Characterisation Of Autophagy Deficiency In Skeletal Muscle Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$956,237.00
Summary
Defects in skeletal muscle are a cause of muscle disease, and also have broad health implications for diabetes, obesity and liver disease. As such, it is important to understand the processes required for healthy muscle and how signals communicate from muscle to the liver and fat, which integrate whole body metabolism. This application examines how the cellular degradation process known as autophagy integrates these important processes by investigating a novel gene regulator of this pathway.
Investigation Of The Role Of PI3-kinase In The Regulation Of Angiogenesis
Funder
National Health and Medical Research Council
Funding Amount
$837,660.00
Summary
The formation of blood vessels is critical for the development of embryos, but also after birth in processes such as wound healing. However, the uncontrolled formation of new blood vessels is also a feature of many human diseases such as cancer, and eye diseases that lead to blindness in adults or in premature infants. We propose to identify new regulators of blood vessel development, in order to improve current treatment therapies for these debilitating diseases.
Cellular Regulation Of Receptor Signalling And Cytokine Responses
Funder
National Health and Medical Research Council
Funding Amount
$859,288.00
Summary
Cell surface receptors and signalling pathways elicit the release of cytokines, or chemical messengers, to control inflammation, which is the body’s response to infection or danger. We have discovered a new signalling pathway that can turn off inflammation and help prevent inflammatory disease. Our studies will now define the molecular details of this pathway and show how new and existing drugs targeting this pathway can be optimally used to treat inflammation and cancer.
Why Is The Hijacking Of A Human Erythrocyte Signalling Pathway Essential For Malaria Infection?
Funder
National Health and Medical Research Council
Funding Amount
$510,890.00
Summary
Malaria drug resistance is spreading and the world needs cost-effective new drugs. We found 2 human enzymes, known targets of cancer chemotherapy, to be key for parasite survival in red blood cells. We aim to understand why these human proteins are crucial for the parasite and to identify new human proteins hijacked by malaria. This will open exciting options for antimalarial drug discovery: to harness funds invested in cancer drugs by targeting proteins with dual roles in cancer and malaria.
Only recently has it emerged that our cells have a built-in backup mechanism that instructs cells to die in extreme cases, such as when viruses have hijacked a cell. A misfiring backup mechanism is thought to underlie a number of human diseases, including inflammatory disease. Our investigation will establish a starting point for the development of novel anti-inflammatory drugs.
Understanding SOCS3 Inhibition Of JAK Activity In Myeloproliferative Disorders
Funder
National Health and Medical Research Council
Funding Amount
$524,820.00
Summary
The myeloproliferative disorders are diseases in which abnormal blood cell development leads to a risk of stroke, thrombosis, hemorrhage and leukemia. Remarkably, three of these disorders are caused by an error in a single enzyme that makes it over active. The enzyme, JAK2, controls how cells respond to hormone-like messengers called cytokines. We are investigating a cellular pathway that inhibits this enzyme in order to understand the progression and potential treatment of the disorders.
We have identified a novel gene, Inpp5e, that when mutated causes a disease similar to Joubert syndrome and MORMS disease which leads to abnormal movements, developmental delays, mental retardation, abnormal breathing and eye movement. We have identified a candidate gene for these diseases and have shown that deletion of this gene in mice results in similar pathology. We aim to determine the mechanism by which Inpp5e regulates human development and disease.
The Characterization Of A Novel Pseudokinase Regulator Of Platelet Formation
Funder
National Health and Medical Research Council
Funding Amount
$372,965.00
Summary
Mammalian cells contain a complex switchboard, which directs the cell to grow, die, multiply or move in response to external cues. When communication breaks down within the cell, diseases arise. Our studies are directed towards identifying the molecules that comprise the switchboard which directs blood cell formation. A detailed understanding of the regulators of blood cell formation will equip us with a sound starting point for designing drugs to ameliorate blood diseases.
C-Jun N-terminal Kinase Regulation Of Microtubule Destabilizer, Stathmin - A Novel Cytoprotective Pathway
Funder
National Health and Medical Research Council
Funding Amount
$550,230.00
Summary
The loss of heart muscle cells during heart attack and heart failure worsens the severity of heart disease. We will study how to protect heart muscle cells by identifying the molecules involved in controlling survival responses. We will use this knowledge to prevent heart muscle cells from dying when exposed to a range of normally harmful conditions. Our study has the potential to prevent heart muscle cell loss, improve heart function and prevent muscle damage in heart disease.
Sphingosine Kinase As A Target For Anti-cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$590,785.00
Summary
Sphingosine kinase is a protein involved in the development and progression of numerous types of solid tumors and leukaemias. We have recently made a major break-through by identifing how the cancer-inducing activity of sphingosine kinase is controlled. In this study we will target these control mechanisms to develop potential new anti-cancer therapies.