The Role Of A New Class Of Chromatin Organising Hub
Funder
National Health and Medical Research Council
Funding Amount
$1,145,450.00
Summary
Within the cell nucleus, specific proteins weave DNA into structured loops that are vital for normal cell function. By studying the molecules involved, we have uncovered a ‘dock’ that controls this DNA architecture. We will define the components and function of this ‘dock’, and the resulting rapid cell death that occurs if it is disrupted. We will explore this cell death pathway thoroughly because we think it may help us to develop new cancer therapies.
Developing Novel Molecules That Target Hormone Receptors As An Alternative Cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$459,867.00
Summary
A promising class of cancer drugs target heat shock protein 90 (Hsp90) and prevent Hsp90 from maintaining its ~100 proteins involved in cell growth. However, all current Hsp90 chemotherapeutics non-selectively target proteins maintained by Hsp90, and induce a cell rescue mechanism involving Hsp70. We describe the development of a novel molecule that will selectively control cell growth and prevent cell rescue via a unique Hsp90 regulated mechanism.
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.
The Role Of The Pro-survival Bcl-2 Family Member A1 In The Development And Sustained Growth Of Lymphomas.
Funder
National Health and Medical Research Council
Funding Amount
$628,459.00
Summary
The death of cells, which is regulated by a complex interaction between cell survival and killer proteins, is an important mechanism to prevent cancer. In this proposal we aim to understand the function of one of the cell survival proteins in cancer development and maintenance. This will help to develop novel therapeutic drugs specifically targeting this cell survival protein, thereby eliminating specifically the cancer cells and minimizing collateral damage of healthy tissues.
Alternative Splicing- A Regulatory Mechanism Determining Self-renewal And Pluripotency Of ES And IPS Cells
Funder
National Health and Medical Research Council
Funding Amount
$664,650.00
Summary
Stem cells hold great promise in cell replacement therapies and may provide models to study human diseases and to screen new pharmaceuticals. For successful future therapeutic applications, a deeper understanding of the molecular mechanisms governing the behavior of stem cells is crucial. In this proposal we will investigate the role of alternative splicing in the control of the fundamental properties of stem cells, and identify target RNAs and gene expression networks regulated by splicing fact ....Stem cells hold great promise in cell replacement therapies and may provide models to study human diseases and to screen new pharmaceuticals. For successful future therapeutic applications, a deeper understanding of the molecular mechanisms governing the behavior of stem cells is crucial. In this proposal we will investigate the role of alternative splicing in the control of the fundamental properties of stem cells, and identify target RNAs and gene expression networks regulated by splicing factors.Read moreRead less