Populations of viruses in an host can be very diverse and just as the behaviour of a population of humans can be very different to the behaviour of individuals in them, populations of viruses behave differently to the behaviour of individuals in them. This diversity may provide a survival advantage to the virus and it also may regulate the severity of the symptoms in an infected host. This study will provide important new information that will drive vaccine strategies and public health policy.
Biological And Mathematical Studies Of Development Of The Enteric Nervous System
Funder
National Health and Medical Research Council
Funding Amount
$390,250.00
Summary
During very early development in the embryo, cells migrate from the future brain. These cells, called neural crest cells, make there way to the nearest part of the gut, in the future oesophagus. They then migrate as a growing population right along the gut until they have populated the entire gut down to the rectum. To complicate matters, the gut itself is rapidly growing length-wise as this migration occurs. These neural crest cells then form the nerve cells that reside in the gut and which con ....During very early development in the embryo, cells migrate from the future brain. These cells, called neural crest cells, make there way to the nearest part of the gut, in the future oesophagus. They then migrate as a growing population right along the gut until they have populated the entire gut down to the rectum. To complicate matters, the gut itself is rapidly growing length-wise as this migration occurs. These neural crest cells then form the nerve cells that reside in the gut and which control gut function. In a common birth defect, Hirschsprung's disease, this migration stops short of the rectum so that the last part of the gut never develops nerve cells. This region lacking nerve cells is unable to propel the gut contents and, if untreated, this condition of intractable constipation is fatal after birth. Eight genes, when mutated, give essentially the same condition either in humans or animals, but the link between the genes and the condition is still not clear. We have proposed that the genes code for molecules that effect the way the neural crest cells interact with other neural crest cells and with the cells of the gut in which migration takes place. The link between the genes and the development of a normal gut nerve system (or its failure, as in Hirschsprung's disease) operates at the level of the dynamics of the neural crest cell population, interacting with the dynamics of gut growth. This project will use very detailed biological data acquisition to feed into newly formulated original mathematical models to tease out the important links between the neural crest cell population and the growing gut, that control cell migration. This will lead to an understanding of formation of the gut nerve system and of Hirschsprung's disease, at the population level, a level not well served by molecular levels of understanding. These models will have application in the many developmental contexts where cell movement and growth are simultaneous.Read moreRead less
The Role Of Psychosocial Factors On Recovery Following Early Brain Insult.
Funder
National Health and Medical Research Council
Funding Amount
$255,475.00
Summary
Early brain insult (EBI) is a major cause of developmental delay and long-term disability. However, outcome following EBI is variable and dependent on multiple injury-related and non-injury-related factors. To date, most research has focussed on injury-related variables such as age at insult, nature of brain pathology, and size and site of brain lesion. These injury-related factors predict short-term recovery following EBI, however they have been found to account for a surprisingly modest portio ....Early brain insult (EBI) is a major cause of developmental delay and long-term disability. However, outcome following EBI is variable and dependent on multiple injury-related and non-injury-related factors. To date, most research has focussed on injury-related variables such as age at insult, nature of brain pathology, and size and site of brain lesion. These injury-related factors predict short-term recovery following EBI, however they have been found to account for a surprisingly modest portion of variance in long-term outcome. Thus, non-injury-related factors must also contribute to outcome following EBI. Research now suggests that psychosocial characteristics (social status, environmental conditions, parenting characteristics, family dynamics) influence long-term outcome following EBI, however these studies have focussed on bivariate relationships, relied on specific patient groups limiting the generalisability of findings, and utilised small to moderate samples that are inadequate when investigating complex interactive relationships. As a consequence, the role of psychosocial factors on recovery following EBI is still unclear. The objective of this project is to undertake a large-scale investigation of the independent and interactive contribution of social status, environmental conditions, parenting characteristics and family dynamics on outcome following EBI. The aim is to identify the psychosocial characteristics that predict outcome, mediate recovery, and buffer the impact of injury-related factors in children with EBI. Understanding these complex inter-relationships is crucial for rehabilitation purposes, as many psychosocial characteristics are fluid and at least partially modifiable. Based on this project's findings we intend to devise and trial appropriately focussed intervention programs that aid recovery and minimise long-term disabilities.Read moreRead less
Invasive Assessment Of Pulmonary Vascular Physiology - Novel Methods For Early Detection Of Pulmonary Vascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$274,352.00
Summary
Pulmonary vascular disease (PVD) is a lethal condition characterised by progressive destruction of the lung blood vessels. One major problem with PVD is that diagnosis is often made very late in the illness, when the pulmonary blood pressure rises. This project aims to develop a novel method to detect the early and clinically silent phase of PVD, by assessing the lung's blood vessel reserves. Early diagnosis of PVD will enable earlier treatment thereby improving prospects for treatment.
