Improving Efficacy Of Vaccination Against The Gut Pathogen Helicobacter Pylori
Funder
National Health and Medical Research Council
Funding Amount
$504,000.00
Summary
Helicobacter pylori are bacteria which live in the stomachs of half the World's population, where they are the main cause of two types of stomach cancers, as well as stomach and duodenal ulcers. The development of a vaccine against this organism would have a major impact on these diseases. Unfortunately, while there has been some success in animal models, the results from clinical trials have so far been disappointing. A key issue with vaccines against H. pylori is their poor efficacy, i.e. alth ....Helicobacter pylori are bacteria which live in the stomachs of half the World's population, where they are the main cause of two types of stomach cancers, as well as stomach and duodenal ulcers. The development of a vaccine against this organism would have a major impact on these diseases. Unfortunately, while there has been some success in animal models, the results from clinical trials have so far been disappointing. A key issue with vaccines against H. pylori is their poor efficacy, i.e. although they produce a significant reduction in bacteria numbers in animal models, they do not clear all of the bacteria. The remaining bacteria are sufficient to continue to cause disease. It is currently not understood how these vaccines work in mice, which makes it very difficult to improve their design. An additional problem common to all human vaccines, is the lack of a suitable adjuvant. An adjuvant is a non-specific vaccine component which is required to activate the immune system. Thus, for an effective vaccine it is essential to identify suitable adjuvants which will work against H. pylori and can be used in people. The chief investigator on this project has been working in the H. pylori vaccine field, in both academia and industry, for 8 years. He very recently identified an immunisation regime which greatly increases the effectiveness of vaccination against H. pylori in an animal model. The main aim of this project is to further develop this novel discovery to identify key immune factors that are critical to making an improved vaccine. In addition, the two associate investigators are experts in the area of adjuvants for human vaccines, and will help to test new vaccine systems in the H. pylori model. If successful, this project will generate highly significant data that will strongly contribute towards the design of an improved vaccine strategy against H. pylori in people.Read moreRead less
Gene Expression And DNA Methylation In Barrett's Oesophagus And Oesophageal Adenocarcinoma
Funder
National Health and Medical Research Council
Funding Amount
$383,655.00
Summary
The oesophagus (gullet) is the tube through which food and drinks pass from the mouth to the stomach. In Barrett's oesophagus, the normal lining of the lower oesophagus is replaced by an abnormal type of lining called intestinal metaplasia as a result of severe gastroesophageal reflux. Gastroesophageal reflux is one of the most common of all diseases, affecting up to a quarter of all adults, and Barrett's oesophagus itself occurs in 0.5 - 1% of the adult population. In a minority of patients wit ....The oesophagus (gullet) is the tube through which food and drinks pass from the mouth to the stomach. In Barrett's oesophagus, the normal lining of the lower oesophagus is replaced by an abnormal type of lining called intestinal metaplasia as a result of severe gastroesophageal reflux. Gastroesophageal reflux is one of the most common of all diseases, affecting up to a quarter of all adults, and Barrett's oesophagus itself occurs in 0.5 - 1% of the adult population. In a minority of patients with Barrett's oesophagus, further abnormalities in the cells lining the lower oesophagus occur, leading to dysplasia and adenocarcinoma (glandular cell type cancer). This project will provide the first comprehensive map of two of the most important genetic mechanisms (gene expression and DNA methylation) by which Barrett's oesophagus evolves into Barrett's dysplasia and adenocarcinoma. The specimens studied in this project differ from previous studies in that they are taken from the same patients at different times, as these patients' Barrett's oesophagus either remains stable or progresses to worse disease. Essentially all the known human genes will be studied and the relevance of genes identified as important will be confirmed using highly accurate methods. With this information, it may be possible to develop genetic tests that can predict which patients are at risk of developing worse disease including cancer. In other parts of this project, genes which influence the likelihood of survival for patients with oesophageal adenocarcinoma will be identified, a simple test to more accurately identify patients with cancer spread to lymph nodes may be developed, and a blood test to detect oesophageal adenocarcinoma will be tested.Read moreRead less
Protease-activated Receptor-1 (PAR-1) And Regulation Of Helicobacter Pylori Induced Mucosal Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$478,090.00
Summary
Helicobacter pylori infections cause chronic gastritis which in some people results in stomach cancer or ulcers. We have identified a novel host factor, PAR-1, important for preventing this inflammation. We will use mice to identify how this molecule protects against gastritis and samples from patients to examine its importance in human disease. This will help explain why these diseases develop in some people but not others and perhaps allow identification of those at risk of developing disease.
Until recently, cancer of the oesophagus was a very uncommon tumour in Australia and other western populations. However during the past three decades, there have been very large increases in the incidence of this disease. Indeed, rates of oesophageal cancer have risen faster than any other cancer in the United Statesand similar dramatic increases in incidence have been observed in Europe and Australia. With increasing population prevalence of the causes of cancer of the oesophagus in western soc ....Until recently, cancer of the oesophagus was a very uncommon tumour in Australia and other western populations. However during the past three decades, there have been very large increases in the incidence of this disease. Indeed, rates of oesophageal cancer have risen faster than any other cancer in the United Statesand similar dramatic increases in incidence have been observed in Europe and Australia. With increasing population prevalence of the causes of cancer of the oesophagus in western societies (namely acid reflux, obesity and poor diet), there are strong grounds for predicting that incidence will continue to rise, and that oesophageal cancer will constitute an increasingly large burden on society. Unfortunately, treatment options are limited, survival is often short, and there is no way of identifying which tumours will respond to therapy. This proposal will collect treatment and health outcomes data for a population-based cohort of patients with oesophageal cancer. The goal is to identify prognostic and predictive markers to aid patients and clinicians when making treatment decisions, as now exist for breast cancer. Such markers may also serve as novel targets for therapy. The proposed study builds upon the platform of the Australian Cancer Study [ACS], one of the world's largest studies of oesophageal cancer. This represents a unique opportunity to investigate a pressing clinical problem by building upon a study of acknowledged international importance.Read moreRead less
Barrett's oesophagus (BO) is a condition that arises in some patients with chronic reflux (heartburn) and increases the risk of developing cancer of the oesophagus. However, the exact mechanisms involved in its development are unknown. This project aims to investigate how a protein called sonic hedgehog might be involved using novel cell culturing techniques that allow us to model the growth of oesophageal tissue in the laboratory. This could lead to development of new therapies for treating BO.
Identification Of The Gene For A Novel Syndrome Of Gastric Adenocarcinoma And Proximal Polyposis Of The Stomach (GAPPS)
Funder
National Health and Medical Research Council
Funding Amount
$378,152.00
Summary
We have identified a previous undescribed syndrome of multiple polyps in the stomach, and a tendency to develop stomach cancer. We are now want to identify the gene responsible, and to determine if it plays a part in the development of other cancers that occur outside people with this rare syndrome.
Micropapillary Adenocarcinoma: The Emergence Of A Discrete Lung Cancer Phenotype And Its Genomic And Transcriptomic Characterization.
Funder
National Health and Medical Research Council
Funding Amount
$117,565.00
Summary
I believe I can describe a new subtype of lung cancer, which has never been classified by the World Health Organization. This has been previously mis-classified or simply ignored. My hypothesis is that this is a distinct disease by virtue of patterns of genetic abnormalities as well as features visible under the microscope. I also believe it is one of the most aggressive cancers and needs new treatments.