Cell-specific Regulation Of The MicroRNA/RNAi Pathway
Funder
National Health and Medical Research Council
Funding Amount
$659,390.00
Summary
MicroRNAs are a group of molecules that are critical for controlling the activity of genes. They function in a diverse range of biological systems, such the brain and immune system. Although we know that these molecules are important, how they are made in cells is still poorly understood. Because these molecules have potential therapeutic applications, it is essential that we gain a precise understanding of their biology before we will be able to apply these to medicine.
The exciting field of small RNA research was the subject of the 2006 Nobel Prize in Medicine, and holds great potential in the diagnosis and prognosis of disease such as cancer. Recent clinical studies suggest that drugs inhibiting small RNAs called microRNA present novel therapeutic opportunities. By defining the non-specific effects of such drugs and investigating new avenues for their delivery, this project will secure the safe application of these drugs into the clinic.
MicroRNAs are a group of molecules that are critical for controlling the activity of genes. They function in a diverse range of biological systems, from early embryonic development to adult organs, such as the brain and immune system. Although we know that these molecules are important, there remain major gaps in our understanding of how they are produced. Thus, the goal of our research is to understand how cells make these molecules.
Molecular Basis For RIG-I Like Receptor Activation Of The Innate Immune Pathway.
Funder
National Health and Medical Research Council
Funding Amount
$564,770.00
Summary
This project is to understand how proteins in the cell detect the presence of invading viruses, and pass on the message for the cell to produce defence molecules. The overproduction of these defence molecules can lead to inflammatory diseases. This research will help us to understand the process of the innate immune response in cells and how we might control it in disease states.
Exploring DNA Methylation As A Mechanism For Long-term Memory For Fear Extinction
Funder
National Health and Medical Research Council
Funding Amount
$415,322.00
Summary
Traumatic experiences are well remembered. In some cases, fear-related memories become debilitating and require therapeutic intervention to diminish the impact of these kinds of memories on daily living. Such therapies engage a process of inhibitory learning called fear extinction. Since anxiety disorders are particularly sensitive to relapse even after extensive exposure therapy, a deeper understanding of the extinction process is crucial if we are to develop more effective treatment protocols ....Traumatic experiences are well remembered. In some cases, fear-related memories become debilitating and require therapeutic intervention to diminish the impact of these kinds of memories on daily living. Such therapies engage a process of inhibitory learning called fear extinction. Since anxiety disorders are particularly sensitive to relapse even after extensive exposure therapy, a deeper understanding of the extinction process is crucial if we are to develop more effective treatment protocols for a variety of anxiety disorders.Read moreRead less
This study will address the idea that cancer commonly involves a genetic pathway that is normally used by stem cells to proliferate in an undifferentiated state. We have evidence to indicate that this system is active in cancer cells and believe this could explain how cancer cells manage to divide rapidly in a primitive state. This project may bring a new perspective to the study of malignant transformation and has the potential to reveal multiple new targets for cancer therapy.
Identification And Evaluation Of Novel Epigenetic Targets For The Treatment Of ? Haemoglobin Disorders
Funder
National Health and Medical Research Council
Funding Amount
$740,809.00
Summary
Symptoms of ?-haemoglobin disorders appear after birth, when fetal haemoglobin (HbF) is replaced by aberrant adult haemoglobin (HbA). Interestingly, the persistent expression of HbF in patients reduces disease severity. This observation has created much interest in understanding the fetal to adult transition, since reversing it can benefit patients. Epigenetics plays a central role to this mechanism. Identifying components of this switch will form the basis of next generation therapies.
The Role Of LINE Encoded Natural Antisense Transcripts In Immune Regulation
Funder
National Health and Medical Research Council
Funding Amount
$934,853.00
Summary
Genetic information underpins all life on earth and is processed to make proteins, which determine the characteristics of an organism. However, only about 2% of our whole genome is made up of genes that encode proteins; the other 98% is non-coding and its function remains poorly understood. This proposal aims to utilize cutting edge genomic technologies to generate new knowledge about how the non-coding genome regulates the expression of protein coding genes in human autoimmune disease.