The Effects Of Maternal Health On Fetal Kidney Development And Its Function
Funder
National Health and Medical Research Council
Funding Amount
$297,338.00
Summary
There is an epidemic of renal disease among Australian aborigines. While much of this could have been prevented by effective control of Group A streptococcal skin infections, there is also evidence that the high susceptibility to end-stage renal disease is related to poor intrauterine development of the kidney as low- birth weight is a predisposing factor. Mothers, whose renal function is impaired, tend to have babies which are low birth weight. There is no knowledge about the effects of materna ....There is an epidemic of renal disease among Australian aborigines. While much of this could have been prevented by effective control of Group A streptococcal skin infections, there is also evidence that the high susceptibility to end-stage renal disease is related to poor intrauterine development of the kidney as low- birth weight is a predisposing factor. Mothers, whose renal function is impaired, tend to have babies which are low birth weight. There is no knowledge about the effects of maternal renal dysfunction on development of the fetal kidney. We have recently developed an animal model in which we can study the effects of maternal renal dysfunction on the development of the kidney of her offspring. Human beings form 60% of the functional units (nephrons) in the kidney in the last trimester. Sheep, like human beings (and unlike rats), completely form all the nephrons that they will ever have, during intrauterine life. While the fetal kidneys play an essential role in the formation of amniotic fluid, regulation of fetal fluid and electrolyte homeostasis depends on maternal renal function via transplacental transfer. If maternal renal function is reduced, it is likely that the fetal kidneys will be exposed to a greater volume and solute load through transplacental equilibration. This may have a profund effect on renal development especially if coupled with an inadequate maternal diet and a high maternal salt intake. Under these conditions we predict that development of the fetal kidney will be impaired and renal capacity after birth, reduced. This means that the kidney will 'age' more rapidly. Thus the affected individual would be predisposed to renal disease in adult life. In our animal model we will study the effects and interactions of maternal renal insufficiency, poor fetal nutrition and a high maternal salt intake on fetal kidney development and function.Read moreRead less
The Role Of Crim1, A Novel TGFb Superfamily Modulator, In Early Vertebrate Patterning, Vascular And Renal Development.
Funder
National Health and Medical Research Council
Funding Amount
$501,300.00
Summary
The transforming growth factor (TGF) beta superfamily is a large group of secreted growth factors who play many different roles in normal development of tissues such as the brain, skeleton, heart, kidney, eyes, teeth and limbs. One of the groups within the superfamily, the bone morphogenetic proteins (BMPs), are being used in clinical trials to assist in regrowing bones after fracture. These molecules are also of interest for clinical reasons as growth factors within this family can also be dele ....The transforming growth factor (TGF) beta superfamily is a large group of secreted growth factors who play many different roles in normal development of tissues such as the brain, skeleton, heart, kidney, eyes, teeth and limbs. One of the groups within the superfamily, the bone morphogenetic proteins (BMPs), are being used in clinical trials to assist in regrowing bones after fracture. These molecules are also of interest for clinical reasons as growth factors within this family can also be deleterious, with their overexpression leading to conditions such as renal fibrosis and cataract. The activity of these growth factors is regulated by many other proteins, including protein antagonists which bind and inactivate them. It is therefore possible that by understanding these antagonists, we can find new ways of altering TGF beta superfamily activity. We have previously identified a novel protein, Crim1, which we have now shown can bind to TGF superfamily members and can reduce their secretion. We believe that Crim1 plays a role in the patterning of the central nervous system, the development of the blood vessels and the kidneys by regulating the TGFbeta superfamily. In this grant we will be investigating what the effect of disruption to Crim1 is on these organ systems and working out which members of the TGFbeta superfamily it is affecting to cause these effects. To do this, we will knock out the gene in zebrafish and characterise the defects found in a mouse line in which the gene has been disrupted. This may be important in developing new ways of activating or inactiviating these growth factors in a number of clinical conditions.Read moreRead less
The Role Of Hypoxia In The Developmental Programming Of The Kidney
Funder
National Health and Medical Research Council
Funding Amount
$651,276.00
Summary
We aim to understand how inadequate oxygen supply to the fetus during pregnancy can affect development of the kidney. Many babies do not get enough oxygen whilst developing in the womb. This can be due to a poorly formed placenta or the mother smoking. This can interfere with normal growth and formation of the kidney. Our knowledge may help babies get the best start to life.
Muscle Fusion Defects May Be A Common Cause Of Human Dystrophies
Funder
National Health and Medical Research Council
Funding Amount
$391,419.00
Summary
While muscle fusion is a crucial step of muscle formation, it is surprising that human muscle diseases were never associated with muscle fusion defects. We have recently undertaken a genome-wide functional screen using a mouse muscle cell line. We identified 21 genes that were previously associated with muscle dystrophies in human. The aim of this project is to examine the role of those genes during muscle fusion in vivo, using the chick embryo, mouse mutants and lines from patients as models.
Coronary artery disease is the largest single cause of death in Australia, and commonly manifests as heart attack and angina. Congenital heart disease is the most common birth defect. We have identified a gene, Crim1, that is important for heart and coronary artery development. Investigating how this gene functions will lead to a greater understanding of congenital heart disease and may lay the foundation for therapeutics to regenerate damaged hear tissue.
Stress-induced Disease Risk For Pregnant Mothers Born Small
Funder
National Health and Medical Research Council
Funding Amount
$613,124.00
Summary
This proposal addresses the likelihood that mothers born small and exposed to stress during pregnancy will develop adverse physiological adaptations to pregnancy, slowing placental and fetal growth, programming intergenerational disease and compromising maternal health later in life. The outcomes from our human and rat studies will enable development of diagnostic tests to identify pregnancies at greater risk and lead to therapies to reduce adverse intergenerational and long-term health effects.
Immunological Prevention Of Cysticercosis And Hydatid Disease
Funder
National Health and Medical Research Council
Funding Amount
$510,000.00
Summary
Cysticercosis and hydatid disease are caused by infections with the larval stages of tapeworm parasites. These infections cause substantial morbidity and mortality throughout the world, but particularly in developing countries. They are zoonotic diseases, being transmitted to humans from animals. This project aims to develop practical vaccines to assist with the prevention of both cysticercosis and hydatid disease in humans. The vaccines will be used in the parasites' natural animal hosts, there ....Cysticercosis and hydatid disease are caused by infections with the larval stages of tapeworm parasites. These infections cause substantial morbidity and mortality throughout the world, but particularly in developing countries. They are zoonotic diseases, being transmitted to humans from animals. This project aims to develop practical vaccines to assist with the prevention of both cysticercosis and hydatid disease in humans. The vaccines will be used in the parasites' natural animal hosts, thereby breaking the parasite life-cycle and preventing the diseases being passed to humans. Substantial preliminary research has been undertaken by the applicant, including completion of successful preliminary vaccine trials. This project will optimise the vaccines and complete initial field trials in countries with high rates of disease transmission.Read moreRead less
Molecular Control Of Interneuron Development And Function In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$527,828.00
Summary
This project will study the changes that occur in neurons, during normal brain maturation and in pathology. We hypothesise that early signs of brain malfunction can be detected in neurons before symptoms appear. The role of a gene will be studied during development and disease in a mouse model of autism, in order to identify the molecular and electrical signs of abnormal activity. This research will ultimately enable us to propose new strategies to treat symptoms of brain disease.