hybridization probes. For the probe design, a catalytic core of an RNA-cleaving deoxyribozyme is split into two parts, with each part elongated with a target-recognizing fragment ("arm"). In the presence of a fully complementary nucleic acid target, but not the one containing point mutations, the catalytic core of the deoxyribozyme can be re-formed due to the assembling of the target-probe complex, which recognizes and allows cleavage of a fluorophore- and quencher-labeled signal reporter, thereby ensuring increase in fluorescence in a target-dependent manner. The target-binding arms of the probes were optimized in terms of the signal-to-background ratio and selectivity of target recognition using synthetic targets corresponding to the fragments of the katG and rpoB genes with point-mutation sites implicated in the resistance to isoniazid and rifampin, respectively. The optimized probe sequences were used to interrogate the targets obtained by amplifying the correspondent fragments of the Mtb genes using Linear- After-The-Exponential (LATE) PCR, which allows efficient synthesis of a single-stranded amplicon. The signal triggered by cognate targets can be read using a portable fluorometer, which eliminates the need to use a sophisticated real-time PCR instrument for the assay. The success of the split deoxyribozyme assay can establish an affordable and user-friendly molecular diagnostic assay where a sample can be amplified and analyzed in a single tube.
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Etude de l'interaction des souches cliniques de Staphylococcus aureus avec une surface abiotiqueLiesse Iyamba, Jean-Marie 12 October 2012 (has links)
Staphylococcus aureus est l’une des causes majeures des infections communautaires et nosocomiales. Ce germe est responsable des infections aiguës et chroniques dont la plupart sont dues à sa capacité à adhérer sur les implants médicaux et à former un biofilm. D’après le Center for Disease Control and Prevention (CDC), 65% des infections bactériennes sont dues à la présence des biofilms. En outre, les infections associées aux biofilms constituent un problème majeur en clinique et sont la cause de l’augmentation de la mortalité et du coût de traitement. <p>Chez S. aureus, la formation du biofilm se déroule en deux phases principales: la première phase est l’attachement initial des cellules sur une surface, et la seconde est la multiplication et la formation d’une communauté structurée, mature et multicouche des cellules bactériennes. A l’intérieur du biofilm, les bactéries développent plusieurs types d’interactions et accroissent leur résistance aux agents antimicrobiens et aux défenses immunitaires de l’hôte, ce qui constitue un véritable problème de santé publique.<p>Les objectifs de ce travail étaient: (1) de caractériser des souches cliniques de S. aureus sensibles et résistantes à la méticilline (SASM et SARM) par une analyse phénotypique et génotypique; (2) d’étudier la répercussion des propriétés de membranes sur l’adhésion et la formation du biofilm; (3) de rechercher un moyen pour la prévention de l’adhésion et de la formation d’un biofilm sur une surface abiotique.<p>Deux souches de référence et 12 souches cliniques de S. aureus (4 SARM et 8 SASM) collectées à Kinshasa ont été caractérisées par la résistance aux antibiotiques, par le typage d’une région X du gène spa codant pour la protéine A de S. aureus et par la détermination des propriétés de la surface cellulaire. L’adhésion à une surface et la formation du biofilm ont été respectivement étudiées par la méthode de Biofilm Ring Test® (BFRT®) et par celle de coloration au cristal violet. Ces deux méthodes ont été utilisées pour l’évaluation de l’activité de l’acide éthylèneglycol tétraacétique (EGTA) sur l’adhésion et la formation du biofilm.<p>L’amplification par PCR (Polymerase Chain Reaction) d’un fragment du gène mecA a confirmé l’appartenance des souches étudiées au phénotype SARM ou SASM. L’analyse par PCR des répétitions présentes dans la séquence codante de la protéine A de S. aureus (spa typing) a permis d’identifier 7 types spa pour toutes les souches SARM et SASM2 dont un nouveau type spa t10715.