Coordination Of Withdrawal From The Cell Cycle By Transcriptional Repression
Funder
National Health and Medical Research Council
Funding Amount
$271,650.00
Summary
Cancer is characterised by changes in several fundamental cellular processes including the failure of the cancer cells to stop growing in response to the body's normal stop signals.. When cells normally stop growing there is profound changes in the activity of many genes. This proposal aims to investigate how these changes in gene activity are brought about. We propose that a recently discovered family of genes called SWI-SNF work with two other families of genes (the Mad-family and Rb-family) t ....Cancer is characterised by changes in several fundamental cellular processes including the failure of the cancer cells to stop growing in response to the body's normal stop signals.. When cells normally stop growing there is profound changes in the activity of many genes. This proposal aims to investigate how these changes in gene activity are brought about. We propose that a recently discovered family of genes called SWI-SNF work with two other families of genes (the Mad-family and Rb-family) to bring about the cessation of cell growth. If our proposal is proven it will open new avenues to evaluate the growth properties of human cancers and may lead to novel strategies to inhibit cell growth.Read moreRead less
The Role Of Dysregulated VEGFs In Lymphatic And Non-lymphatic Vascular Malformations
Funder
National Health and Medical Research Council
Funding Amount
$389,486.00
Summary
Vascular malformations are abnormal growths of blood vessels that affect hundreds of children born in Australia every year. They range from small birthmarks to large destructive growths that cause chronic pain, bleeding and major deformity. This is the largest ever study to systematically look for the biological drivers that cause these growths so that drug treatments will ultimately be able to replace surgery as the first line treatment.
Hormonal Modulation Of Prostatic Growth And Contractility
Funder
National Health and Medical Research Council
Funding Amount
$324,237.00
Summary
With increasing age human males are likely to develop benign prostatic hyperplasia (BPH), a disorder characterized by urethral obstruction due to an increase in size of the prostate gland. Drug treatments of this condition are not entirely satisfactory and the current project is to examine the mechanisms by which the prostate grows and occludes the urethra. We will use human prostate cells grown in artificial conditions to determine which hormones alter the types of cells and especially examine ....With increasing age human males are likely to develop benign prostatic hyperplasia (BPH), a disorder characterized by urethral obstruction due to an increase in size of the prostate gland. Drug treatments of this condition are not entirely satisfactory and the current project is to examine the mechanisms by which the prostate grows and occludes the urethra. We will use human prostate cells grown in artificial conditions to determine which hormones alter the types of cells and especially examine those cells which can contract as these may be of critical importance in the urethral obstruction. We hypothesize that an enzyme called protein kinase C may be implicitly involved in both cell growth and contractile function and we will examine the role of protein kinase C with a view ultimately to develop drugs which may interfere with this process and therefore aid in non-surgical treatment of the condition.Read moreRead less
The Mechanism By Which Apical-basal Polarity Complexes Regulate The Salvador-Warts-Hippo Pathway
Funder
National Health and Medical Research Council
Funding Amount
$540,099.00
Summary
Cancer is a multi-hit process involving the activation of critical signaling pathways leading to increased proliferation, survival and increased invasion-metastasis. We have discovered that a neoplastic tumour suppressor gene, lgl, acts though the Salvador-Warts-Hippo (SWH) tumour suppressor pathway to inhibit cell proliferation and cell survival. Here we use the model organism, Drosophila, and mammalian epithelial cells to determine the mechanism by which Lgl activates the SWH pathway.
The Tumour Suppressor Lgl In The Regulation Of Cell Signaling, Proliferation And Apoptosis
Funder
National Health and Medical Research Council
Funding Amount
$534,871.00
Summary
Cancer is a disease that affects 1-3 people at some point in their lifetime. Therefore, understanding what causes cancer is of major importance to medical science. This proposal focuses on a group of tumour suppressors, Scrib-Dlg-Lgl, which act in a common pathway to regulate cell polarity (cell shape) and proliferation. We have shown that Lgl also regulates cell death. This proposal focuses on understanding the mechanism by which Lgl regulates the cell proliferation and death machinery.
