Defining The Role Of GILZ In Inflammatory Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$675,030.00
Summary
Corticosteroids are commonly used to treat inflammatory diseases such as arthritis. Their action is based on effects on natural inflammation control pathways. One such pathway is that mediated by the protein known as GILZ (glucocorticoid induced leucine zipper). The function of this protein in disease is not well understood, and the research proposed here will increase understanding of its role. This knowledge could yield new treatments for arthritis and other inflammatory diseases.
Control Of The Ras/Erk Signaling Pathway By The Brahma Chromatin-remodeling Complex
Funder
National Health and Medical Research Council
Funding Amount
$524,820.00
Summary
Hormones bind and initiate molecular signals within cells to proliferate or change into specific cell types. This is important for growth and development of different tissues. A pathway which is critical for transmitting the effects of hormones in cells is the Ras pathway. New studies by the applicants indicate that the Brahma complex, a molecule important in controlling the levels of proteins in cells, activates the Ras pathway. This project will define how Brahma controls the Ras pathway.
Characterisation Of Notch Asparaginyl Hydroxylation By FIH-1.
Funder
National Health and Medical Research Council
Funding Amount
$307,841.00
Summary
Cells within our body receive numerous signals telling them when to grow, when to turn into another cell type and exactly what type, and even how to respond to situations like low oxygen. These signals and cells response are very important during embryonic development, when these signals cause a single cell to become a complete person, and also in adults. Here in the embryo, and also in adults, stem cells are very important because they can become many different kinds of cells, depending on what ....Cells within our body receive numerous signals telling them when to grow, when to turn into another cell type and exactly what type, and even how to respond to situations like low oxygen. These signals and cells response are very important during embryonic development, when these signals cause a single cell to become a complete person, and also in adults. Here in the embryo, and also in adults, stem cells are very important because they can become many different kinds of cells, depending on what the body needs. When the signals don't work properly, they cause major problems and diseases, from birth defects, to cancer. Notch is an important protein involved in receiving and passing on certain signals, and is found in organisms as diverse as worms and humans. It tells cells, especially stem cells and other similar cells, when and how to change from one type of cell to another. For example, it is very important in the generation of many different types of blood cells from a single precursor cell. Notch has also been implicated in human diseases such as cancer, where signalling goes wrong and cells keep multiplying out of control, and also certain types of heart disease. Another protein, called FIH, is an oxygen sensor that signals to the cell when there is not enough oxygen around. FIH has also been implicated in cancer and heart disease. We have recently found evidence suggesting that FIH can also influence the activity of the Notch proteins. This means that oxygen levels can potentially have an effect on stem cells and other processes controlled by Notch, and may be very important in cancer and other diseases. This project will first confirm the connection between FIH and Notch. There are a number of different Notch proteins, so we will see if this connection works with all of them. It will also try and work out the consequence of this connection is and how important it is. Finally, the likely biological consequences on human diseases, specifically cancer.Read moreRead less
The Role Of SKAM And Sphingosine Kinase In Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$281,340.00
Summary
Many aspects of wound healing are poorly understood. We have identified a novel cellular pathway that appears critically involved in controlling wound contraction. This project aims to characterise this cellular pathway to understand the exact mechanisms whereby it controls this critical aspect of wound healing. With this information we will develop topical therapeutics to aid the wound healing process.
The Role Of The Platelet Glycoprotein Ib Alpha Cytoplasmic Domain In Thrombosis
Funder
National Health and Medical Research Council
Funding Amount
$600,230.00
Summary
Our studies aim to provide a better understanding of the factors that make platelets sticky, because this is important not only for normal blood clot formation but also in the development of harmful blood clots (thrombosis). Improving our understanding of these processes will add significantly to our knowledge of how blood clotting is controlled. This information is relevant to many human diseases including heart attack and stroke and will help us to develop drugs to prevent these diseases.
