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Factors Regulating The Temporal And Spatial Assembly Of G-protein Coupled Receptor-mediated Arrestin Complexes
Funder
National Health and Medical Research Council
Funding Amount
$472,770.00
Summary
G-protein coupled receptors are proteins that are present at the surface of most cells in the human body. They recognise and bind to specific molecules, such as hormones, the act of which results in a specific signal being transmitted into the cell. This signal alters the function of the cell and so it is critical that it is appropriate, both in type and duration. G-protein coupled receptors and the molecules that activate them provide an essential function within the human body for communicatin ....G-protein coupled receptors are proteins that are present at the surface of most cells in the human body. They recognise and bind to specific molecules, such as hormones, the act of which results in a specific signal being transmitted into the cell. This signal alters the function of the cell and so it is critical that it is appropriate, both in type and duration. G-protein coupled receptors and the molecules that activate them provide an essential function within the human body for communicating between cells, and consequently between organs. They are a major mechanism by which nerve signals are transmitted and hormones regulate bodily functions. They are therefore an important target for pharmaceuticals, with up to 50% of ethical drugs and many drugs of abuse acting upon them. It is critical to understand how these receptors alter cellular function once they receive an appropriate signal, but it is also essential to know how such responses are switched off. Arrestins are proteins within cells that interact with G-protein coupled receptors to 'arrest' their signalling. They desensitise the cell to continuous stimulation, but also act to resensitise the cell to respond to future, separate signals. Recently, they have also been shown to provide alternative mechanisms of altering cellular activity by interacting with other cellular proteins. These interactions greatly increase the potential ways in which a cell can respond once a G-protein coupled receptor is activated. Understanding the resulting complexity is essential if we are to fully exploit the vast therapeutic potential of this important receptor family.Read moreRead less
The Identification Of Novel Genes Involved In The Initiation And Development Of Thyroid Neoplasia
Funder
National Health and Medical Research Council
Funding Amount
$227,545.00
Summary
Thyroid cancer is the most frequently diagnosed endocrine malignancy, comprising 1% of all human malignancy. However, its actual occurrence indicated by autopsy studies may be as high as 10%. To date, a number of genes, both oncogenes (genes that are inappropriately switched on and take part in the process of tumour development) and tumour suppressor genes (genes that are switched off and lose their protective role against tumour development), have been implicated in the development of thyroid c ....Thyroid cancer is the most frequently diagnosed endocrine malignancy, comprising 1% of all human malignancy. However, its actual occurrence indicated by autopsy studies may be as high as 10%. To date, a number of genes, both oncogenes (genes that are inappropriately switched on and take part in the process of tumour development) and tumour suppressor genes (genes that are switched off and lose their protective role against tumour development), have been implicated in the development of thyroid cancer. However mutations, mistakes in the genetic code, of these genes account for only a small percentage of thyroid tumours and none of these genes have been shown to be useful as clear prognostic markers for tumour progression or aggressiveness. The merging of the 2 fields of cytogenetics (the study of chromosomes) and molecular genetics (the study of genes at the DNA and RNA level) has strengthened our ability to understand the process of tumour development. We are proposing use of a technique called Comparative Genomic Hybridisation to aid in the identification of new genes associated with tumour development in both benign and malignant thyroid disease. This technique has already been used to aid in the location of genes with a role in ovarian and brain cancer and in some familial syndromes characterised by breast and gastrointestinal malignancies. This method involves the detection of regions of chromosomal amplifications or deletions in tumour DNA that is fluorescently labelled (green), mixed with normal human DNA also fluorescently labelled (red). If the tumour contains regions of amplification (likely housing an oncogene), analyses show increased green fluorescence and if deletions are present (likely housing a tumour suppressor gene), analyses show increased red fluorescence. Chromosomal regions identified by this method will be further analysed to identify the precise genes they contain and establish a role for these genes in the development of thyroid tumours.Read moreRead less