The Role Of Connexins In Blood Pressure Regulation: Use Of A Conditional Gene Expression System
Funder
National Health and Medical Research Council
Funding Amount
$583,767.00
Summary
Cell coupling through gap junctions is said to play an important role in regulating blood flow and blood pressure. However data obtained from mice, in which specific gap junctions are deleted, may be compromised by compensatory changes in other junctions. We have validated a new method for rapidly and reversibly altering gap junctions in adult mice with oral sugar. This technique will enable us to directly determine whether interference with cell coupling affects blood flow and blood pressure.
Developing And Applying Biologically Plausible Statistical Models For Normal And Non-normal Family Data
Funder
National Health and Medical Research Council
Funding Amount
$339,700.00
Summary
Although molecular and computing advances have enabled more detailed investigations of inherited diseases and the ability to fit realistic statistical models to these data, limitations still exist when analysing family data. Often only basic statistical analyses are performed, due to the lack of understanding of complexities within the data and-or inability of researchers to fit appropriate statistical models. These factors have hampered the search for genes and environmental factors influencing ....Although molecular and computing advances have enabled more detailed investigations of inherited diseases and the ability to fit realistic statistical models to these data, limitations still exist when analysing family data. Often only basic statistical analyses are performed, due to the lack of understanding of complexities within the data and-or inability of researchers to fit appropriate statistical models. These factors have hampered the search for genes and environmental factors influencing common diseases. This project aims to develop novel, biologically realistic statistical models for investigation of common, complex diseases, such as heart disease and cancer, in families. These models will incorporate both measured and unmeasured genetic and environmental factors, and will be applicable to both normally distributed and non-normally distributed traits. Model fitting will use computer-intensive simulation techniques. Application of the models to data from two large pre-existing studies of international renown, the Victorian Family Heart Study and the Australian Prostate Cancer Family Study, will enable a better understanding of the genetic and environmental factors influencing heart disease and cancer. The models will also be applicable to many other studies of diseases which use data from families, and allow more accurate and useful information to be obtained from data. Software will also be made freely available to other researchers. This will ultimately translate into better outcomes from familial genetic research, and eventually, better prevention, detection, and treatment of the diseases.Read moreRead less
Myoendothelial Gap Junctions: Their Composition And Role In Vasodilator Responses Attributed To EDHF
Funder
National Health and Medical Research Council
Funding Amount
$282,750.00
Summary
Cardiovascular disease, including coronary heart disease and stroke, continues to be the major cause of death in Australia and hypertension is a significant risk factor. The endothelium, which lines blood vessels of all sizes, is critical to the control of blood flow to the organs of the body. Endothelial cells release factors which can cause blood vessels to constrict or to relax, thus decreasing or increasing blood flow, respectively. Under normal conditions, the endothelium is more important ....Cardiovascular disease, including coronary heart disease and stroke, continues to be the major cause of death in Australia and hypertension is a significant risk factor. The endothelium, which lines blood vessels of all sizes, is critical to the control of blood flow to the organs of the body. Endothelial cells release factors which can cause blood vessels to constrict or to relax, thus decreasing or increasing blood flow, respectively. Under normal conditions, the endothelium is more important as a source of relaxing factors, while under hypertensive conditions, the balance is shifted in favour of the release of constricting factors. Thus, restoration of the vasodilatory function of the endothelium is seen as an important new therapeutic target in the treatment of vascular disorders. Present data suggests that the action of one of the major endothelial derived vasodilatory factors, the so-called endothelium-derived hyperpolarizing factor, EDHF, requires the presence of particular structures within the vascular wall, but little is known about the molecules of which they are comprised. We have identified two unique situations, during development and during hypertension, when these structures are present in vessels in which they are absent in normal adults. We will use gene microarrays to identify the specific molecules involved in these structures and use physiological studies to test the role of these proteins and structures in vasodilatory responses. The results of these studies may identify new targets for therapeutic intervention to restore the action of EDHF in hypertension.Read moreRead less
Dynamics And Mechanisms Of Immune Complex-mediated Skin Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$526,467.00
Summary
Type III hypersensitivity underlies a number of common autoimmune diseases, including rheumatoid arthritis and lupus erythematosus. These diseases are caused by the deposition of immune complexes (IC) and the accumulation of neutrophils within small blood vessels. We will use real time imaging to dissect in space and time the recruitment of neutrophils and IC deposition during type III hypersensitivity reactions in order to better understand the pathogenesis of these conditions.