ARDC Research Link Australia

Funded Activity

Funder: National Health and Medical Research Council
Funding Amount: $470,958.00
Summary: Individuals respond very differently to many drugs and other chemicals in the diet and workplace. This variation can be a significant complication in treating patients and in attempting to determine risk with exposure to toxins. Genetic differences between individuals are a common reason for this variation. However, many enzymes and other proteins in humans are controlled by environmental factors that can either increase their activity or inhibit it. In this study, we will investigate how the ac ....
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Funded Activity

Funded Activity

Funder: National Health and Medical Research Council
Funding Amount: $500,460.00
Summary: Cells respond to their surroundings by transferring information received at the cell surface to the nucleus leading to changes in gene expression. There are many signaling pathways which transfer this informatrion to the nucleus. Some of these pathways are controlled by small molecules, usually fat-soluble chemicals. As a family of enzymes, the UDP glucuronosyltransferases (UGT) have evolved to eliminate fat-soluble chemicals, we propose that UGTs play a pivotal role in regulating the concentrat ....
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Funded Activity

Funder: National Health and Medical Research Council
Funding Amount: $516,078.00
Summary: Enzymes in the liver and gastrointestinal tract have a crucial role in protecting against the toxic effects of fat-soluble chemicals. Two of these enzymes called UGT1A3 and UGT1A4 have a special role in protecting against drugs and toxins that contain nitrogen groups. The levels of these two enzymes in the liver and gut vary extensively between individuals. In this project we will determine how the levels of these enzymes are controlled and what is the cause of this variability between individua ....
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Funded Activity

Funder: National Health and Medical Research Council
Funding Amount: $482,710.00
Summary: Drugs and other chemicals (eg. dietary constituents, environmental pollutants, and chemicals that occur naturally in the body - such as steroid hormones) are broken down by specialised proteins called enzymes. This process is referred to as biotransformation, or 'metabolism'. Drug and chemical metabolism serves as a detoxification mechanism (since the products of metabolism generally lack biological activity) and as a means of eliminating these substances from the body. UDP-Glucuronosyltransfera ....
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Funded Activity

Funded Activity

Funder: National Health and Medical Research Council
Funding Amount: $339,375.00
Summary: The study of the regulation of human genes is inherently difficult. It is difficult or impossible to gain access to many body tissues in either healthy or sick individuals to examine coordinated gene function (or dysfunction). This is particularly true for the brain, where live human tissue is unavailable. For this reason, it is often the case that we have a much better understanding of gene function in species such as rats and mice, the most common animal environments for biomedical research. H ....
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Funded Activity

Funder: National Health and Medical Research Council
Funding Amount: $562,933.00
Summary: A family of enzymes called glutathione transferases (GST) that metabolize foreign chemicals and therapeutic drugs have been shown to be a significant cause of drug resistance in cancer chemotherapy. It has been suggested that inhibitors of GSTs could be used in cancer treatment to counter drug resistance or to slow the metabolism and enhance the activity of some drugs. Some GSTs carryout important enzymatic reactions with endogenous substrates and others have important non-enzymatic functions su ....
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Funded Activity

Funder: National Health and Medical Research Council
Funding Amount: $504,000.00
Summary: The treatment of advanced cancer patients with drugs is difficult due to many confounding factors. The variability between patients in clearance rate has a significant impact on the success of chemotherapy. This is especially relevant to chemotherapeutic agents which have a narrow therapeutic range. Anti-tumour action will be lost if the drug is cleared too rapidly from the body, while high doses will lead to toxic side effects. A better understanding of the source of this variability will lead ....
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Funded Activity

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