Mechanisms Regulating Nutrient Induced Motor Patterns In The Isolated Small Intestine
Funder
National Health and Medical Research Council
Funding Amount
$427,750.00
Summary
The movements of the small intestine are essential for the digestion and absorption of a meal and consist of two basic patterns during a 3-4 hour period after a meal. These are mixing (or segmentation) and propulsion (or peristalsis). Although it is the subject of ongoing study, much is known about the basic mechanisms that control propulsion, largely because this behaviour is readily seen in isolated segments of gut so it is possible to undertake highly controlled experiments to identify the va ....The movements of the small intestine are essential for the digestion and absorption of a meal and consist of two basic patterns during a 3-4 hour period after a meal. These are mixing (or segmentation) and propulsion (or peristalsis). Although it is the subject of ongoing study, much is known about the basic mechanisms that control propulsion, largely because this behaviour is readily seen in isolated segments of gut so it is possible to undertake highly controlled experiments to identify the various cellular components of the system. By contrast, mixing has only been reliably seen in intact animals making studies of the detailed mechanisms responsible for this behaviour much more difficult. What is known is that the composition of a meal controls the relative amount of mixing and propulsion seen at any location along the small intestine. We have recently identified a pattern of contractions in isolated small intestine (duodenum and-or jejunum) that is induced by the presence of a nutrient in the intestine and appears very similar to the mixing behaviour seen in the intact animal. We have shown that this pattern depends on the activity of nerve cells including those that excite the gut muscle and that it depends on the activity of a hormone released from the lining of the gut wall by fats and other nutrients. The aims of this proposal are to identify how nutrients interact to produce this pattern of contractions, the relative roles of specific types of nerve cells and the sites at which the local hormones released by nutrients act. This is important because increasing the proportion of mixing to propulsion enhances the absorption of nutrient from a meal, so if the mechanisms that initiate mixing behaviour can be regulated in a predictable way by specific nutrient, absorption can be enhanced in various malabsorption syndromes.Read moreRead less
Improving Cancer Therapy: Nanoparticle Delivery Of SiRNA To Cancer Cells
Funder
National Health and Medical Research Council
Funding Amount
$610,499.00
Summary
Lung cancer accounts for 8000 diagnosis and 1000 deaths in Australia each year. We are using cutting edge nanotechnology and coupling this with potent gene silencing to target solid tumours of the lung. If successful, this approach could increase survival of patients with this difficult to treat malignancy and may prove valuable in the treatment of other lung tumours.
Foetal Determinants Of Sleep Disordered Breathing In Infants
Funder
National Health and Medical Research Council
Funding Amount
$174,691.00
Summary
Obstructive sleep apnea (OSA) has been identified and recorded in infants, however the factors that lead to the development of OSA and its prevalence in infants is unknown. We have recorded OSA in some infants and we demonstrated that the severity of apnea was at its peak at approximately 2 months of age and then resolved by 1 year. We hypothesised that these infants possibly had a maturational delay of breathing control during sleep. This project is designed to examine the development and preva ....Obstructive sleep apnea (OSA) has been identified and recorded in infants, however the factors that lead to the development of OSA and its prevalence in infants is unknown. We have recorded OSA in some infants and we demonstrated that the severity of apnea was at its peak at approximately 2 months of age and then resolved by 1 year. We hypothesised that these infants possibly had a maturational delay of breathing control during sleep. This project is designed to examine the development and prevalence of sleep and breathing disorders in infants. The prenatal factors that possibly influence development of sleep and breathing disorders in infants, in particular, the effects of maternal smoking will be determined. Pregnant women will be recruited for the study during their third trimester. The foetal movements, foetal breathing movements, heart rate and sleep state will be monitored continuously overnight in the patients home between 32 and 36 weeks gestation using a newly developed foetal movement monitor. The infants will be subsequently studied using overnight polysomnography at 2 months of age to assess their breathing, sleep patterns, arousal behaviour, and the presence and severity of central and obstructive apnea. A group from these infants will be selected and studied longitudinally to examine the development of sleep and breathing disorders more closely. These infants will undergo overnight sleep studies during the first week of life, then at 2 and 6 months of age. A detailed medical history will also be collected regarding the pregnancy, the perinatal history of the infant, exposure to cigarette smoke during pregnancy and postnatally, and the medical history of other family members. We will examine the quality and quantity of foetal movements and its association with the development of OSA. The occurrence of sleep and breathing disorders in the infants will be correlated with the foetal behaviour and, the prenatal and postnatal factors.Read moreRead less
