Investigation Of DUSP5 As A Novel Tumour Suppressor Gene In Colon Cancer
Funder
National Health and Medical Research Council
Funding Amount
$578,268.00
Summary
Colon cancer is the second leading cause of cancer related death in Australia. Understanding the genetic causes of this disease are essential to developing new treatment strategies. The goal of this study is to understand the role of the DUSP5 gene in colon cancer. The findings of this study has the potential to further our understanding of how colon cancers arise and for identifying patients likely to respond to specific existing treatments.
Precision Prevention Of Colorectal Cancer: Understanding Tumourigenesis In High Risk People To Optimise Prevention
Funder
National Health and Medical Research Council
Funding Amount
$1,562,250.00
Summary
Bowel cancer, Australia’s second most common cause of cancer death, is one of the most preventable cancers. We know some people have a high risk because they carry changes in their DNA, or they have many pre-cancerous growths (polyps). Bowel cancer is increasing in young people, before 50 years of age, with no known reason. If we can identify people who have a high risk and understand how and why it develops in young Australians, we can prevent these cancers.
I am a molecular-cell biologist studying the genetic regulation of intestinal homeostasis in development and disease with the aim of identifying novel molecular targets for the treatment of disease and that can be validated in relevant preclinical mouse models.
Understanding The Molecular Basis Of Inherent And Acquired Resistance To Targeted Therapies In Metastatic Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$107,750.00
Summary
Targeted therapies aim to block cancer growth by interfering with specific molecules needed for its development and progression. Targeted therapies have led to improved responses and survival in patients with metastatic colorectal cancer. However, not all patients benefit from these treatments, and most patients who do respond eventually develop resistance. The aim of this research is to understand the mechanisms of resistance to these treatments, in order to improve their use in patients.
Regulation Of Adult Colonic Crypt Homeostasis And Activation Of Colon Cancer Metastasis Genes By C-Myb
Funder
National Health and Medical Research Council
Funding Amount
$666,116.00
Summary
Regulation of normal colon biology and activation of genes involved colon cancer The c-myb gene is essential for the normal biology of the blood system and the colon. This gene is involved in regulating the balance between the production of new cells and their timely removal once they have completed their assigned tasks. There is a large body of evidence that supports the role of c-myb in the regulation of the blood system. We believe that the rules that govern the production of the huge number ....Regulation of normal colon biology and activation of genes involved colon cancer The c-myb gene is essential for the normal biology of the blood system and the colon. This gene is involved in regulating the balance between the production of new cells and their timely removal once they have completed their assigned tasks. There is a large body of evidence that supports the role of c-myb in the regulation of the blood system. We believe that the rules that govern the production of the huge number of cells needed to have a healthy blood system are similar if not identical to the rules used by the colon. This is because the colon also produces a massive number of cells each with special tasks and a defined life span of a few days. It is this rapid expansion of cell numbers and the programmed short life span of cells that necessitates multiple controls and very tight regulation. Furthermore if this process is hijacked by genetic changes that undermine these controls then there are numerous opportunities to initiate and potentiate malignant change or cancer. This project examines the role of the same genes in two contexts. Firstly when the genes are expressed at normal, highly regulated levels associated with the normal biology of the colon. The second context is when these genes are permitted to be over-expressed and thus drive processes for longer or in inappropriate situations leading to malignant growth.Read moreRead less
Convergence Of Activated C-myb And Wnt Pathways In Colon Cancer
Funder
National Health and Medical Research Council
Funding Amount
$256,320.00
Summary
c-myb is essential for the normal biology of the blood system and the colon. It is involved in regulating the balance between the production of new cells and their timely removal once they have completed their assigned tasks. Another group of factors that make up theWnt pathway also contribute to the normal biology of the colon in man and mouse. Defects that lead to too much c-myb and ineffective control of the Wnt pathway appear to work together to increase the risk and severity of colon cancer ....c-myb is essential for the normal biology of the blood system and the colon. It is involved in regulating the balance between the production of new cells and their timely removal once they have completed their assigned tasks. Another group of factors that make up theWnt pathway also contribute to the normal biology of the colon in man and mouse. Defects that lead to too much c-myb and ineffective control of the Wnt pathway appear to work together to increase the risk and severity of colon cancer. This project is designed to specifically test this observation in animals. In addition it examines in fine detail how c-myb levels increase in colon cancer and how it combines with the Wnt pathway to regulate other genes in colon cancer.Read moreRead less
Understanding The Role Of The IL11-Stat3-Th17 Signaling Axis In Gastrointestinal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$531,743.00
Summary
Gastrointestinal cancers arise when abnormal cells grow out from otherwise normal tissue. The resulting tumours contain a number of different types of cells, some of which help the tumour to grow, and some of which fight the tumour. We are interested in understanding how soluble molecules called cytokines influence the cells that promote tumour growth. In particular, we will explore the role of a cytokine called Interleukin-11 in these processes to identify novel cancer therapies.
Identification Of Genes Regulating Vertebrate Intestinal Development
Funder
National Health and Medical Research Council
Funding Amount
$465,750.00
Summary
Colorectal cancer (CRC) causes 14 per cent of all cancer deaths in Australia. While early detection improves survival rate, nearly half of all CRC patients succumb to the disease within five years. In general, metastatic CRC is resistant to chemotherapy and radiotherapy and new therapies are required. An increased knowledge of the processes that contribute to the malignant state is likely to suggest new targets for treatment. CRC, like all cancer, is the result of genetic abnormalities (mutation ....Colorectal cancer (CRC) causes 14 per cent of all cancer deaths in Australia. While early detection improves survival rate, nearly half of all CRC patients succumb to the disease within five years. In general, metastatic CRC is resistant to chemotherapy and radiotherapy and new therapies are required. An increased knowledge of the processes that contribute to the malignant state is likely to suggest new targets for treatment. CRC, like all cancer, is the result of genetic abnormalities (mutations) that are acquired over the course of a lifetime. Together the mutated genes produce changes in cell behaviour in processes such as growth, migration, angiogenesis (the ability to attract a blood supply) and cell death. All of these processes are active during normal development of a vertebrate organism, but are generally shutdown in the adult state, except in cancer. In this study, we propose to identify a set of genes that control the development of the intestine in a small tropical fish, the zebrafish. Zebrafish are vertebrate organisms, closely related to mice and man. Essentially all the pathways regulating development are conserved in the three species. The zebrafish offers several advantages: they are small, easy to breed, cheap to maintain and, most importantly, their embryos are transparent, making it possible to visualise development in live embryos in a simple microscope. Our project will use a panel of mutant strains of zebrafish that have an array of visible abnormalities in intestinal development. The abnormalities were induced using a chemical that produces single base pair changes in DNA. An established technique called positional cloning will allow us to identify the genes in which the mutations have been introduced, and provide a genetic explanation for the intestinal abnormalities. Upon identification of the mutated genes, our ultimate aim will be to test whether they also play a role in the development of CRC, using mouse models and human tissues.Read moreRead less
Investigating The Roles Of The Wnt And Notch Signalling Systems In Colon Cancer Crypt Biology
Funder
National Health and Medical Research Council
Funding Amount
$604,439.00
Summary
Colon cancer occurs because of mutations to a tumour suppressor gene. These mutations alter the growth and positional signals for the cancer cells. This project aims to produce a computer model of the regulatory processes in normal colonic cells, to discover why the mutations lead to cancer and to discover rational drug targets for interfering with the growth of colon cancer cells.