SHANK3 As A Target To Reduce Hypertrophy And Heart Failure
Funder
National Health and Medical Research Council
Funding Amount
$548,908.00
Summary
We have identified a large protein in heart that functions to facilitate the heart's response to disease. The proposed studies will define how this protein mediates responses and whether we can successfully interfere with the process to limit disease progression.
Altered Gp130-mediated Signalling In The Regulation Of Pulmonary Fibrosis
Funder
National Health and Medical Research Council
Funding Amount
$373,956.00
Summary
Pulmonary fibrosis is a chronic diffuse interstitial lung disease often of unknown cause, characterised pathologically by inflammation and fibrosis of the lung tissue. The prognosis is poor with a 50% mortality at five years after diagnosis and considerable morbidity during those years. Previous investigations have documented the role for inflammation in the development of pulmonary fibrosis and current therapeutic strategies are aimed at suppressing the inflammation using anti- inflammatory dru ....Pulmonary fibrosis is a chronic diffuse interstitial lung disease often of unknown cause, characterised pathologically by inflammation and fibrosis of the lung tissue. The prognosis is poor with a 50% mortality at five years after diagnosis and considerable morbidity during those years. Previous investigations have documented the role for inflammation in the development of pulmonary fibrosis and current therapeutic strategies are aimed at suppressing the inflammation using anti- inflammatory drugs, almost exclusively steroids. The effectiveness of steroids is variable although generally poor and can be associated with significant side effects suggesting that other approaches need to be considered. Data generated over the past decade also have established the concept that the molecular processes underlying the development of fibrosis may represent a new opportunity for therapeutic intervention. This project will build on previous studies examining the effects of a family of molecules called cytokines that signal through gp130 as critical determinants of disease susceptibility and progression. gp 130 is a shared component in the receptor complexes for IL-6 family cytokines and can signal down two major pathways. We have shown that the development of lung fibrosis depends on which specific signalling pathway is used. This study will determine how fibrosis is controlled by these pathways. Our data raises the possibility of developing pharmacological manipulators of gp130 signalling pathways that would suppress fibrosis but leave normal cellular defense mechanisms necessary for host defense in the lung intact.Read moreRead less
The Role Of Notch Signalling In Muscular Dystrophy
Funder
National Health and Medical Research Council
Funding Amount
$526,878.00
Summary
Duchenne muscular dystrophy (DMD) is the most common and severe form of muscular dystrophy, caused by a lack of a protein called dystrophin. Dystrophic muscles are fragile, prone to injury, and have a compromised ability to regenerate after damage. Defective Notch signalling has been implicated in the poor regenerative response of aged muscles and similarly in dystrophy based on our preliminary data. Modulating Notch signalling could therefore delay the onset or slow the progression of DMD.
The Mechanism Of Action Of Secreted Phospholipase A2 And Its Inhibition In Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$554,400.00
Summary
Secretory phospholipase A2 (sPLA2) is an important mediator of inflammation and is clinically associated with the onset and severity of several immune-mediated diseases including arthritis, asthma, atherosclerosis, psoriasis and recently prostate cancer. These are complex diseases which are poorly understood. We have shown that sPLA2 can by itself and in combination with inflammatory cytokines modulate signalling pathways in cells derived from the joints of patients with arthritis to upregulate ....Secretory phospholipase A2 (sPLA2) is an important mediator of inflammation and is clinically associated with the onset and severity of several immune-mediated diseases including arthritis, asthma, atherosclerosis, psoriasis and recently prostate cancer. These are complex diseases which are poorly understood. We have shown that sPLA2 can by itself and in combination with inflammatory cytokines modulate signalling pathways in cells derived from the joints of patients with arthritis to upregulate inflammatory molecules. How this happens is completely unknown. We plan to work out how this enzyme does this. We have also developed small cyclic peptide inhibitors of sPLA2 which potently block the function of the enzyme in these cells. We plan to determine how this happens and if these inhibitors are effective at blocking inflammation and arthritis. The proposal may identify new mechanisms by which secreted factors upregulate inflammation in human cells and may lead to the discovery of new ways to intervene to block these pathways.Read moreRead less