The Role Of Urotensin II In Diabetes-Associated Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$405,594.00
Summary
People with diabetes most commonly die from stroke or heart attack and we need to determine what makes them more prone to these problems. The recently discovered UII system is increased in people with diabetes and has been found in diseased parts of blood vessels. Thus, the aim of this project is to characterise the UII system in the setting of diabetes using 2 unique genetically altered mice and a blocker a to study the effects of high cholesterol, diabetes and a deletion of UII.
Altered Hepatic Pharmacokinetics As A Consequence Of Drug- And Disease-induced Changes In Hepatic Vascularity.
Funder
National Health and Medical Research Council
Funding Amount
$498,088.00
Summary
Many drugs are broken down by the liver or are removed from the liver out into the intestine by the bile, as well as being removed by the kidney and other organs. The effectiveness of the breakdown and removal by the liver depends both on whether the drug can get into the liver cells and on how well the enzymes in the liver are working. Cardiovascular and liver diseases and certain drugs can affect both of these processes. This work is concentrating on those processes which mainly affect the upt ....Many drugs are broken down by the liver or are removed from the liver out into the intestine by the bile, as well as being removed by the kidney and other organs. The effectiveness of the breakdown and removal by the liver depends both on whether the drug can get into the liver cells and on how well the enzymes in the liver are working. Cardiovascular and liver diseases and certain drugs can affect both of these processes. This work is concentrating on those processes which mainly affect the uptake process. The diseases of most interest are liver cirrhosis, fatty liver disease, atherosclerosis and chronic heart failure, all of which together are leading causes of death in Western countries. They are also associated with liver dysfunction due to effects on liver vessels. We have a poor understanding of how the effects of these diseases and a number of drugs on liver vessels affect the functioning of the liver, especially in terms of how they affect drug breakdown or removal of drugs. This project seeks to understand these effects and proposes a number of animal studies as well as human studies to provide insight. The drugs to be studied are those most commonly used in patients with cardiovascular and liver diseases, as one of our main goals is to provide better therapeutic management in these patients.Read moreRead less
Regulation Of Cellular Responses To Neuropeptides.
Funder
National Health and Medical Research Council
Funding Amount
$83,510.00
Summary
Neuropeptides are chemicals released from nerves that are responsible for communication between the nerves, glands, muscles or other nerves. Neuropeptides exert their diverse biological effects by interacting with small structures on the cells they wish to communicate with. These structures bind the neuropeptide and are termed neuropeptide receptors. The responses of tissues to neuropeptides, for example, contraction of muscle, decrease with continued exposure to the neuropeptide. This reduction ....Neuropeptides are chemicals released from nerves that are responsible for communication between the nerves, glands, muscles or other nerves. Neuropeptides exert their diverse biological effects by interacting with small structures on the cells they wish to communicate with. These structures bind the neuropeptide and are termed neuropeptide receptors. The responses of tissues to neuropeptides, for example, contraction of muscle, decrease with continued exposure to the neuropeptide. This reduction in response is termed desensitization is thought to turn off the response to cells following stimulation by neuropeptides. In this study, I will investigate the mechanisms behind the desensitization of VPAC receptors which are a found throughout the body and have many important roles for example, gastrointestinal, pancreatic and reproductive function and control of muscle. VPAC receptors are also highly expressed in certain many cancers such as breast, prostate and colon carcinoma. The wide variety of functions that these receptors perform and the wide distribution in the body suggest that these are very important receptors. To date research into the responses and desensitisation of these receptors has been lacking, and the work that has been done has become confusing as more receptors and neuropeptides which bind them are discovered. The current project aims to carefully study these receptors and to determine their role in health and disease. The understanding the interaction of receptor and neuropeptide can perhaps lead to development of new therapeutic agents.Read moreRead less