<p>Les résultats du test MATS (Microbial Adhesion to Solvents) ont montré que les souches de S. aureus sensibles et résistantes à la méticilline possédaient des propriétés membranaires différentes susceptibles de modifier l’adhésion ou la formation d’un biofilm. Les souches sensibles à la méticilline avaient une paroi plus hydrophobe que celle de souches résistantes dont la paroi était acide, acceptrice d’électrons. <p>Les études sur l’interaction entre des souches cliniques de S. aureus et des surfaces abiotiques ont montré que les souches SARM adhéraient moins vite à une surface et formaient moins de biofilms que les souches SASM. <p>Les études de l’activité de l’EGTA, un chélateur des cations divalents, ont montré que ce dernier inhibait l’adhésion de souches SARM à une surface abiotique comme un tube de cathéter et empêchait la formation d’un biofilm par toutes les souches sensibles et résistantes à la méticilline. Cette action inhibitrice sur la formation du biofilm était réversible en présence d’un cation divalent (magnésium, calcium ou manganèse). <p>L’ensemble des données obtenues sur l’adhésion et la formation du biofilm par la méthode de BFRT® et par celle de coloration au cristal violet ont montré que le BFRT® était la méthode de choix dans les études de l’adhésion initiale des souches de S. aureus sur une surface abiotique. Le BFRT® pourrait être utilisée dans le screening rapide de produits contre l’adhésion bactérienne à la surface des implants médicaux à base de polystyrène ou de silicone.<p> / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished
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A comparative analysis of mathematical models for HIV epidemiologyDe la Harpe, Alana 04 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: HIV infection is one of the world’s biggest health problems, with millions of
people infected worldwide. HIV infects cells in the immune system, where it
primarily targets CD4+ T helper cells and without treatment, the disease leads
to the collapse of the host immune system and ultimately death. Mathematical
models have been used extensively to study the epidemiology of HIV/AIDS.
They have proven to be effective tools in studying the transmission dynamics of
HIV. These models provide predictions that can help better our understanding
of the epidemiological patterns of HIV, especially the mechanism associated
with the spread of the disease.
In this thesis we made a functional comparison between existing epidemiological
models for HIV, with the focus of the comparison on the force of infection
(FOI). The spread of infection is a crucial part of any infectious disease, as
the dynamics of the disease depends greatly on the rate of transmission from
an infectious individual to a susceptible individual.
First, a review was done to see what deterministic epidemiological models
exist. We found that many manuscripts do not provide the necessary information
to recreate the authors’ results and only a small amount of the models
could be simulated. The reason for this is mainly due to a lack of information
or due to mistakes in the article.
The models were divided into four categories for the analysis. On the basis of
the FOI, we distinguished between frequency- or density-dependent transmission,
and as a second criterion we distinguished models on the sexual activity
of the AIDS group. Subsequently, the models were compared in terms of their
FOI, within and between these classes. We showed that for larger populations,
frequency-dependent transmission should be used. This is the case for HIV,
where the disease is mainly spread through sexual contact.
Inclusion of AIDS patients in the group of infectious individuals is important
for the accuracy of transmission dynamics. More than half of the studies
that were selected in the review assumed that AIDS patients are too sick to
engage in risky sexual behaviour. We see that including AIDS patients in the
infectious individuals class has a significant effect on the FOI when the value
for the probability of transmission for an individual with AIDS is bigger than
that of the other classes.
The analysis shows that the FOI can vary depending on the parameter values
and the assumptions made. Many models compress various parameter values
into one, most often the transmission probability. Not showing the parameter
values separately makes it difficult to understand how the FOI works, since
there are unknown factors that have an influence. Improving the accuracy
of the FOI can help us to better understand what factors influence it, and
also produce more realistic results. Writing the probability of transmission
as a function of the viral load can help to make the FOI more accurate and
also help in the understanding of the effects that viral dynamics have on the
population transmission dynamics. / AFRIKAANSE OPSOMMING: MIV-infeksie is een van die wêreld se grootste gesondheidsprobleme, met miljoene
mense wat wêreldwyd geïnfekteer is. MIV infekteer selle in die immuunstelsel,
waar dit hoofsaaklik CD4+ T-helperselle teiken. Sonder behandeling lei die
siekte tot die ineenstorting van die gasheer se immuunstelsel en uiteindelik sy
dood. Wiskundige modelle word breedvoerig gebruik om die epidemiologie van
MIV/vigs te bestudeer. Die modelle is doeltreffende instrumente in die studie
van die oordrag-dinamika van MIV. Hulle lewer voorspellings wat kan help
om ons begrip van epidemiologiese patrone van MIV, veral die meganisme wat
verband hou met die verspreiding van die siekte, te verbeter.
