Establishment Of A Biomarker To Test Molecular Risk Of Gastric Cancer
Funder
National Health and Medical Research Council
Funding Amount
$834,448.00
Summary
Less than 20% of patients live 5 years after a diagnosis of gastric cancer (GC). This is due to the advanced stage at the time of diagnosis. We have no markers to monitor therapy of cancer. This proposal aims to use next generation sequencing to find specific genetic changes in a persons tumour that can be used to monitor therapy. We aim to use the same technology to group patients into high-risk or low risk for development of GC. This will allow specific screening only for those at high-risk.
Bridging The GAPP Between The Laboratory And Clinic To Prevent Gastric Adenocarcinoma And Proximal Polyposis Of The Stomach (GAPPS).
Funder
National Health and Medical Research Council
Funding Amount
$724,877.00
Summary
Gastric Adenocarcinoma and Proximal Polyposis of the Stomach (GAPPS) is an inherited form of gastric cancer. Affected patients develop a large number of gastric polyps and are at risk of gastric cancer in their 30s. The only effective treatment is to surgically remove the stomach. Gastrectomy is, however, associated with significant post-operative complications. We will use laboratory and mouse models of GAPPS to identify acceptable new approaches to prevent cancer in these patients.
Regulation Of Gastric Tumour Invasion And Growth By Gp130 Activating Cytokines.
Funder
National Health and Medical Research Council
Funding Amount
$625,642.00
Summary
Gastric cancer is a major cause of morbidity and death worldwide. We have previously established a very informative animal model of this disease which has facilitated a new understanding of the diverse role of the IL-6 family of cytokines in regulating gastric tumour growth and dissemination to distant organs. This proposal will focus on how the main members of this cytokine family, namely IL-6 and IL-11, inhibit gastric tumour invasion to other organs, and promote tumour growth respectively . A ....Gastric cancer is a major cause of morbidity and death worldwide. We have previously established a very informative animal model of this disease which has facilitated a new understanding of the diverse role of the IL-6 family of cytokines in regulating gastric tumour growth and dissemination to distant organs. This proposal will focus on how the main members of this cytokine family, namely IL-6 and IL-11, inhibit gastric tumour invasion to other organs, and promote tumour growth respectively . An understanding of these processes will aid in designing therapeutic interventions specific for each cytokine and which may lead to drugs aimed at limiting or reversing this disease.Read moreRead less
Structural Basis For Helicobacter Pylori Adhesion To Host Epithelial Cells
Funder
National Health and Medical Research Council
Funding Amount
$665,328.00
Summary
The aim of this grant is to understand how the bacteria that cause gastric cancer and ulcers interact with the cells that line the stomach. This information will be used to develop new treatments to combat disease.
Skin cancer affects 60% of Australians. Nicotinamide (vitamin B3) prevents many of sunlight’s damaging effects and reduces premalignant keratoses by 35% compared to placebo in sun-damaged individuals. We now need to test whether nicotinamide can prevent skin cancer. Skin cancer patients will receive nicotinamide or placebo for 12 months and new cancers will be counted in each group. Nicotinamide is safe, widely available and an exciting opportunity for cost-effective skin cancer prevention.
Acid Resistance Mechanisms Of Helicobacter Pylori And Their Impact On Gastric Colonisation
Funder
National Health and Medical Research Council
Funding Amount
$287,036.00
Summary
The gastric bacterium, Helicobacter pylori, infects more than half the population of the globe. H. pylori may cause either no symptomatic disease, induce peptic ulcers or be responsible for one of the major killing cancers, gastric cancer. Millions die or suffer from this infection each year. Yet we are remarkably ignorant of why the infection causes these different patterns of disease. This project aims to provide evidence to show that the very mechanism the bacterium has acquired to help it re ....The gastric bacterium, Helicobacter pylori, infects more than half the population of the globe. H. pylori may cause either no symptomatic disease, induce peptic ulcers or be responsible for one of the major killing cancers, gastric cancer. Millions die or suffer from this infection each year. Yet we are remarkably ignorant of why the infection causes these different patterns of disease. This project aims to provide evidence to show that the very mechanism the bacterium has acquired to help it resist stomach acid and so live in the stomach, is responsible for these differences. I.e. The organism lives in different parts of the stomach due to differences in local acid at that site. If the acid in a particular part of the stomach is too high, the acid resistance mechanism cannot cope. If the acid is too low, the organism also cannot grow well. Because the bacterium has evolved to only thrive in a relatively narrow range of acid, it will behave very differently in these different parts of the stomach. This results in different diseases. Various populations in different countries of the world have different levels of acid production and this also explains why in some countries duodenal ulcers predominate and in others gastric ulcer- gastric cancer is the norm. Showing why H. pylori lives where it lives will provide fundamental information relevant to understanding some of the world s major diseases and will also provides insights relevant to the design of new therapeutic approaches.Read moreRead less