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Immunology and Infectious Disease Commons™
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Articles 1 - 5 of 5
Full-Text Articles in Immunology and Infectious Disease
Type Ix Secretion System : Characterization Of An Effector Protein And An Insight Into The Role Of C-Terminal Domain Dimeration In Outer Membrane Translocation., Lahari Koneru
Electronic Theses and Dissertations
Porphyromonas gingivalis and Tannerella forsythia are two of the primary pathogens that are associated in the etiology and progression of chronic periodontitis. In T. forsythia, KLIKK proteases are the recently identified group of proteolytic enzymes that are secreted through Type IX secretion system (T9SS). Among, these KLIKK proteases a synergistic relationship was observed between karilysin and mirolysin in invading the host complement system for the survival of the bacteria. Since, karilysin has been already characterized, in this study we propose to study about mirolysin through structural, biochemical and biological characterization. The obtained results from the experiments has shown the …
Targeting Fas Pathway As An Effective Means Of Inducing Tolerance To Pancreatic Islets., Kyle Blake Woodward
Targeting Fas Pathway As An Effective Means Of Inducing Tolerance To Pancreatic Islets., Kyle Blake Woodward
Electronic Theses and Dissertations
Signaling through Fas/FasL is critical to immune homeostasis and tolerance to self-antigens. SA-FasL is a chimeric protein of FasL and streptavidin. SA-FasL exists as oligomers with potent apoptotic function on Fas expressing immune cells and tightly binds to biotinylated surfaces. Islet grafts engineered to transiently display SA-FasL on their surface established tolerance in allogeneic recipients with a short course of rapamycin. We hypothesized that SA-FasL on the islet allograft will induce apoptosis in alloreactive T effector (Teff) cells and phagocytes clearing apoptotic bodies will produce tolerogenic molecules, such as TGF-β, that will lead to the generation and/or expansion of Treg …
Characterization Of Filifactor Alocis And Its Immune Evasion Strategies Employed Against Human Neutrophils., Cortney Linn Armstrong
Characterization Of Filifactor Alocis And Its Immune Evasion Strategies Employed Against Human Neutrophils., Cortney Linn Armstrong
Electronic Theses and Dissertations
Periodontal disease is among the most common of inflammatory conditions and is caused by bacterial and host derived factors. The presence of bacteria drives the recruitment of neutrophils, professional phagocytes, to migrate to specific oral sites where they produce potent antimicrobials to kill their target. However, this inflammation and production of antimicrobials must be strictly regulated to minimize collateral host tissue damage. Human neutrophils recognized the oral pathogen Filifactor alocis through Toll-like receptor (TLR) 2 and upon binding, activated both p38 MAPK and ERK signaling pathways, known to be involved in neutrophil cell migration and degranulation. F. alocis also stimulated …
Function Of The Enterobactin Operon Of A. Actinomycetemcomitans In The Presence Of Catecholmines And Iron., Taylor Johnson
Function Of The Enterobactin Operon Of A. Actinomycetemcomitans In The Presence Of Catecholmines And Iron., Taylor Johnson
Electronic Theses and Dissertations
Background: Aggregatibacter actinomycetemcomitans (Aa) possesses a two-component system, QseBC, which is key in biofilm formation/virulence and is activated in the presence of iron-catecholamine complexes. Aa does not synthesize enterobactin, a catechol-based siderophore, yet possesses the machinery for recognition and uptake. We hypothesize that Aa is able to acquire iron by catecholamine mediation through the enterobactin receptor/transporter. Methods: By insertional mutation, we attempted to delete the enterobactin permease from the genome using suicide vector pJT1. A growth curve of truncated mutant ΔfepA was also conducted to observe growth in the presence of iron and catecholamines. Statistical significance was determined by ANOVA …
Exploring A Novel Nf-ĸb- Inhibiting Nanoparticle For Periodontitis Therapy., Kameswara Satya Srikanth Upadhyayula
Exploring A Novel Nf-ĸb- Inhibiting Nanoparticle For Periodontitis Therapy., Kameswara Satya Srikanth Upadhyayula
Electronic Theses and Dissertations
Periodontitis is an infection-driven inflammatory disease characterized by gingival inflammation and bone loss. The NF-ĸB signaling pathway is pivotal in osteoclastogenesis and infection-induced pro-inflammatory responses. The use of nanoparticles as a vehicle to deliver drug increases stability, loading capacity, and facilitates transmembrane transportation. The hypothesis was that a novel nanoparticle carrying therapeutic NBD inhibitory peptides (NBD-nanoparticles) will inhibit measures of periodontal disease. In this project, we tested the nanoparticles for their ability to directly inhibit osteoclastogenesis and inflammation as an original strategy for periodontitis therapy. We also tested the capability of the nanoparticles to inhibit gingival inflammation and alveolar bone …