Generation And Characterisation Of An Animal Model For Age-related Macular Degeneration
Funder
National Health and Medical Research Council
Funding Amount
$226,650.00
Summary
Age-Related Macular Degeneration (AMD) is the leading cause of irreversible blindness in the aged population in the developed world, and it is one of the least understood retinal diseases. AMD is a slow, progressive and painless condition that affects the macula, the small central part of the retina that allows one to see fine detail clearly. With the ever-increasing human life expectancy, the prevalence of AMD (15-30%) in the age group of over 75 years will significantly increase, causing enorm ....Age-Related Macular Degeneration (AMD) is the leading cause of irreversible blindness in the aged population in the developed world, and it is one of the least understood retinal diseases. AMD is a slow, progressive and painless condition that affects the macula, the small central part of the retina that allows one to see fine detail clearly. With the ever-increasing human life expectancy, the prevalence of AMD (15-30%) in the age group of over 75 years will significantly increase, causing enormous social and financial problems for the community. In spite of the significance of this problem, the exact cause of AMD is not yet known, and there is no permanent effective treatment or cure for the condition. One of the major obstacles hindering any advances towards the development of intervention strategies or therapies is the lack of an appropriate animal model. Currently, the animal models that are available for ocular diseases do not fit the human AMD situation. This project aims to characterize the first animal model for retinal degeneration caused by abnormal functioning of the retinal pigment epithelial cells (RPE). The main role of RPE cells is the phagocytosis and digestion of the continuously growing and shed light receptor segments in the eye. Their normal functioning therefore is vital to maintaining good vision. The availability of such an animal model will allow us to learn more about the changes that might occur in the eye leading to the development of AMD and to design strategies to prevent or delay progression of the condition.Read moreRead less
Inhibition Of Retinoblastoma Protein Degradation By Interaction With The Serpin PAI-2 Via A Novel Consensus Motif
Funder
National Health and Medical Research Council
Funding Amount
$463,500.00
Summary
Plasminogen activator inhibitor-2 (PAI-2) has previously been shown to inhibit the activity of enzymes outside the cell that are involved in blood clotting and cell migration. We have discovered that this activity is probably not the major role of PAI-2. PAI-2 also has a function inside cells that protect and increases the activity of an important tumour suppressor protein called the retinoblastoma tumour suppressor protein (Rb). Rb is involved in many cellular functions such as, cell death, cel ....Plasminogen activator inhibitor-2 (PAI-2) has previously been shown to inhibit the activity of enzymes outside the cell that are involved in blood clotting and cell migration. We have discovered that this activity is probably not the major role of PAI-2. PAI-2 also has a function inside cells that protect and increases the activity of an important tumour suppressor protein called the retinoblastoma tumour suppressor protein (Rb). Rb is involved in many cellular functions such as, cell death, cell differentiation, cell growth, and most importantly prevention of cancer development. Rb is attacked and destroyed by several viruses which causes cells to become cancerous. This grant seeks to fully understand how PAI-2 protects and interacts with Rb. We have already found a new site on Rb to which PAI-2 binds. This site is also used by other proteins in the cell as well as disease causing virus proteins. Examples of these proteins are BRCA1, a protein involved in breast cancer development, and EBNA6, a protein from Epstein Barr virus that causes glandular fever and tumours. We have also found, and seek to explore further, how PAI-2 reverses the activities of the cervical cancer causing proteins of the human papilloma virus. Although at an early stage, these studies may lead to the development of new therapeutic drugs based on PAI-2 for the treatment of various types cancers or warts caused by HPV. Analysing the activity of PAI-2 inside cells will have implications for understanding much of the confusing scientific literature on PAI-2 and will provide a better comprehension of the role of PAI-2 in inflammation, cell differentiation, wound healing and cancer. For example it has long been known that the presence of PAI-2 in cancerous tumours is linked with a better prognosis, an activity that can now be understood in terms of the PAI-2 interaction with Rb. This new understanding may lead to the development of PAI-2 based prognostic assays for cancer.Read moreRead less
The majority of stroke results from focal brain infarction, followed by substantial secondary excitotoxic damage in the surrounding areas. Tau has been shown to contribute to excitotoxicity and neurodegeneration in mouse models of Alzheimer’s disease (AD). Preliminary data show that tau reduction also protects against excitotoxic damage after experimental stroke. We aim to dissect the molecular mechanisms of stroke using a tau-deficient mouse model.
Vitamin D Synthesis Within Osteoblasts Increases Bone Mineral By Regulating Remodelling: Is This The Link Between Vitamin D Status And Fractures?
Funder
National Health and Medical Research Council
Funding Amount
$627,082.00
Summary
This project will contribute to understanding mechanism of vitamin D action within bone to modulate bone resorption and offers the exciting prospect of identifying the mechanism by which an adequate vitamin D status can reduce the risk of osteoporotic hip fractures. Thus, this project has great potential to improve community health by being able to recommend vitamin D supplementation made on the basis of maintaining normal bone cell function with psarticular reference to modulating bone resorpti ....This project will contribute to understanding mechanism of vitamin D action within bone to modulate bone resorption and offers the exciting prospect of identifying the mechanism by which an adequate vitamin D status can reduce the risk of osteoporotic hip fractures. Thus, this project has great potential to improve community health by being able to recommend vitamin D supplementation made on the basis of maintaining normal bone cell function with psarticular reference to modulating bone resorption.Read moreRead less
Identifying Novel Antimalarial Targets Using ENU Mutagenesis In The Mouse
Funder
National Health and Medical Research Council
Funding Amount
$760,170.00
Summary
Malaria is estimated to cause 1.2 million deaths per year. The malarial parasite has developed resistance to most drugs and new drugs are needed. We aim to mimic the protective red blood cell diseases common in human populations in malarial endemic areas by identifying host targets that are important in parasite growth.
Elucidating The Role Of MiR-196 In Formation Of The Axial Skeleton
Funder
National Health and Medical Research Council
Funding Amount
$520,087.00
Summary
Exquisite regulation of gene expression is a fundamental principle underlying growth and development of an embryo as well as homeostasis in the adult. Following the identification of hundreds of microRNAs within the genome which act to modulate gene expression, the challenge and the goal of these studies, is to identify individual microRNAs which contribute significantly to bone formation in the developing embryo.
Molecular Regulation Of Pluripotency In The Mammalian Germline
Funder
National Health and Medical Research Council
Funding Amount
$611,935.00
Summary
Germ cells generate sperm in males or oocytes in females. In males, germ cell numbers are tightly controlled in the embryo, with too few germ cells causing infertility, and unrestrained germ cell numbers leading to testicular cancer. We have discovered a molecular mechanism that regulates germ cells in the embryo, and propose to study in mice how this regulation is accomplished and the consequences of defective regulation, in order to learn more about how infertility and testis cancer arise.