THE ROLE OF THE HEPATOCYTE HEDGEHOG PATHWAY IN PROGRESSIVE LIVER INJURY
Funder
National Health and Medical Research Council
Funding Amount
$570,876.00
Summary
This research plan investigates the role of a pathway, known as the Hedgehog pathway, in the development of liver disease which can result in end-stage scarring known as cirrhosis and even lead to liver cancer (known as Hepatocellular carcinoma). Hepatocellular carcinoma is the globally the third most common cause of cancer death and our research will help to better understand how liver injury develops and how this then leads to liver cancer.
Mechanisms And Treatment Of Early Life Chlamydial Infection And Associated Asthma
Funder
National Health and Medical Research Council
Funding Amount
$616,195.00
Summary
Asthma is a serious respiratory disease that results from certain immune responses to allergens and there are no cures. Immune responses and lung structure may be permanently altered by respiratory chlamydial infection early in life that leads to reduced lung function and asthma but how this occurs is unknown. In this project we will determine how early life infections affect immune responses, lung function and asthma and test novel treatments and preventions for infection-associated asthma.
Investigation Of The Association Between Chlamydial Infection And Asthma In Different Age Groups
Funder
National Health and Medical Research Council
Funding Amount
$382,117.00
Summary
Asthma is a common and severe lung disease that results from inflammation due to allergy and has symptoms of breathing difficulties, wheezing, chest tightness, and cough. Asthma is clinically characterised by the presence of certain types of responses from the immune system. We are looking for ways of preventing and curing asthma. There is a well known link between certain types of bacteria, called Chlamydia, and asthma but it is not known whether people develop asthma first and then get chlamyd ....Asthma is a common and severe lung disease that results from inflammation due to allergy and has symptoms of breathing difficulties, wheezing, chest tightness, and cough. Asthma is clinically characterised by the presence of certain types of responses from the immune system. We are looking for ways of preventing and curing asthma. There is a well known link between certain types of bacteria, called Chlamydia, and asthma but it is not known whether people develop asthma first and then get chlamydial infection or are infected first and this leads to asthma. We have shown that if adult mice are exposed to an allergen during chlamydial infection then the asthma gets worse. However, if newborn mice have a chlamydial infection then asthma is prevented when they are adults. These are preliminary observations, which we need to expand and understand the immune mechanisms that result in infection and allergy so that we can target them with antibiotics or vaccines. We will investigate how the timing of chlamydial infection relative to exposure to allergens (before, during or after) affects the development of asthma in adult mice. Newborns and young children have different immune systems to adults, so we will investigate what effects the infection of young mice has on infection and allergy later in life. We will also test a new vaccine we have developed against chlamydial infection to see if it can prevent chlamydial infection and infection-induced asthma. We will then examine if there is the same association between chlamydial infection and asthma in human asthmatics that present to hospital with exacerbation of their asthma. This work will help us develop new strategies for preventing and curing asthma, which may vary in different age groups. We will identify whether prevention of chlamydial infection by vaccination (or antibiotics) can be used to prevent and treat asthma.Read moreRead less
The Role Of The Intestinal Epithelium In Gliadin Peptide Influx In Coeliac Disease
Funder
National Health and Medical Research Council
Funding Amount
$503,566.00
Summary
Food products made from cereals such as wheat are part of the staple diet for much of the world but unfortunately they trigger coeliac disease in 1:100 individuals including more than 100,000 Australians. This project aims to determine where the disease inducing proteins cross the cells that line the intestine to enter the body. It also aims at increasing the health of these cells to produce a barrier that can prevent the disease inducing proteins from entering the body.
Generating Tumour-Specific Dendritic Cells For Cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$288,210.00
Summary
Therapies using the immune system are showing promise for cancer treatment, particularly for melanoma, but complete durable responses are few and improvements are needed. We believe that such immunotherapies, in their current form, fail to sufficiently mimic a natural immune reaction to disease, and therefore fall short of effectively controling cancer. In particular, an alarm (danger signal) is not produced within tumour as it would be when the body is challenged by infectious agents. Such dang ....Therapies using the immune system are showing promise for cancer treatment, particularly for melanoma, but complete durable responses are few and improvements are needed. We believe that such immunotherapies, in their current form, fail to sufficiently mimic a natural immune reaction to disease, and therefore fall short of effectively controling cancer. In particular, an alarm (danger signal) is not produced within tumour as it would be when the body is challenged by infectious agents. Such danger signals are critical for the immune system to respond effectively and for white blood cells of the immune system to find their way to the disease organism and eliminate it. The strongest danger signals are produced by a type of white blood cell known as a dendritic cell (DC). These cells detect infectious agents and produce biochemical alarm molecules that alert the entire immune system to the danger resulting in powerful action against the disease. However, tumours are really just a part of our own body and no danger signal is produced. It is our aim to use genetic modification to make DC see tumours as a threat and produce danger signals. These gene-modified DC either alone, or in combination with other immunotherapies, may lead to destruction of tumours.Read moreRead less
A group of nerves, called sensory nerves, supply most body organs including the uterus, and are well known to transmit information to the brain. It is now known that these nerves are also capable of releasing the chemicals (neuropeptides) from their endings within these body organs to affect their function. In the uterus these chemicals cause the uterus to contract. We have shown that neuropeptides known as tachykinins are effective in lower concentrations when applied to small specimens of uter ....A group of nerves, called sensory nerves, supply most body organs including the uterus, and are well known to transmit information to the brain. It is now known that these nerves are also capable of releasing the chemicals (neuropeptides) from their endings within these body organs to affect their function. In the uterus these chemicals cause the uterus to contract. We have shown that neuropeptides known as tachykinins are effective in lower concentrations when applied to small specimens of uterine tissue taken from non-pregnant women at hysterectomy than when applied to similar uterine specimens taken from pregnant women at caesarean section. The aim of this project is twofold. Firstly, we want to know why the tachykinins are more potent in uterine tissue from non-pregnant women. Possible explanations that we will examine are that tissues from non-pregnant women contain more sites of action at which the peptides can act, or alternatively, that there is decreased breakdown of these tachykinins in uterine tissue from non-pregnant women. This could occur if a substance known to break down the tachykinins in the uterus shows greater activity during pregancy than when a woman is not pregnant. Secondly, we wish to find out if other chemicals (substances that can produce inflammatory responses, and in particular a group of chemicals known as prostaglandins), that are known to be present in greater amounts in the tissues of women during disease states such as dysmenorrhoea, can cause the release of the neuropeptides that we are studying. If they do cause such a release of tachykinins, this could be an important factor contributing to the disease state. Our hypothesis is that tachykinins and the substances which can break them down may play an important role in regulating uterine contractility in non-pregnant and to a lesser degree in pregnant women.Read moreRead less