Wbp2, A New Regulator Of The Hippo Tumor Suppressor Pathway
Funder
National Health and Medical Research Council
Funding Amount
$585,860.00
Summary
The Hippo pathway is a key regulator of tissue growth. It was first discovered in vinegar flies and plays a similar role in mammals. We aim to define the mechanism by which a newly-identified Hippo pathway protein, Wbp2, functions to control growth. These studies will be performed in flies and confirmed in mammalian cells. Ultimately, our studies will shed light on how tissue growth is controlled, and have the potential to inform the way that we treat human cancers and tissue growth disorders.
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
Genetic Fate Mapping Of Mesenchymal Stem Cell Origins And Investigating Their Contribution To Developmental Haematopoiesis
Funder
National Health and Medical Research Council
Funding Amount
$611,525.00
Summary
Mesenchymal stem cells are a population of cells that reside in various organs in the body and are thought to contribute to tissue repair. However little is known about the developmental origins and identity of these cells. I will investigate where these cells originate from, their molecular identity and how they relate to blood development. These findings will help in developing protocols to manipulate these cells to repair damaged organs. This study will also inform current attempts to generat ....Mesenchymal stem cells are a population of cells that reside in various organs in the body and are thought to contribute to tissue repair. However little is known about the developmental origins and identity of these cells. I will investigate where these cells originate from, their molecular identity and how they relate to blood development. These findings will help in developing protocols to manipulate these cells to repair damaged organs. This study will also inform current attempts to generate blood stem cells.Read moreRead less
Targeting Of The Myb-p300 Interaction In Myeloid Leukaemogenesis
Funder
National Health and Medical Research Council
Funding Amount
$625,980.00
Summary
MYB is a “cancer gene” which turns other genes on or off. MYB is needed by leukaemia cells but also for normal blood cell formation. This project aims to show that blocking interaction between the MYB protein and another protein called p300 is a promising strategy for leukaemia treatment, as leukaemia cells are more dependent on this interaction than normal cells. New molecules to block the MYB-p300 interaction will also be designed and tested; these may form a basis for new leukaemia drugs.
Cancer is constantly being suppressed in our bodies by a process that stops damaged cells from growing: 'senescence'. The mechanism that translates the damage stimuli into this state of permanent cell arrest is only partially known. We have identified a protein that appears to drive this restraint. The possibility of manipulating this process to prevent and cure cancer makes it in important target to study.
Is Mitochondiral STAT3 Necessary For K-Ras Induced Myeloid Leukaemias?
Funder
National Health and Medical Research Council
Funding Amount
$425,326.00
Summary
Myeloid leukaemia (ML) is a family of diseases characterized by the expansion of white blood cells, leading to death from haematopoietic complications. One common mutation that gives a proliferative advantage in ML is in the Ras oncogenes. We recently showed that signal transducer and activator of transcription 3 (STAT3) is necessary for the transforming potential of Ras due to its ability to support the metabolic changes necessary for tumour growth. This research will characterize the STAT3-dep ....Myeloid leukaemia (ML) is a family of diseases characterized by the expansion of white blood cells, leading to death from haematopoietic complications. One common mutation that gives a proliferative advantage in ML is in the Ras oncogenes. We recently showed that signal transducer and activator of transcription 3 (STAT3) is necessary for the transforming potential of Ras due to its ability to support the metabolic changes necessary for tumour growth. This research will characterize the STAT3-dependent metabolic changes in ML.Read moreRead less
A Mechanotransduction Apparatus To Coordinate Epithelial Collective Cell Migration.
Funder
National Health and Medical Research Council
Funding Amount
$994,596.00
Summary
Epithelial cells migrate as physically coherent collective groups, which is necessary for normal development and is disrupted as cancers progress to become invasive and spread. Collective migration requires communication so that the behaviour of individual cells is properly coordinated. In this project we investigate how the transmission of physical force between cells allows them to communicate; and test how its disruption contributes to cancer invasion.
Understanding The Role Of The Atypical Cadherin Fat4 In Lymphatic Vascular Development
Funder
National Health and Medical Research Council
Funding Amount
$1,006,248.00
Summary
This application will define the role of a large cell adhesion molecule, FAT4, in lymphatic vascular development. By understanding how FAT4 functions in lymphatic vessels, we will gain insight to the mechanisms by which mutations in the gene that encodes this protein cause a human lymphoedema syndrome.
Regulation Of T Cell Effector Function In Peripheral Tissues
Funder
National Health and Medical Research Council
Funding Amount
$698,550.00
Summary
Protection from infections relies on different types of immune cells. While some of these cells are found in the blood, others reside in peripheral tissues such as the skin. We will analyse the function of these peripheral immune cells to understand how they work to fight off infections. We will also investigate how so-called memory cells that permanently reside in peripheral tissues can protect from re-infection with similar bacteria or viruses.
The Role Of Clathrin In The Spindle Assembly Checkpoint And As An Anti-cancer Target
Funder
National Health and Medical Research Council
Funding Amount
$651,768.00
Summary
Cell division produces two daughter cells. Incorrect localisation and modification of proteins that regulate mitosis cause errors that can lead to cancer. As well as using a unique machinery mitosis uses proteins involved in non-cell cycle pathways. This project investigates the role during mitosis of one such protein: clathrin. We will identify lead clathrin inhibitory compounds, pitstops, that have potential anti-cancer properties, ultimately to be used as a chemotherapy agent.