Control Of The Ras/Erk Signaling Pathway By The Brahma Chromatin-remodeling Complex
Funder
National Health and Medical Research Council
Funding Amount
$524,820.00
Summary
Hormones bind and initiate molecular signals within cells to proliferate or change into specific cell types. This is important for growth and development of different tissues. A pathway which is critical for transmitting the effects of hormones in cells is the Ras pathway. New studies by the applicants indicate that the Brahma complex, a molecule important in controlling the levels of proteins in cells, activates the Ras pathway. This project will define how Brahma controls the Ras pathway.
Wnt And MAPK Signalling In The Determination Of Colorectal Neoplasia Pathway
Funder
National Health and Medical Research Council
Funding Amount
$397,179.00
Summary
Polyps are growths in the bowel that may progress to become a bowel cancer. To prevent the development of cancer, these polyps must be removed by timely colonoscopy. There are many different types of bowel polyps, and these are associated with distinct genetic changes and likelihood of recurrence. This study aims to better understand the DNA changes that occur in bowel polyps and how these impact the clinical features of the polyps. In the future this will aid detection and surveillance strategi ....Polyps are growths in the bowel that may progress to become a bowel cancer. To prevent the development of cancer, these polyps must be removed by timely colonoscopy. There are many different types of bowel polyps, and these are associated with distinct genetic changes and likelihood of recurrence. This study aims to better understand the DNA changes that occur in bowel polyps and how these impact the clinical features of the polyps. In the future this will aid detection and surveillance strategies.Read moreRead less
Identification Of Novel Tumour Suppressors In Ras-mediated Tumourigenesis
Funder
National Health and Medical Research Council
Funding Amount
$580,504.00
Summary
Cancer is a cooperative process, involving mutations in several genes. Activation of the signaling protein, Ras, contributes to ~30% of human cancers, but alone is not sufficient for tumour formation. The identification of cooperating Tumour Suppressors (TSs), and their analysis in the vinegar fly, Drosophila, mammalian cells and mouse models is key to understanding cancer progression and for the development of therapeutic regimes
Characterisation Of A New Family Of Proteins Involved In Cell Signalling, RNA Metabolism And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$200,880.00
Summary
We have discovered a novel RNA-binding protein (G3BP-2) that is involved in responding to external signals, such as growth factors, at the level of gene expression. Other RNA-binding proteins belonging to the same broad group of proteins are responsible for a host of disease states in mammals including mental retardation, myotonic dystrophy, Huntington?s disease and cancers. Considering the wealth of knowledge accumulated that implicates these proteins to human dysfunction surprisingly few of th ....We have discovered a novel RNA-binding protein (G3BP-2) that is involved in responding to external signals, such as growth factors, at the level of gene expression. Other RNA-binding proteins belonging to the same broad group of proteins are responsible for a host of disease states in mammals including mental retardation, myotonic dystrophy, Huntington?s disease and cancers. Considering the wealth of knowledge accumulated that implicates these proteins to human dysfunction surprisingly few of these RNA-binding proteins have been identified. We have shown that the novel protein discovered in our laboratory is perturbed in cancer and we are interested in characterising its putative role in cancer. The results established in our laboratory so far would indicate that generally, G3BP-2 is expressed in normal tissue and it expression changes in some cancers studied so far. Considering that G3BP-2 lies in a pathway known to be involved in cancer progression it is important to understand what effects the inappropriate expression of G3BP-2 may have on cancer progression and survival. This project is designed to characterise what signals the cell uses to control these proteins and in turn which genes these may effect. In this way we may be able to determine how external signals may effect tumour progression and on what genes this influence is expressed. It would be hoped that this project would increase our understanding of cancer and potentially lead to new diagnostic reagents and therapies in the treatment of cancer.Read moreRead less
Molecular Regulation Of Tumourigenesis By The Polarity Determinant Scribble And Associated Proteins
Funder
National Health and Medical Research Council
Funding Amount
$614,421.00
Summary
Cell polarity is the property of cells to be spatially oriented in a tissue or organ. We have shown that Scribble, a key regulator of cell orientation, may keep tumour development in check. In this proposal, we will examine how disruption of Scribble promotes breast cancer using a combination of tissue culture studies and a newly established mouse model. Understanding how this new pathway can regulate breast tumour development may provide novel targets for therapeutic intervention in cancer.
The Recently Discovered (pro)renin Receptor: Examination Of Its Role In Diabetes And Heart Disease
Funder
National Health and Medical Research Council
Funding Amount
$320,628.00
Summary
It is thought that a protein known as the (pro)renin receptor may cause cardiovascular disease, however little is known about its role in normal cell function. My project will investigate the normal function of this protein and determine what role it has in cardiovascular disease. This information will be essential for the development of new drugs. I will be conducting this research in a prestigious overseas laboratory, where I will learn new skills that I can bring with me back to Australia.
Tumour cells are often characterized by defects in signaling pathways. One of the most important signaling cascades involved in the development of cancer is the EGFR-Ras-MAPK pathway. EGFR is often overexpressed in breast cancer, leading to enhanced Ras signaling (hyperactive Ras) and cell transformation. The proposed project aims to identify the molecular mechanisms that can downregulate hyperactive Ras and will make a valuable contribution to our understanding of EGFR-Ras related cancers.
The Role Of Plasma Membrane Microdomains In Regulating Ras-dependent Raf Activation
Funder
National Health and Medical Research Council
Funding Amount
$216,100.00
Summary
In human cancers one or more of the signaling pathways leading from growth factor receptors at the cell surface to the nucleus where cell division is initiated are subverted. For example, a protein called Ras, that regulates a series of major signaling pathways, is mutated in 25% of all human tumours. This leaves Ras and the signaling pathways permanently switched on causing uncontrolled cell proliferation. Our previous work has demonstrated that Ras must be attached to the inner surface of the ....In human cancers one or more of the signaling pathways leading from growth factor receptors at the cell surface to the nucleus where cell division is initiated are subverted. For example, a protein called Ras, that regulates a series of major signaling pathways, is mutated in 25% of all human tumours. This leaves Ras and the signaling pathways permanently switched on causing uncontrolled cell proliferation. Our previous work has demonstrated that Ras must be attached to the inner surface of the cell membrane in order to function properly. This project now seeks to understand exactly how Ras attaches to and interacts with specific sites in the plasma membrane. Its is becoming clear that different isoforms of Ras, called H-, N- and K-ras have different functions in the cell which may in turn result from their different sites of attachment to the cell membrane. This is important because by understanding the precise micro-environment in which the different Ras proteins operate and how they activate subsequent proteins in their signaling networks we will be in a good position to design drugs that selectively compromise the function of each specific Ras isoform. A highly relevant example is provided by K-ras which is mutated in 90% of all pancreatic cancers and 50% of all colon cancers. Clearly the clinical impact of a drug that could selectively neutralise K-Ras function in these tumours is potentially enormous.Read moreRead less