Diseases Of Aminoacid Transport: Genetic, Molecular And Biochemical Studies
Funder
National Health and Medical Research Council
Funding Amount
$394,173.00
Summary
Aminoacids are essential building blocks of all living things. They are taken up and retained in the body by highly specific pumps on the surface of cells. By understanding the mechanisms that control aminoacids, we will not only uncover pathways common to normal biology but also shed light on mechanisms of disease in humans. Specifically, the aminoacidurias include a number of inherited diseases of aminoacid transport that result in failure of uptake and retention of particular aminoacids. Hart ....Aminoacids are essential building blocks of all living things. They are taken up and retained in the body by highly specific pumps on the surface of cells. By understanding the mechanisms that control aminoacids, we will not only uncover pathways common to normal biology but also shed light on mechanisms of disease in humans. Specifically, the aminoacidurias include a number of inherited diseases of aminoacid transport that result in failure of uptake and retention of particular aminoacids. Hartnup disease is an inherited disorder of neutral aminoacid transport that can lead to a sun-sensitive skin rash, difficulties in controlling movements and walking and other neurological symptoms including mental retardation. A major feature of Hartnup disease is its clinical variability. We have recently identified the main genetic cause for Hartnup disease, and named the gene SLC6A19. We wish to examine whether the clinical variability observed is a consequence of genetic changes and variability in SLC6A19 and other possible genes. Two other aminoacidurias to be studied are dicarboxylic aminoaciduria and iminoglycinuria; both of which are also variable in their clinical consequences ranging from normality to mental retardation. Owing to the relative rarity of these disorders, we are fortunate to have exclusive access to individuals identified by the largest neonatal screening programme for aminoacidurias in the world, based in Canada, and other clinical cohorts within Australia. We will undertake genetic testing to localise and-or confirm the gene(s) involved in these diseases for the first time anywhere and then seek to explain their clinical variability based on functional analyses. We have established a team of researchers with complementary skills from three sites comprising the Australian Aminoaciduria Consortium. Outcomes from this project should impact on the causes and possible therapies for other important medical diseases including motor neurone disease.Read moreRead less
Noncoding RNAs As Prognostic Markers And Therapeutic Targets In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$550,283.00
Summary
Normal human development involves a symphony of genetic changes that control the growth and differentiation of different types of cells during embryogenesis. For many years it has been assumed that most genetic information is transacted by proteins, and that the remaining 98% of the human genome that does not encode proteins was (apart from a limited amount of associated regulatory elements) largely non-functional evolutionary junk. However, this may not be the case. Recent results from our labo ....Normal human development involves a symphony of genetic changes that control the growth and differentiation of different types of cells during embryogenesis. For many years it has been assumed that most genetic information is transacted by proteins, and that the remaining 98% of the human genome that does not encode proteins was (apart from a limited amount of associated regulatory elements) largely non-functional evolutionary junk. However, this may not be the case. Recent results from our laboratory and others have shown that most of our genome and that of other mammals is actually expressed as noncoding RNA, which appears to be developmentally regulated. These RNAs (of which there appear to be tens of thousands, well outnumbering the protein-coding mRNAs) have been referred to as the hidden layer or dark matter of our genome, as they have barely been studied, but appear to play a central role in both normal and abnormal development in humans. There is now increasing evidence that many noncoding RNAs, including small regulatory RNAs called microRNAs, are perturbed in cancer and that these perturbations may be directly involved in, and be an accurate indicator of, cancer state and the direction of cancer progression. If this is true we need to understand the expression and functions of these RNAs in order to develop better diagnostics and perhaps powerful new therapeutics for cancer, based on RNA technology and generic delivery systems. This project will explore the patterns of noncoding RNA expression in normal breast development and in breast cancer, to identify those RNAs that direct or accompany the differentiation of these tissues, and to test the effects of interfering with their expression on these processes. These foundation studies lie at the leading edge of a new understanding of human genetics and cancer, and will provide a platform for future applications in medicine that utilize this information and understanding.Read moreRead less