Aberrant Mesenchymal-epithelial Transition: A Pathogenic Mechanism In Tissue Maintenance And Differentiation
Funder
National Health and Medical Research Council
Funding Amount
$522,299.00
Summary
The causative genetic factors associated with aberrant changes of cellular properties are identified by analysing the profile and the control mechanism of gene expression. Specifically,this project will reveal how the transition of different patterns of tissue organization may be manifested in birth defects and malignant diseases.
Aberrant Ependymal Development And The Formation Of Hydrocephalus
Funder
National Health and Medical Research Council
Funding Amount
$660,005.00
Summary
Foetal hydrocephalus is a prevalent neurodevelopmental condition associated with severe intellectual impairment. Breakdown of the ependymal cell layer, which acts as a barrier between brain tissue and the ventricular space, is a major cause of hydrocephalus. Despite the importance of these cells, we have little understanding of the molecular mechanisms that regulate their production. This project will identify critical signalling pathways governing the establishment of the ependymal layer.
Deciphering The Role Of Scribble In Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$628,789.00
Summary
Scribble is a protein that controls the orientation and organization of all cells within our body. Mutations in the Scribble gene are found in many cancers and also in some patients with spina bifida, however how these mutations cause these diseases is not understood. Here we propose experiments that can be used to link Scribble mutations to specific cellular functions. This information will help us design new therapies to treat diseases driven by tissue disorganization such as cancer.
The Role Of The Asymmetric Cell Division Regulator GPSM2 In Mammary Gland Development And Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$647,539.00
Summary
Tissues are built by small populations of progenitor cells which divide unequally to generate different cell types. Recent studies suggest defective progenitor cells are founders of some breast cancers and that progenitor-like cancer cells resist therapy to regenerate tumours. We have shown a progenitor division regulator called GPSM2 controls these cells and inhibits breast cancer. Examination of this new anti-tumour pathway promises to identify therapeutic targets for breast cancer recurrence.
Defining The Role Of IGF-1 As A Novel Angiocrine Factor In The Development And Treament Of Common Craniofacial Disorders
Funder
National Health and Medical Research Council
Funding Amount
$573,848.00
Summary
1 in 1000 children are born with a small jaw, which requires invasive surgery for treatment. We identified that defects in blood vessel development in the jaw underlie some cases of these craniofacial defects. We found that factors secreted from the major artery in the jaw can promote jaw growth, and our research proposal aims to identify what exactly these factors are. These factors have the potential to be used to therapeutically treat children with a small jaw to help it grow correctly.
MicroRNAs are small molecules that modulate the expression of most genes and so affect nearly every biological process and pathology although, they were only discovered in humans less than 10 years ago. The bottleneck in discovering the functions of miRNAs is in identifying their molecular targets, the majority of which remain unknown. We aim to comprehensively identify direct target genes of epithelial-specific microRNAs and to confirm a number of them by gene target validation approaches.
Role Of The MiR-200 Target Quaking In Alternative Splicing During EMT And Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$443,160.00
Summary
The spread of cancer to other organs involves cancer cells changing to a more aggressive state and is a major cause of cancer related death. MicroRNAs are a class of genes that control whether cancer cells become more aggressive by regulating other genes. In this project we will examine the function of a new microRNA target which controls the cancer cell aggression. The outcome will be a better understanding of how cancers spread and the identification of new therapeutic targets.
Novel Roles For Neural Crest Cells In Cardiac Morphogenesis
Funder
National Health and Medical Research Council
Funding Amount
$553,848.00
Summary
Abnormal formation of the cardiac outflow tract leads to common malformations affecting over 1% of all births. Taking advantage of novel mouse models this grant aims to identify the molecular mechanisms by which neural crest cells control formation of the cardiac outflow tract. New information generated from this study stands to identify new targets which may be used for predictive testing and regenerative therapies.
Idiopathic pulmonary fibrosis (IPF) is a fatal disease of unknown cause which is unresponsive to current therapy. This study builds on recent work by this group highlighting the importance of a cell signalling molecule called STAT3 in the development of this disease. In particular, two cell types that utilise STAT3 signalling, epithelial cells and B cells, will be examined to see if blocking their STAT3 responses could be a novel therapeutic approach.
Regulation Of Epithelial Sodium Channels By Caveolin
Funder
National Health and Medical Research Council
Funding Amount
$408,391.00
Summary
Abnormal sodium absorption in the kidney, gut and lung is implicated in hypertension, cystic fibrosis and pulmonary oedema. Epithelial Na+ channels are a key component of the mechanism by which these organs absorb sodium. The project will investigate the mechanisms by which the activity of these channels is controlled and is intended to discover new approaches to treating abnormal sodium absorption.