Nfib Regulates Glial Differentiation During Development And Disease Via Repression Of The Key Epigenetic Protein, Ezh2
Funder
National Health and Medical Research Council
Funding Amount
$572,912.00
Summary
Glial development is critical during development, and unrestrained proliferation of glial stem cells in the adult can lead to deadly brain cancers such as glioma. At present there is no cure for glioma and current treatments do not significantly delay tumour progression. Nfib is a transcription factor that may prevent tumour growth through cellular differentiation. We will investigate the role of Nfib during development and in the pathogenesis of glioma and its potential as a therapeutic target.
Regulation Of Neural Progenitor Cell Self-renewal By The RNA-binding Protein ZFP36L1 During Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$345,401.00
Summary
The timely differentiation of neural stem cells is critical during development, and the unrestrained proliferation of neural stem cells in the adult can lead to deadly brain cancers such as glioma. At present our understanding of the key molecules that regulate neural stem cell behaviour during these processes remains limited. In this proposal we will investigate the molecular determinants underpinning neural stem cell biology, both within the developing brain, and within glioma.
De-differentiation Of Committed Cells Into Haematopoietic Stem Cells By The Instructive Role Of The Transcription Factor HOXB4
Funder
National Health and Medical Research Council
Funding Amount
$683,040.00
Summary
Blood stem cells are long-lived and can give rise to every cell type of the blood system and due to these properties they are currently used in the clinics. Despite their importance, our knowledge of the mechanisms the control the multiplication of these rare cells is very scarce. This proposal aims to identify key factors that have the potential to convert mature, easy available blood cells into stem cells. This knowledge has to potential to lead to novel system that allow the expansion of stem ....Blood stem cells are long-lived and can give rise to every cell type of the blood system and due to these properties they are currently used in the clinics. Despite their importance, our knowledge of the mechanisms the control the multiplication of these rare cells is very scarce. This proposal aims to identify key factors that have the potential to convert mature, easy available blood cells into stem cells. This knowledge has to potential to lead to novel system that allow the expansion of stem cells for transplantations in the future.Read moreRead less
Using Direct Reprogramming To Generate And Rejuvenate Haematopoietic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$1,026,313.00
Summary
One of the greatest promises of regenerative medicine lies in our ability to reprogram any cell type of the body into any other cell type. Transdifferentiation is the conversion of one adult cell type to another and it is believed to be the next frontier in regenerative medicine therapies since it can be used in vivo for the direct conversion of one cell type into another. The outcomes of this grant will push the limits of these technologies to generate new regenerative medicine strategies.
The BHLH Transcription Factor LYL1 In Normal And Leukemic Hematopoiesis
Funder
National Health and Medical Research Council
Funding Amount
$520,945.00
Summary
This project aims to understand how two closely related genes, called SCL and LYL1, work together to control the production of normal red blood cells and when abnormally expressed, cause cancer of the white blood cells. We will specifcially examine how LYL1 causes a specific type of leukemia in children and determine blocking the function of LYL1 will be a useful way to kill leukemia cells.
Haematopoietic Stem Cell Glycome Regulates Outcome Of Niche Interactions
Funder
National Health and Medical Research Council
Funding Amount
$913,729.00
Summary
Hematopoietic stem cells (HSC) reside in the bone marrow (BM) and make all the cells of the blood system. We have found a factor in the BM which when blocked, puts normal HSC to sleep helping them survive chemotherapy. This means cancer patients should suffer less side-effects from their therapy. This factor also helps leukaemia stem cells (LSC) resist chemotherapy. Inhibitors may a) reduce patient mortality caused by chemotherapy and b) sensitise LSC to chemotherapy enabling long-term cure.
(Re)wiring A Stem Cell: Deciphering The Molecular Mechanism Underpinning Lineage Propensity
Funder
National Health and Medical Research Council
Funding Amount
$855,780.00
Summary
This project explores the response of the stem cells to cues that direct how they turn into specific type of cells that is suitable for clinical use. Specifically, a set of driver genes whose activity can foretell the outcome of cell differentiation will be identified. By modulating the maintenance conditions, iPSCs lines may be tailored for specific applications in stem cell therapy and disease modelling for the assessment of treatment efficacy.
Translating Molecular Insights In Squamous Cell Carcinoma Into Novel Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$859,551.00
Summary
In Australia, skin cancers account for 80% of all new cases of cancer, and over 95% of these are basal cell cancers (BCC) or squamous cell cancers (SCC). Although exposure to the sun is the major factor responsible for both of these cancers, it is not known what genes are damaged allowing them to grow in an uncontrolled manner. Our laboratory has identified critical genes that malfunction in SCC. This discovery will allow us to develop new preventative and curative strategies for SCC.
Role Of Plzf – Sall4 Interactions In Germline Progenitor Function And Development
Funder
National Health and Medical Research Council
Funding Amount
$565,079.00
Summary
PLZF and SALL4 are critical stem cell factors and mutations in these genes are associated with developmental defects and cancer. SALL4 mutations are responsible for the malformation disease Duane-radial ray syndrome, while PLZF mutations lead to severe defects in the skeleton and gonads. We surprisingly found that PLZF and SALL4 interact and oppose each other’s functions. Our study of PLZF–SALL4 crosstalk will provide important insight into infertility, developmental disorders and cancer.
The Role Of The Homeobox Transcription Factor Hhex In Haematopoiesis And Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$623,112.00
Summary
We have shown that the Haematopoietically expressed homeobox (Hhex) protein plays important roles in development of immune cells. In addition, Hhex is required for development and maintenance of Acute Myeloid Leukemia (AML). This project will further investigate the requirement of Hhex in human AML, potentially identifying a new therapeutic target in this poor-prognosis cancer subtype. In addition, we will identify critical cofactors and targets of Hhex, revealing new therapeutic strategies.