Interplay Between Mutant P53 And PML; Implications For Tumourigenesis.
Funder
National Health and Medical Research Council
Funding Amount
$483,737.00
Summary
The most important agent of the body for fighting cancer is the cellular protein p53. In more than 50% of all human cancers, it looses its anticancer properties through mutation. In an insidious manner this new mutant form then acts to promote cancer. To better treat cancer we need to understand how mutant p53 functions. We will study how it interacts with its molecular partners in cancer cells.
Targeting MYC-driven Cancers By Inhibition Of The MTOR Pathway
Funder
National Health and Medical Research Council
Funding Amount
$547,970.00
Summary
This proposal will evaluate a new strategy for treating cancers associated with the cancer causing gene MYC. Globally there are more than 1 million cases of MYC-associated cancers diagnosed per year. Based on encouraging early results we will test if turning off the proteins associated with mTOR will be an effective strategy for treating MYC cancers using state-of-the-art cancer models and investigate why these cancers respond.
The use of chemotherapy for the treatment of cancer has improved outcomes in many types of cancer. Recent reserach has uncovered how and why cancer cells respond to chemotherapy. This reserach proposal will use this knowledge to evaluate a new approach to cancer treatment by targeting a process called cell cycle checkpoints. Specifically this proposal will evaluate the difference between normal cells and cancer cells and use imaging to examine response to these new treatments.
Function Of FOR Gene Products In Normal And Cancer Cells
Funder
National Health and Medical Research Council
Funding Amount
$521,310.00
Summary
Cancer cells usually exhibit the loss of control of normal cell functions. This involves the increase of proteins which promote growth and cell division and the decrease in proteins which inhibit growth and cell division. Loss of function may also occur in proteins that are normally involved in killing the cell when growth becomes uncontrolled. Many of these proteins interact with one another and in so doing establish pathways and networks of control which must be perturbed and overridden in the ....Cancer cells usually exhibit the loss of control of normal cell functions. This involves the increase of proteins which promote growth and cell division and the decrease in proteins which inhibit growth and cell division. Loss of function may also occur in proteins that are normally involved in killing the cell when growth becomes uncontrolled. Many of these proteins interact with one another and in so doing establish pathways and networks of control which must be perturbed and overridden in the cancer cell. Sometimes this is because the role of the protein is altered in the cancer cell compared to what it normally is in a normal cell. The main aim of this study is to understand the role that is played by a set of proteins that are coded by a single gene. This gene (which we refer to as the FOR gene) spans a region of the human genome which is sensitive to a particular type of mutation. This mutation takes place early in tumour development and therefore we believe that it has important role to play in determining the fate of the cell - helping to cause it to become a tumour cell. We will find out which other proteins in the cell the FOR proteins interact with. Where these proteins are known then this will help determine the pathways in the cell in which the FOR proteins participate. In another approach we will establish animal models (in mice and flies) of mutations in the FOR genes of these species. The transgenic mice will help us find out whether the mutations that we have observed in the FOR gene in various human cancers cause increased sensitivity to mutagens and in so doing aid in transforming normal cells into cancer cells. The transgenic flies will help us identify the metabolic pathways in which the FOR proteins participate. These studies will help understand the roles of the FOR proteins and their significance in cancer.Read moreRead less