Trabecular Architecture During Growth - Does It Determine Metaphyseal Peak Bone Strength In Adulthood?
Funder
National Health and Medical Research Council
Funding Amount
$165,339.00
Summary
Skeletal fragility is common is elderly people but has its origin in childhood. Strong bone established during growth will provide more protection against occurrence of fragility fracture in old age. Identifying individuals during childhood who are at high risk of skeletal fragility, and early intervention is a strategic approach managing the burden of skeletal fragility on the ageing population.
Migratory Cells To Ganglionated Network: Self-organization Of The Enteric Nervous System
Funder
National Health and Medical Research Council
Funding Amount
$328,294.00
Summary
The intestine has its own nervous system. This develops from cells that wander into the intestine during early development and self-organize to form the functional nervous system . The correct organization of the cells of this nervous system is required for correct intestine function. How they self-organize is not known, and there are diseases in which the process is disturbed. Molecular and cell biology and mathematical modelling will be used to understand how this occurs.
Maintenance Of Bone Strength In Aged Rats: The Vitamin D Requirement
Funder
National Health and Medical Research Council
Funding Amount
$543,301.00
Summary
Hip fracture remains the most devastating of the osteoporotic fractures particularly in women in whom the incidence increases to about 3% per annum by the ninth decade. This incidence is bound to increase as the population ages with increasing longevity. Supplementation of diets of elderly female nursing home residents with vitamin D and calcium has been shown to reduce the risk of hip fracture by 30% in two years. However we do not know how much vitamin D is necessary to maintain optimal bone s ....Hip fracture remains the most devastating of the osteoporotic fractures particularly in women in whom the incidence increases to about 3% per annum by the ninth decade. This incidence is bound to increase as the population ages with increasing longevity. Supplementation of diets of elderly female nursing home residents with vitamin D and calcium has been shown to reduce the risk of hip fracture by 30% in two years. However we do not know how much vitamin D is necessary to maintain optimal bone strength. This project will determine the level of vitamin D required to maintain optimal bone strength in aged rats using a simple blood test which could then be used to screen the elderly and identify those at risk of hip fracture from low vitamin D levels. The project will also investigate the effects of vitamin D on the bone cells that maintain optimal skeletal architecture. This information is essential for comparison with the current knowledge of other biochemical bone markets in blood and vitamin D status in the elderly, in order to develop nutritional recommendations to reduce the incidence of hip fracture.Read moreRead less
Hip fracture remains the most devastating of the osteoporotic fractures particularly in women, in whom the incidence increases to about 3% per annum by the ninth decade. This incidence is bound to increase as the population ages with increasing longevity. Supplementation of diets of elderly female nursing home residents with vitamin D and calcium has been shown to reduce the risk of hip fracture by 30% in two years. However we do not know how much vitamin D is necessary to maintain optimal bone ....Hip fracture remains the most devastating of the osteoporotic fractures particularly in women, in whom the incidence increases to about 3% per annum by the ninth decade. This incidence is bound to increase as the population ages with increasing longevity. Supplementation of diets of elderly female nursing home residents with vitamin D and calcium has been shown to reduce the risk of hip fracture by 30% in two years. However we do not know how much vitamin D is necessary to maintain optimal bone strength. This project will determine the level of vitamin Drequired to maintain optimal bone strength in adult and senescent rats using a simple blood test which could then be used to screen the elderly and identify those at risk a hip fracture from low vitamin D levels. The project will also investigate the effects of vitamin D on bone cells which is necessary to maintain optimal skeletal architecture. This information is essential for comparison with the current knowledge of other biochemical bone markers in blood and vitamin D status in the elderly, in order to develop nutritional recommendations to reduce the incidence of hip fracture.Read moreRead less
Computational Study Of Selectivity, Gating And Mutation In The Acetylcholine Receptor And Potassium Channels
Funder
National Health and Medical Research Council
Funding Amount
$301,393.00
Summary
One way cells in living organisms communicate with each other is via the passage of charged particles across the cell membrane. This takes place through ion channels, large protein molecules that span the membrane and allow small molecules or ions to pass through a central pore. Malfunction of ion channels is known to underlie a variety of disorders including epilepsy, hypertension, kidney disease, heart attack, deafness. Channels also provide promising targets for making new broad spectrum anti ....One way cells in living organisms communicate with each other is via the passage of charged particles across the cell membrane. This takes place through ion channels, large protein molecules that span the membrane and allow small molecules or ions to pass through a central pore. Malfunction of ion channels is known to underlie a variety of disorders including epilepsy, hypertension, kidney disease, heart attack, deafness. Channels also provide promising targets for making new broad spectrum antibiotics and antivirals. This project aims to study two important types of ion channel: acetylcholine receptors that convey signals between nerve and muscle cells, and potassium channels that regulate the nerve impulses themselves. The binding of the neurotransmitter acetylcholine released from a nerve cell to acetylcholine receptors in the muscle cell prompts the opening of a cation conductive pore. The resulting influx of ions initiates a cascade of events ending in the contraction of the muscle fibre. However, the way in which this channel opening is initiated and how ions move into the muscle cell remain to be determined. Potassium channels are primarily used to rapidly 'switch off' nerve impulses so that subsequent messages can be passed through the nerve cell. To do this they have to be highly discriminatory, allowing only potassium to pass across the cell membrane and not sodium that would initiate another impulse. Although we now know what these tiny proteins look like, it is not clear how they differentiate between types of ions while still allowing many millions to pass each second. We will use computer simulations to study how these two type of channel open and close, and how they discriminate between different ion types. Using sophisticated computational techniques on Australia's most powerful supercomputers we aim to elucidate this fundamental area of human biology in the hope of deriving treatments for some debilitating neuromuscular diseases.Read moreRead less
How The Intestinal Microenvironment Controls Propulsion And Mixing Of Food In The Gut: Parallel Transduction Pathways
Funder
National Health and Medical Research Council
Funding Amount
$1,157,350.00
Summary
This project will identify the mechanisms that control the mixing of food with digestive juices, the absoprtion of nutrients from the gut to the blood stream and the excretion of waste. Disruption of these processes causes significant health problems and is associated with normal aging and many diseases. We will identify nutrients and other food components (eg spices) that switch gut from mixing to propulsion and hence identify targets to treat disorders of gut movement.
