Involvement Of The Asciz Gene In Kidney Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$591,128.00
Summary
Congenital abnormalities of the kidney and urinary tract (CAKUT) affect more than 1/500 children. Urogenital development is primarily controlled by a small number of genes that regulate the timing and position of kidney formation. In this application we describe a novel gene involved in this process, establish where it acts, how it regulates gene expression and whether mutations in it cause CAKUT.
Exposing The Mechanisms Underlying Mammalian Meiotic Onset
Funder
National Health and Medical Research Council
Funding Amount
$536,563.00
Summary
Germ cells must undergo a special form of cell division, meiosis, before they can form oocytes in females or sperm in males. We want to know, in detail, how meiosis is triggered in germ cells and what the first steps are in meiotic progression. This information will help us understand the causative factors in infertility (1 in 6 couples of reproductive age are infertile), control fertility (develop new contraceptives) and avoid testicular cancer (the most common tumour type in young men).
Tissue-dependent Proregenerative Mechanisms In Adult Vertebrates
Funder
National Health and Medical Research Council
Funding Amount
$638,742.00
Summary
This proposal addresses how immune cells participate in regeneration of damaged organs in adult zebrafish. Unlike mammals, zebrafish have a remarkable capacity to regenerate their various body parts in adulthood, providing a model to understand how regeneration capacity might be induced in humans. The proposed study will define mechanisms of immune-mediated regeneration that could provide new cellular and molecular targets for stimulating replacement of damaged organs in the human injury setting
Epigenetic Regulation Of Male Fetal Germ Cell Development.
Funder
National Health and Medical Research Council
Funding Amount
$562,176.00
Summary
Men’s health has declined over recent decades, but the causes remain unknown. Non-genetic (epigenetic) mechanisms affecting formation and function of the male germ cells (which produce sperm) may play an important role. We will determine the role of a key epigenetic modifier on the formation and function of male germ cells, including germ cell tumours. This study will provide fundamental insights into male germ cell epigenetics, and significantly contribute to understanding men's health.
Identifying The Pathological Mechanism Of PCDH19-Girls Clustering Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$523,988.00
Summary
Changes in the PCDH19 gene are a relatively common cause of epilepsy. To better understand the basis of this disorder, we have developed unique mouse models that mimic the genetic changes and symptoms of this condition. We will perform careful analysis of brain development in these models to determine the primary cause of this condition. These experiments will create greater understanding of how changes in PCDH19 cause epilepsy in girls and facilitate the development of new treatments.
Improving The Phenotypic Severity Of Intellectual Disability And Seizures Caused By Expanded Polyalanine Tract Mutations In The ARX Homeobox Transcription Factor.
Funder
National Health and Medical Research Council
Funding Amount
$683,622.00
Summary
Intellectual disability is frequent in the population, with as many as 1 in every 50 people in the world directly affected. ARX is a gene mutated in X chromosome-linked intellectual disability and seizures. Our study will comprehensively address the basis for improvements to disease outcomes following treatment with steriod horomones in mice modelling these mutations. We will also address the mechanism contributing to disturbed protein function due to these expanded polyalanine tract mutations.
Characterisation Of SRY Macromolecular Complexes To Provide An Enhanced Understanding Of Human Genetic Sex Reversal And Embryonic Sex Determination
Funder
National Health and Medical Research Council
Funding Amount
$237,360.00
Summary
SRY is the most important gene in the determination of human sex. Mutations in the SRY gene that disrupt its ability to interact with other cellular proteins that regulate its function have shown to result in genetic sex reversal. This project will provide a detailed structural profile of the interfaces that are critical for sex determination, provide a molecular basis for XY-genetic sex reversal, and an enhanced understanding of foetal development.
Identifying Genes Required For Vertebral Column And Heart Formation
Funder
National Health and Medical Research Council
Funding Amount
$950,418.00
Summary
Birth defects occur in about 3% of live births. These originate as the embryo forms, and we have previously shown that some of these are caused by gene mutation and/or environmental factors during gestation. However, the origins of many such defects remain unexplained. We will examine the DNA of patients to find gene mutations causing such defects. We will also test if mutations in these genes increase the likelihood of the embryo developing a defect if it is exposed to environmental stressors.
Characterization Of HOXA-expressing Human Haematopoietic Cells Generated From Embryonic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$622,464.00
Summary
Blood stem cell transplants are used for treating a range of human blood disorders such as leukaemias. However, for many patients, suitable donors cannot be found. We are searching for ways in which embryonic stem cells can be turned into blood stem cells in the laboratory to provide a new source of these cells that could then be used to treat patients.
The Role Of The Homeobox Transcription Factor Hhex In Haematopoiesis And Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$623,112.00
Summary
We have shown that the Haematopoietically expressed homeobox (Hhex) protein plays important roles in development of immune cells. In addition, Hhex is required for development and maintenance of Acute Myeloid Leukemia (AML). This project will further investigate the requirement of Hhex in human AML, potentially identifying a new therapeutic target in this poor-prognosis cancer subtype. In addition, we will identify critical cofactors and targets of Hhex, revealing new therapeutic strategies.