Cancer is one of the leading causes of death in the industrialized world. While therapies to treat cancer have continued to improve one area that, in theory at least, shows great promise in the treatment of tumours is manipulating the immune system to effectively recognize and destroy cancerous lesions. Experiments in human and animal systems have clearly shown that the immune system has the potential to respond to tumour cells and trials of tumour vaccines are underway. It has recently become a ....Cancer is one of the leading causes of death in the industrialized world. While therapies to treat cancer have continued to improve one area that, in theory at least, shows great promise in the treatment of tumours is manipulating the immune system to effectively recognize and destroy cancerous lesions. Experiments in human and animal systems have clearly shown that the immune system has the potential to respond to tumour cells and trials of tumour vaccines are underway. It has recently become apparent that the immune responses to tumours may be inhibited by classes of regulatory immune cells. Eliminating these cells results in a more vigorous and effective anti-tumour response. This project will seek to discover the mechanisms of action of theses regulatory immune cells in order to devise more effective anti-cancer vaccines and therapies.Read moreRead less
Development Of A Novel Therapy For The Treatment Of Epidermal Squamous Cell Carcinoma
Funder
National Health and Medical Research Council
Funding Amount
$432,750.00
Summary
Squamous cell carcinomas (SCC) are the most common life-threatening form of skin cancer in Australia. SCCs commonly arise in areas of the body that have been exposed to excessive amounts of UV irradiation. The cells of the skin from which SCCs are derived are called keratinocytes. UV irradiation causes lesions within these cells such that their growth and maturation are disrupted leading to deregulated growth and maturation and hence tumour formation. We have previously identified a protein, E2F ....Squamous cell carcinomas (SCC) are the most common life-threatening form of skin cancer in Australia. SCCs commonly arise in areas of the body that have been exposed to excessive amounts of UV irradiation. The cells of the skin from which SCCs are derived are called keratinocytes. UV irradiation causes lesions within these cells such that their growth and maturation are disrupted leading to deregulated growth and maturation and hence tumour formation. We have previously identified a protein, E2F, that is central to this process and whose inhibition leads to decreased cancer cell growth. During the course of these studies we noted that the deregulation of E2F could also lead to the disruption of keratinocyte maturation. This led us to propose that the inhibition of E2F in SCCs may result in both decreased cancer cell growth as well as the reinstatement of a normal maturation process. this would make E2F inhibitors a very attractive therapeutic for treating SCC. In the present study we aim to explore the ability and the mechanism by which E2F modulates keratinocyte proliferation and maturation. This will be done in vitro as well as in animal models of SCC. These studies will be required in order to take the E2F inhibitors into clinical trials.Read moreRead less
Molecular And Cellular Determinants Of Tubulin-targeted Drug Action
Funder
National Health and Medical Research Council
Funding Amount
$484,500.00
Summary
Cancer is the leading cause of death in developed countries. Despite advances in the use of combination chemotherapy, drug resistance is the major cause of treatment failure. An important component in the treatment of many childhood and adult cancers are the antimicrotubule agents. These drugs target an important part of the cell skeleton called the tubulin-microtubule system that is responsible for many important events including cell division. It is the ability of these drugs to disrupt cell d ....Cancer is the leading cause of death in developed countries. Despite advances in the use of combination chemotherapy, drug resistance is the major cause of treatment failure. An important component in the treatment of many childhood and adult cancers are the antimicrotubule agents. These drugs target an important part of the cell skeleton called the tubulin-microtubule system that is responsible for many important events including cell division. It is the ability of these drugs to disrupt cell division in cancer cells that makes them so effective and such important targets for new drug design. Unfortunately, the reasons why tumours develop resistance to these drugs or even why some tumours do respond well is not understood. This proposal will determine how the makeup and stability of the tubulin-microtubule proteins influences how these drugs work in both childhood and adult tumour cells. Finally, components of drug resistant tumour cells will be examined using technology that allows us to simultaneously separate and identify hundreds of proteins some of which may provide useful targets for the design of new drugs for the treatment of cancer. To improve cancer survival rates it is essential to accurately target the use of existing drugs and to identify new targets for anticancer drug development.Read moreRead less