Mechanisms By Which Chromatin Modulates Gene Expression.
Funder
National Health and Medical Research Council
Funding Amount
$267,750.00
Summary
Gene expression in a cell occurs in the nucleus where genes are stored. In the nucleus, DNA is not in a free form but is covered with an equivalent weight of protein to form a structure known as chromatin. Chromatin is a periodic structure made up of repeating, regularly spaced subunits, the subunit being the nucleosome. A nucleosome consists of a group of proteins (histones) wrapped around with DNA. A nucleosome is both capable of blocking and activating gene expression. Therefore one important ....Gene expression in a cell occurs in the nucleus where genes are stored. In the nucleus, DNA is not in a free form but is covered with an equivalent weight of protein to form a structure known as chromatin. Chromatin is a periodic structure made up of repeating, regularly spaced subunits, the subunit being the nucleosome. A nucleosome consists of a group of proteins (histones) wrapped around with DNA. A nucleosome is both capable of blocking and activating gene expression. Therefore one important function of chromatin is to tightly regulate gene expression which is essential to allow an organism to develop properly. When gene expression is not accurately controlled by chromatin developmental defects or cancer can result from the production of incorrect proteins. To control correct gene expression, highly specific mechanisms must operate in the cell to remove, or modify, nucleosomes at certain genes at a precise time during development. One mechanism that we believe to be important is changing the make-up of a nucleosome. This can be achieved in the cell by the replacement of histones with different specialized forms of these histones (variants). We believe that these histone variants can specifically generate chromosomal domains which could in some cases expose or in other cases hide certain genes and thereby turn them on or off. Employing a new approach, we will study one of these histone variants to discover the role it plays in determining the type of chromosomal domain made and the role of this domain has in turning genes on or off at precise times in early development during the formation of different specialized cell types. This new information may define targets for the prevention of incorrect gene expression during cancer progression or abnormal development.Read moreRead less
Every cell in our body has an intrinsic orientation that is controlled by a universal set of genes known as polarity genes. Loss of this orientation is a common and early feature of cancer. We have identified the gene Scribble as a gene that controls cell orientation and is essential to prevent the development of prostate cancer. We propose experiments to discover how Scribble controls prostate cancer and whether it can be used to better predict outcome for prostate cancer patients.
Neurobiological Effects Of Sleep Apnea And Sleepiness
Funder
National Health and Medical Research Council
Funding Amount
$320,437.00
Summary
Sleep apnea affects over one million Australians. It not only affects the quality of a persons sleep and the oxygen supply to their brain, but can cause sleepiness during the day which can in turn affect the ability of the person to conduct their normal activities. Over 30,000 sleep studies are conducted annually in Australia and current therapies result in significant improvements in the quality of life of the patient. However, the data analysis during these studies does not give a clear indica ....Sleep apnea affects over one million Australians. It not only affects the quality of a persons sleep and the oxygen supply to their brain, but can cause sleepiness during the day which can in turn affect the ability of the person to conduct their normal activities. Over 30,000 sleep studies are conducted annually in Australia and current therapies result in significant improvements in the quality of life of the patient. However, the data analysis during these studies does not give a clear indication of the degree to which individual patients may have problems with performing their normal tasks during the day. Tasks like driving vehicles are of particular interest due to the potential for accidents through fatigue or a lack of concentration. This research is designed to investigate the impact of sleep apnea on brain function and daytime performance using certain new techniques - more sophisticated analysis of the brain's activity, detection of brain chemicals and metabolism using a specific form of brain scan called MR spectroscopy, a special monotonous computer based driving simulator, an other tests of performance. We will assess a large group of patients with sleep apnea to determine how the impact of sleep apnea on performance may be differ throughout the population and how this may be affected by the current standard treatment for sleep apnea. We will examine the impact on brain function and performance of removing the current standard therapy in a group of patients previously diagnosed with sleep apnea (as this is a common occurrence in the community). We will also repeat some specific measurements on a control group without any symptoms of sleep apnea for the purpose of comparison. We plan to show a relationship between the effects of sleep apnea and the ability of a person to carry out activities such as driving and thinking. We will then be able to better assess the risk a patient may face and the most appropriate way to treat them.Read moreRead less