Receptors And Ligands Regulating Human NK Cell Proliferation
Funder
National Health and Medical Research Council
Funding Amount
$692,040.00
Summary
A white blood cell called a Natural Killer (NK) cell is critical in the early control of viral infections and cancer. NK cells kill the diseased cells and secrete immunological hormones (cytokines) that alter how cells of the blood and immune systems respond. These functions of NK cells are markedly increased when NK cells are stimulated to divide. This project seeks to understand how NK cell proliferation is controlled. Receptors that recognise 'self' inhibit NK cell function and cell division ....A white blood cell called a Natural Killer (NK) cell is critical in the early control of viral infections and cancer. NK cells kill the diseased cells and secrete immunological hormones (cytokines) that alter how cells of the blood and immune systems respond. These functions of NK cells are markedly increased when NK cells are stimulated to divide. This project seeks to understand how NK cell proliferation is controlled. Receptors that recognise 'self' inhibit NK cell function and cell division thereby preserving self and destroying diseased cells. Yet many NK cells express both an inhibitory and activating receptor for this same 'self' protein. We will investigate what determines the outcome of this competing information. Many NK cell receptors remain to be identified and we will use a gene expression approach and monoclonal antibodies to identify these and determine how they affect NK cell proliferation. We will use molecular engineering to construct multimeric arrays of new NK cell receptors to search for the ligand molecules that they interact with on other cells. Identifying NK cell receptors and their ligands regulating NK cell proliferation and function will enable us to understand the role of these cells in health and in inflammatory diseases and cancer.Read moreRead less
Australian Drosophila Biomedical Research Support Facility
Funder
National Health and Medical Research Council
Funding Amount
$1,008,895.00
Summary
Breakthroughs in biomedical research frequently come from the study of model organisms, one of the most important of which is the vinegar fly, Drosophila melanogaster. In Australia, Drosophila is used in biomedical research with a particular focus on understanding processes that result in human cancer or are associated with birth defects or inherited diseases. Drosophila-based research is funded by bodies such as the Anti-Cancer Foundation, the National Health and Medical Research Council (NH an ....Breakthroughs in biomedical research frequently come from the study of model organisms, one of the most important of which is the vinegar fly, Drosophila melanogaster. In Australia, Drosophila is used in biomedical research with a particular focus on understanding processes that result in human cancer or are associated with birth defects or inherited diseases. Drosophila-based research is funded by bodies such as the Anti-Cancer Foundation, the National Health and Medical Research Council (NH and MRC) and the National Institutes of Health of the USA. This proposal seeks to establish infrastructure support for Drosophila research in the form of a central collection of key research stocks, a centralized facility for the importation of genetically defined stocks and a facility for the generation of transgenic Drosophila for use in biomedical research.Read moreRead less
Differential roles of gene family members in development of a cell lineage. This project aims to investigate how a family of genes influence cells in the testis to become mature sperm. Testicular cells regulate gene activity via the Snail family of proteins during sperm development, and interruption of their activities reduces fertility in mice and fruit flies. The project aims to use genetic, cell biological and biochemical studies in Drosophila and mice to compare different Snail family protei ....Differential roles of gene family members in development of a cell lineage. This project aims to investigate how a family of genes influence cells in the testis to become mature sperm. Testicular cells regulate gene activity via the Snail family of proteins during sperm development, and interruption of their activities reduces fertility in mice and fruit flies. The project aims to use genetic, cell biological and biochemical studies in Drosophila and mice to compare different Snail family proteins in spermatogenesis. The outcomes will define the different roles of highly similar proteins from the same family in differentiation of a single cell lineage. This is important in generating functional tissues using in vitro laboratory approaches or understanding how normal development and developmental disorders arise.Read moreRead less
Understanding the potency and role of individual stem cells in the skin using Rainbow technology. To renew itself, the skin and its components rely on the activity of stem cells. This project will define more precisely the role of each individual stem cell by labelling them with a unique colour and following its fate. This project has the potential to change our current view on how the skin maintains and repairs itself.