In hierdie tesis het ons ‘n funksionele vergelyking tussen bestaande epidemiologiese
modelle vir MIV gedoen, met die fokus van die vergelyking op die
tempo van infeksie (TVI). Die verspreiding van infeksie is ‘n belangrike deel
van enige aansteeklike siekte, aangesien die dinamika van die siekte grootliks
afhang van die tempo van oordrag van ‘n aansteeklike persoon na ‘n vatbare
persoon.
‘n Oorsig is gedoen om te sien watter kompartementele epidemiologiese modelle
alreeds bestaan. Ons het gevind dat baie van die manuskripte nie die nodige
inligting voorsien wat nodig is om die resultate van die skrywers te repliseer
nie, en slegs ‘n klein hoeveelheid van die modelle kon gesimuleer word. Die
rede hiervoor is hoofsaaklik as gevolg van ‘n gebrek aan inligting of van foute
in die artikel.
Die modelle is in vier kategorieë vir die analise verdeel. Op grond van die
TVI het ons tussen frekwensie- of digtheidsafhanklike oordrag onderskei, en
as ‘n tweede kriterium het ons die modelle op die seksuele aktiwiteit van die
vigs-groep onderskei. Daarna is die modelle binne en tussen die klasse vergelyk
in terme van hul TVIs. Daar is gewys dat frekwensie-afhanklike oordrag
gebruik moet word vir groter bevolkings. Dit is die geval van MIV, waar die
siekte hoofsaaklik versprei word deur seksuele kontak.
Die insluiting van die vigs-pasiënte in die groep van aansteeklike individue
is belangrik vir die akkuraatheid van die oordrag-dinamika van MIV. Meer
as helfte van die uitgesoekte studies aanvaar dat vigs-pasiënte te siek is om
betrokke te raak by riskante seksuele gedrag. Ons sien dat die insluiting van
vigs-pasiënte in die groep van aansteeklike individue ‘n beduidende uitwerking
op die TVI het wanneer die waarde van die waarskynlikheid van oordrag van
‘n individu met vigs groter is as dié van die ander klasse.
Die analise toon dat die TVI kan wissel afhangende van die parameter waardes
en die aannames wat gemaak is. Baie modelle voeg verskeie parameter waardes
bymekaar vir die waarskynlikheid van oordrag. Wanneer die parameter waardes
nie apart gewys word nie, is dit moeilik om die werking van die TVI te verstaan,
want daar is onbekende faktore wat ‘n invloed op die TVI het. Die
verbetering van die akkuraatheid van die TVI kan ons help om die faktore
wat dit beïnvloed beter te verstaan, en dit kan ook help om meer realistiese
resultate te produseer. Om die waarskynlikheid van oordrag as ‘n funksie van
die viruslading te skryf kan help om die TVI meer akkuraat te maak en dit kan
ook help om die effek wat virale dinamika op die bevolkingsoordrag-dinamika
het, beter te verstaan.
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Assessment of the factors associated with HIV risk behaviours amongst women in Livingstone, Southern Province, Zambia.Chigali, George M January 2006 (has links)
<p>The aim of this study was to assess the factors associated with HIV risk behaviours in women in Livingstone, Zambia. A cross-sectional analytical survey using a structured questionnaire was carried out in two sites in Livingstone, which were selected on the basis of differences in socio-economic status. Married women and women in the urban community are at high risk of contracting HIV and every effort should be made to ensure that HIV/AIDS programmes help to reduce their vulnerability to HIV infection.</p>
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