Role Of Transition Metal Ions And Redox Activity In The Development Of Atherosclerotic Plaques
Funder
National Health and Medical Research Council
Funding Amount
$196,018.00
Summary
Metal ions such as iron and copper have been reproted to be present in the lesions present in diseased human arteries and it has been suggested that these metal ions contribute to the development of atherosclerosis (hardening of the arteries) via their ability to catalyse the formation of highly reactive molecualr fragments called free radicals. Though metal ions are known to catalyse such reactions in test-tube experiments, both the presence of metal ions in diseased arteries and their ability ....Metal ions such as iron and copper have been reproted to be present in the lesions present in diseased human arteries and it has been suggested that these metal ions contribute to the development of atherosclerosis (hardening of the arteries) via their ability to catalyse the formation of highly reactive molecualr fragments called free radicals. Though metal ions are known to catalyse such reactions in test-tube experiments, both the presence of metal ions in diseased arteries and their ability to generate free radicals is controversial. This study will employ a novel, minimally-invasive, technique to assess the nature and quantity of metal ions present in well-defined human and animal lesions at different stages of lesion development. The ability of these metal ions to catalyse free radical formation from components present in the artery wall will also be assessed. The release of these metal ions from the artery wall to added organic molecules will be assessed as this might minimise their potential to cause damage, and provide a possible therapeutic strategy. These studies will therefore provide valuable information as to the significance and role of reactive metal ions in the development of human artery disease and the possible prevention, or minimisation, of such processes.Read moreRead less
Mitochondrial Iron Overload And Friedreich's Ataxia: The Role Of Frataxin In Iron And Haem Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$606,000.00
Summary
Friedreich's ataxia (FA) is due to the lack of a protein known as frataxin. A variety of studies using Baker's yeast and conditional frataxin knockout (KO) mice have shown that deletion of frataxin leads to the accumulation of toxic iron in their mitochondrion. More recently, a variety of studies have shown that FA patients have iron-loading within their mitochondrion. Iron in the highly redox active environment of the mitochondrion could contribute to the generation of cytotoxic radicals that c ....Friedreich's ataxia (FA) is due to the lack of a protein known as frataxin. A variety of studies using Baker's yeast and conditional frataxin knockout (KO) mice have shown that deletion of frataxin leads to the accumulation of toxic iron in their mitochondrion. More recently, a variety of studies have shown that FA patients have iron-loading within their mitochondrion. Iron in the highly redox active environment of the mitochondrion could contribute to the generation of cytotoxic radicals that cause severe damage. Further, cells deficient in frataxin are sensitive to oxidant stress and Fe chelators rescue oxidant-mediated death of cells from FA patients. Indeed, free radical scavengers have shown to be of use in the treatment of this disease. Studies in DR's lab during this NHMRC grant have shown that frataxin is down-regulated by erythroid differentiation or the haem precursor, protoporphyrin IX (BLOOD 2002;99:3813-22). These data indicate a role for frataxin in Fe metabolism and the pathogenesis of FA. In this study we will continue to examine the role of frataxin in the way cells handle Fe using experimental models developed under the current NHMRC grant. These include transfected cell lines with low frataxin expression generated using an expression vector containing anti-sense frataxin cDNA. Further we obtained the frataxin conditional KO mouse and generated a breeding colony. These animals display many of the pathological features of FA and are the best current model of the disease. Indeed, they will be critical for assessing the role of frataxin in Fe metabolism and as a model to test the ability of Fe-binding drugs to prevent the pathology observed. We designed lipid-soluble chelators that can enter the mitochondrion to bind Fe (Biochim Biophys Acta 2001;1536:133-140) and these ligands will be tested to prevent disease progression in the KO mice. This exciting research is crucial for understanding the pathogenesis of FA and in creating new therapies.Read moreRead less
Genomic Analysis Of DNA Binding And Gene Regulation By The Chromatin Remodelling Factor UBF
Funder
National Health and Medical Research Council
Funding Amount
$624,254.00
Summary
Synthesis of ribosomes, the cellular protein synthetic machinery, is the major anabolic event of a growing cell and is frequently dysregulated during disease such as cancer. This grant will examine a protein termed UBF that we think plays an important role in orchestrating the cellular response to dysregulated ribosome biogenesis. By understanding how UBF functions we hope to uncover novel therapeutic approaches to treat diseases associated with ribosome stress .
H2A.Z Acetylation: Deregulation Of Enhancer Activity And 3D Chromatin In Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$859,350.00
Summary
DNA is not linear but packaged in the cell nucleus in a three-dimensional (3D) structure in such a way that distal regulatory regions can interact to control gene expression. Our new data suggests that a chemical modification of the histone variant H2A.Z plays a critical role in the formation of the 3D chromatin structure. This project is aimed to dissect the role of H2A.Z in prescribing 3D structure, which will provide a more precise understanding of gene deregulation in cancer.
Deciphering The Transcriptional Program That Instructs Lymphatic Endothelial Cell Fate.
Funder
National Health and Medical Research Council
Funding Amount
$541,950.00
Summary
Lymphatic vessels are essential to maintain fluid balance in most tissues of the human body. Further the lymphatic vasculature plays a central role during cancer and contributes to tumour metastasis. Despite this integral function in health and disease little is known about the molecular programs that coordinate gene expression to build a functional vasculature. This research project will address this gap in our knowledge and will open up new therapeutic avenues for lymphatic vascular disorders
Regulation Of Ribosomal RNA Gene Chromatin During Malignant Transformation.
Funder
National Health and Medical Research Council
Funding Amount
$882,486.00
Summary
The overarching goal of this proposal is to determine the molecular basis for tumour cell dependence on activated ribosomal RNA gene repeats (rDNA). Our working model posits that rDNA repeats become activated through changes in rDNA chromatin structure that include increased binding of the RNA Polymerase I transcription factor UBF.
Mechanistic And Functional Analysis Of The Id4 Proto-oncogene In Breast And Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$693,983.00
Summary
Cancer arises through damage to normal regulatory processes in cells. Understanding these damaged processes is essential to implement personalized medicine. This proposal explores the role of the proto-oncogene ID4 in the closely related cancers triple negative breast cancer and serous ovarian cancer. This research may lead to the development of new therapeutic strategies or the refinement of existing strategies for these poor prognosis cancers.
CTCF is a unique architectural protein that regulates the three-dimensional (3D) folding of the genome to switch our genes on, or off. This is important, as it affects how DNA is arranged inside the cells, which is turn assures correct gene expression patterns. Here, we will define the role of CTCF in organizing the 3D genome architecture and identify genetic and epigenetic states that control its function.
Understanding The Mechanisms For Ameliorating/preventing Antipsychotic-induced Obesity In Early Life
Funder
National Health and Medical Research Council
Funding Amount
$576,496.00
Summary
There has been a sharp worldwide increase during the last decade in antipsychotic prescriptions (mostly “off-label”) to paediatric patients. One important issue is that antipsychotic drugs were developed for adult patients and normally have serious side-effects. This project will not only reveal the mechanisms of antipsychotic-induced obesity side-effects in youth, but will also explore intervention strategies for preventing antipsychotic-induced weight gain/obesity in paediatric patients.