Role Of LncRNA IDH1-AS1 In Regulating C-Myc Driven-glycolysis And Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$685,043.00
Summary
It is thought that understanding cancer metabolism will reveal vulnerabilities that can be exploited in the clinic. Indeed, compared to most normal cells, cancer cells utilise different fuels to sustain proliferation and to adapt to their environment. Herein we have discovered a molecular switch that regulates the key metabolic enzyme IDH1 and show this controls tumour growth. Given this switch may be active in 50% of cancers we anticipate our work will have significance to many cancer types.
Characterising The Mechanisms That Control Blood Cell Development
Funder
National Health and Medical Research Council
Funding Amount
$335,616.00
Summary
Hematopoiesis is a tightly regulated process that provides the body with a constant supply of all the cells of the blood system. My studies aim to characterize the molecular mechanisms that regulate the expansion and differentiation of hematopoietic stem cells (HSCs) into each cell lineage. These studies will be key to the effective use of cellular transplantation therapeutic strategies and aim to provide a greater understanding of the mechanisms that underpin proliferative disorders such as can ....Hematopoiesis is a tightly regulated process that provides the body with a constant supply of all the cells of the blood system. My studies aim to characterize the molecular mechanisms that regulate the expansion and differentiation of hematopoietic stem cells (HSCs) into each cell lineage. These studies will be key to the effective use of cellular transplantation therapeutic strategies and aim to provide a greater understanding of the mechanisms that underpin proliferative disorders such as cancer.Read moreRead less
Adhesion between cells is important during health and disease. Cell-cell interactions are necessary both as the embryo forms and to preserve tissues and organs in later life. Important disease states arise when cell-cell adhesion is broken. Only by understanding the molecular mechanisms that hold cells together can we analyse how they are perturbed to cause diseases such as cancer and inflammation.
Preserving Barriers: How Cadherin Signaling Coordinates Dynamic Adhesion And Tight Junction Assembly In Epithelial Cell.
Funder
National Health and Medical Research Council
Funding Amount
$557,939.00
Summary
Epithelia protect the body from its environment. Breakdown of the epithelial barrier in tissues such as the skin and intestine, as occurs in burns and inflammation, leads to invasion of bacteria and severe metabolic disturbances. In this project we study the cell signaling mechanisms that maintain epithelial barriers in healthy tissues that undergo turnover and remodelling. Understanding these signaling pathways provides a foundation to understand how they are perturbed in disease.
Tapping The Power Of Pluripotency: The Role Of HMGA1 In Stem Cell Self-renewal And Cell Fate Transitions
Funder
National Health and Medical Research Council
Funding Amount
$520,314.00
Summary
Stem-cell-based therapies have great potential as new treatments for degenerative and genetic diseases. However, to ensure we move in the right direction, we need a detailed understanding of stem cell properties. We have recently identified a novel mechanism for controlling stem-cell-like properties in both normal and cancer stem cells. In this project, we will further investigate this new means of controlling stem cells, which could revolutionise future therapeutic strategies for many diseases.
Cortactin: Integrating Cadherin Signalling For Junctional Integrity
Funder
National Health and Medical Research Council
Funding Amount
$593,888.00
Summary
Adhesion between cells holds the human body together and affects many aspects of our health, including normal tissue and organ function. Importantly, loss of normal cell-cell adhesion contributes to many diseases, including cancer and inflammation. One key adhesion molecule, E-cadherin, is necessary for many epithelial tissues and its function is perturbed in disease. This research project addresses how E-cadherin signals into cells to control cell-to-cell interactions.
The Role Of CD1-restricted T Cells In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$431,000.00
Summary
The human immune system requires T cells for survival. Specialised populations of T cells exist that patrol the body and target unwanted lipid molecules expressed by bacteria or by cells that have become abnormal or cancerous. I will identify these T cells in human blood and skin and determine their role in protection against disease. I will explore the types of lipids molecules recognised by these T cells and use this information to help prevent human diseases.
Myosin VI: A Novel Molecular Apparatus For Epithelial Cohesion
Funder
National Health and Medical Research Council
Funding Amount
$605,096.00
Summary
Adhesion between cells holds the human body together and affects many aspects of our health including normal tissue and organ function. Conversely, loss of normal cell-cell adhesion contributes to major diseases, including cancer and inflammation. One key molecule, E-cadherin, is necessary for many epithelial organs and its function is perturbed in disease. This research project addresses how E-cadherin works with a cellular motor, Myosin VI, to maintain the integrity of epithelial tissues.
The Role Of Ap2a2 In Self-renewal Of Haematopoietic And Leukemic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$579,171.00
Summary
The daily replenishment of the blood system is dependent on the blood stem cell. A unique property of these stem cells is self-renewal where the stem cell function is preserved, whilst other daughter cells continue to divide. Our research investigates the molecular mechanisms that regulate stem cell self-renewal. This work has potential clinical application on at least two levels: expansion of stem cells for transplantation, and for attacking abnormal cancer cell self-renewal pathways.
Characterisation Of The Tumour Suppressor Function Of Caspase-2
Funder
National Health and Medical Research Council
Funding Amount
$605,096.00
Summary
Aberrant cell death (apoptosis) is associated with many diseases including cancer. Apoptosis is mediated by a group of enzymes called caspases. Recently we have discovered that one of these enzymes, caspase-2, acts as a tumour suppressor. We now wish to validate this finding in several preclinical models of cancer and understand precisely how caspase-2 works to safeguard cells against cancer development. These studies will help better understand cancer and ways to treat it.