Fission, Fusion And Distribution Of Mitochondria In Mammalian Cells
Funder
National Health and Medical Research Council
Funding Amount
$480,750.00
Summary
Mitochondria are small cellular compartments that produce most of the cell's energy in the form of ATP. Mitochondria were once thought of as small bean-shaped organelles floating around in the cell, however it has become clear that this is not the case. Mitochondria are found as a network of tubules radiating from around the nucleus and they undergo constant changes in their shape through both fission and fusion events. Mitochondria are transported along microtubules which act as highways in the ....Mitochondria are small cellular compartments that produce most of the cell's energy in the form of ATP. Mitochondria were once thought of as small bean-shaped organelles floating around in the cell, however it has become clear that this is not the case. Mitochondria are found as a network of tubules radiating from around the nucleus and they undergo constant changes in their shape through both fission and fusion events. Mitochondria are transported along microtubules which act as highways in the cell so that they can be distributed to areas that require ATP or other functions particular to mitochondria such as their ability to regulate the release of calcium. In specialist cells, mitochondria are organised even further. Sperm cells contain mitochondria packed around the mid-piece of the flagellum so that ATP can be utilised directly for swimming. Mitochondria are also highly organised in muscle cells to supply ATP for movement while in pancreatic cells mitochondria at the cell's edge help to regulate the secretion of molecules such as insulin into the bloodstream. While we are beginning to understand the great importance of mitochondria to the cell, we are yet to work out how these organelles undergo the drastic morphological changes which are essential for cellular function. In this application, we plan to identify and characterise the proteins involved in the division of mitochodria and the movement of these organelles along the microtubule highways. Understanding the basic mechanisms of mitochondrial dynamics in tissue culture cells will provide valuable insights into mitochondrial segregation and specialisation in differentiated cells such as sperm, nerve, muscle and pancreatic cells, where such events are crucial for function.Read moreRead less
A Longitudinal Study Of Knee Osteoarthritis Using X-ray And Magnetic Resonance Imaging
Funder
National Health and Medical Research Council
Funding Amount
$861,925.00
Summary
Osteoarthritis is the most common form of arthritis and commonly affects the hand hip and knee in older Australians with an annual cost of around 4 billion dollars. This study will lead to a greater understanding of the role of factors influencing the development and progression of osteoarthritis of the knee by utilising a novel magnetic resonance imaging technique. In particular, it will focus on the role of physical activity and bone underlying the cartilage. If associations are discovered, ac ....Osteoarthritis is the most common form of arthritis and commonly affects the hand hip and knee in older Australians with an annual cost of around 4 billion dollars. This study will lead to a greater understanding of the role of factors influencing the development and progression of osteoarthritis of the knee by utilising a novel magnetic resonance imaging technique. In particular, it will focus on the role of physical activity and bone underlying the cartilage. If associations are discovered, accurate public health messages regarding prevention can then be developed.Read moreRead less
Biogenesis Of Respiratory Chain Complex I And Analysis Of Assembly Defects In Patients With Mitochondrial Disease
Funder
National Health and Medical Research Council
Funding Amount
$254,250.00
Summary
Complex I of the mitochondrial respiratory chain is a large assembly of protein subunits that is involved in the main production of cellular energy. Complex I is found in intracellular compartments termed mitochondria. The predicament for Complex I is that in order for it to be built, it requires 38 different proteins that are made in one place in the cell to be imported into mitochondria and then somehow joined together with the 7 other subunits that are made by mitochondria. This is clearly a ....Complex I of the mitochondrial respiratory chain is a large assembly of protein subunits that is involved in the main production of cellular energy. Complex I is found in intracellular compartments termed mitochondria. The predicament for Complex I is that in order for it to be built, it requires 38 different proteins that are made in one place in the cell to be imported into mitochondria and then somehow joined together with the 7 other subunits that are made by mitochondria. This is clearly a complicated procedure and we have little information on how its assembly is achieved. We do know however that mistakes in the assembly of Complex I do happen. In Australia, about 50 children born each year have inherited disorders of mitochondrial energy generation. The most severe disorders cause infant death, while others present later causing a range of degenerative diseases, particularly affecting brain, muscle and heart. The most common defect in these patients is a loss in the activity of Complex I. Interestingly it seems that in most cases, the defect is not due to a mutation in one or more of the Complex I subunits and so we believe that such defects arise form accessory proteins that are involved in the construction of Complex I. The aim of this proposal is to investigate how Complex I is assembled and to identify and characterise accessory proteins. We will also analyse assembly defects by studying skin fibroblasts from patients. This work will aid in our understanding of not only how protein complexes are built, but how defects in their assembly can cause disease. This will not only be informative to families of affected individuals but may aid in future diagnosis and prevention of mitochondrial disease.Read moreRead less