Molecular Characterization Of The Gingipains Of Porphyromonas Gingivalis
Funder
National Health and Medical Research Council
Funding Amount
$394,000.00
Summary
Chronic periodontitis is a bacteria-associated inflammatory disease of the supporting tissues of the teeth, which results in the destruction of tooth support and ultimately leads to tooth loss. The disease is a major public health problem with a large economic burden and has been associated with an increased risk of cardiovascular disease and pre-term birth and low birth weight. The bacterium Porphyromonas gingivalis has now been identified as a major pathogen in the development of chronic perio ....Chronic periodontitis is a bacteria-associated inflammatory disease of the supporting tissues of the teeth, which results in the destruction of tooth support and ultimately leads to tooth loss. The disease is a major public health problem with a large economic burden and has been associated with an increased risk of cardiovascular disease and pre-term birth and low birth weight. The bacterium Porphyromonas gingivalis has now been identified as a major pathogen in the development of chronic periodontitis. We have identified a major virulence factor of P. gingivalis which is an extracellular complex of proteins involved in binding and destroying host proteins. The aim of this proposal is to characterize the secretion, molecular processing and assembly of the cell surface complex using state-of-the-art proteomic techniques. This study will provide valuable insight into the molecular processes of a bacterial pathogen that leads to virulence. Detailed knowledge on the unique molecular events involved in secretion, processing and assembly of a major virulence factor will provide molecular targets for the development of specific inhibitors that may have utility as an adjunctive therapeutic and-or as part of a preventive regime or maintenance program for the control of chronic periodontitis. Further, the molecular insight that will result from this study will have broader application in the understanding of virulence factor processing of a Gram-negative pathogen that will provide paradigms for other bacterial pathogens.Read moreRead less
Polymicrobial Interactions In A Biofilm Of Periodontopathic Bacteria
Funder
National Health and Medical Research Council
Funding Amount
$474,517.00
Summary
Chronic periodontitis is a bacterial-associated inflammatory disease of the supporting tissues of the teeth, which results in the destruction of tooth support and ultimately leads to tooth loss. The disease is a major public health problem with a large economic burden and has been associated with an increased risk of cardiovascular disease and pre-term birth and low birth weight. Three bacterial species in a biofilm (dental plaque) have been closely associated with chronic periodontitis in human ....Chronic periodontitis is a bacterial-associated inflammatory disease of the supporting tissues of the teeth, which results in the destruction of tooth support and ultimately leads to tooth loss. The disease is a major public health problem with a large economic burden and has been associated with an increased risk of cardiovascular disease and pre-term birth and low birth weight. Three bacterial species in a biofilm (dental plaque) have been closely associated with chronic periodontitis in humans and a fourth bacterial species has been suggested to assist colonisation of the biofilm by the three pathogenic species. The aim of this project is to use DNA microarray and proteomic techniques to study the interaction of the four bacterial species grown together in a polymicrobial biofilm. In particular genes of two of the pathogens, Porphyromonas gingivalis and Treponema denticola, important for biofilm formation and virulence in an animal model will be identified. This information will provide insight into the molecular processes of dental plaque formation and therfore molecular targets for the development of specific inhibitors that may have utility in the treatment and prevention of chronic periodontitis.Read moreRead less
Chronic periodontitis is a bacterial-associated inflammatory disease of the supporting tissues of the teeth, which results in the destruction of tooth support and ultimately leads to tooth loss. The disease is a major public health problem with a large economic burden. The bacterium Porphyromonas gingivalis has been identified as a major pathogen in the development of chronic periodontitis. We have identified and characterised a major virulence factor of P. gingivalis; a complex of proteins whic ....Chronic periodontitis is a bacterial-associated inflammatory disease of the supporting tissues of the teeth, which results in the destruction of tooth support and ultimately leads to tooth loss. The disease is a major public health problem with a large economic burden. The bacterium Porphyromonas gingivalis has been identified as a major pathogen in the development of chronic periodontitis. We have identified and characterised a major virulence factor of P. gingivalis; a complex of proteins which is involved in binding and destruction of host tissue. We have shown that this protein complex when used as a vaccine protects against P. gingivalis induced disease in animal periodontitis models. We have identified the regions (peptides) of the protein complex that allow the bacteria to bind to host tissue and blood proteins and these and other complex-related peptides when used as vaccines reduced disease in animal models. Recently, a consortium involving T.denticola, T.forsythia and P.gingivalis has been closely associated with the development of periodontitis in humans. We have shown that a mixture of these bacteria have greater pathogenicity in an animal periodontitis model than any one bacterium individually at the same total dose. The aim of this project is to identify epitopes in T. denticola and T. forsythia and to combine them with those of P. gingivalis into a multipathogen vaccine using techniques we have patented. The efficacy of the multipathogen vaccine to produce an immume response which is effective against the three bacteria will be investigated. The significance of this work is that we will produce a fully synthetic vaccine that may have utility in the prevention of periodontitis and the platform technology developed may have utility for a range of diseases associated with multiple bacterial pathogens.Read moreRead less
Tissue Regeneration In Oral Health: Regenerating Damaged Oral Tissues
Funder
National Health and Medical Research Council
Funding Amount
$575,833.00
Summary
The regeneration of damaged dental tissues is an emerging area in oral health-based research and is increasingly becoming the forefront of medical-dental interdisciplinary investigations. This idea of repairing damage follows Dr Fiona Wood's unique concept of growing large amounts of specific cells in the lab and spraying them onto damaged tissue, which effectively assists in the repair of the damaged organ. This approach can be similarly used in the dental field by applying prosthetic implants ....The regeneration of damaged dental tissues is an emerging area in oral health-based research and is increasingly becoming the forefront of medical-dental interdisciplinary investigations. This idea of repairing damage follows Dr Fiona Wood's unique concept of growing large amounts of specific cells in the lab and spraying them onto damaged tissue, which effectively assists in the repair of the damaged organ. This approach can be similarly used in the dental field by applying prosthetic implants with cells and growth factors, thus enhancing the regeneration of the damaged dental tissue. Artificial replacement of missing teeth has significant limitations when compared with the natural, original tissues in terms of function and appeal. Bridges and dentures have been used for centuries in dentistry but require periodic maintenance or even replacement after a period of time due to usage or loss of adaptation. Thus, if implants and bridgework can be eliminated, so too will be the problems and costs associated with them. This benefit is specifically aimed at the regional community and the public sector, as these patients are generally not in a financial position to restore missing teeth with bridgework, let alone implants. Our aims are: 1. Examine the function of two recently identified growth factors, Osteoclast-Derived Osteoblastic Factor and Emilin and Multimerin-2, through their effect on paradental in vitro cell regeneration. 2. To assess the role played by collagen bioscaffolds, together with explanted cells and growth factors examined during the in vitro studies, in the healing process by comparing teeth transplanted into an existing socket with those transplanted into a prepared site. 3. Evaluate the effect of growth factors, explanted cells and bioscaffolds on regeneration of tissues lost as a result of ligature-induced periodontal infection.Read moreRead less