The C-type Lectin Mincle Exemplifies A New Mode Of Sterile Inflammation In Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$609,237.00
Summary
This project investigates two of the life-changing cardiovascular events that most commonly impact on Australians today; Heart attack and Stroke. These diseases often leave individuals debilitated with a long recovery period, and for many people the event is fatal. We have shown that blocking the action of an immune component, "Mincle", reduces the inflammation associated with stroke, and improves recovery. This project looks at what Mincle does in brain and heart muscle, and why blocking Mincle ....This project investigates two of the life-changing cardiovascular events that most commonly impact on Australians today; Heart attack and Stroke. These diseases often leave individuals debilitated with a long recovery period, and for many people the event is fatal. We have shown that blocking the action of an immune component, "Mincle", reduces the inflammation associated with stroke, and improves recovery. This project looks at what Mincle does in brain and heart muscle, and why blocking Mincle protects cells from loss of oxygen.Read moreRead less
The Role Of Apoptotic Caspases In Regulating Type I Interferon Production
Funder
National Health and Medical Research Council
Funding Amount
$791,746.00
Summary
Type I interferons (IFNs) are potent anti-viral cytokines. Dysregulated type I IFN responses result in major pathologies, e.g., embryonic lethality and defects in tissue homeostasis. We have identified a novel molecular mechanism regulating IFN production that relies on the host’s own apoptotic caspases. We hypothesize that apoptotic caspases critically regulate IFN responses during the process of cell death, with implications for tissue homeostasis and host responses to infection.
Mechanisms For Regulation Of Myc Transcription And Cell Growth
Funder
National Health and Medical Research Council
Funding Amount
$645,347.00
Summary
We aim to use the animal model system, the vinegar fly, to investigate mechanism for cancer initiation. The fly has been studied for over 90 years and has proved an excellent genetic model for understanding the complex processes leading to abnormal cell growth, which is associated with the early stages of human cancer. The high level of conservation between fly genes and human cancer genes means these studies will provide novel insights into the genetic mechanisms underlying tumour formation.
Regulation Of Ribosomal Gene Transcription By C-MYC During Differentiation And Lymphomagenesis.
Funder
National Health and Medical Research Council
Funding Amount
$287,261.00
Summary
A fundamental question in medical biology revolves around how cells respond to the demands to grow and produce proteins, particularly in the setting of the rapid growth of cancer cells. One of the important facets of cellular growth is the production of new proteins needed for all areas of cell life. It is well known that cellular growth involves the production of proteins and this in turn requires the transcription or duplication of ribosomal RNAs (rRNAs). The control of rRNA synthesis, however ....A fundamental question in medical biology revolves around how cells respond to the demands to grow and produce proteins, particularly in the setting of the rapid growth of cancer cells. One of the important facets of cellular growth is the production of new proteins needed for all areas of cell life. It is well known that cellular growth involves the production of proteins and this in turn requires the transcription or duplication of ribosomal RNAs (rRNAs). The control of rRNA synthesis, however, is not well understood. We have identified a novel process to link a cancer causing gene c-MYC to the control of protein production in cells through regulation of rRNA synthesis. Our experiments will examine the hypothesis that c-MYC directly affects the production of rRNA . Finally we will test the link between the ability of c-MYC to cause malignant growth of cells and its role in increasing synthesis of rRNA. These findings may lay the basis for new treatments for disorders of regulated cell growth such as cancer.Read moreRead less