Functional Screening Of Novel Genes In Craniofacial Development
Funder
National Health and Medical Research Council
Funding Amount
$540,075.00
Summary
Our faces are central to our ability to communicate, feed, breath and interact with each other. Birth defects that impact on the normal development of the face are common and affect not only the child but have a dramatic impact on the child's family as well. The genetic causes of most facial birth defects are unknown. This project will develop a method for determining how development of the face is controlled and will help identify genes that are responsible for facial birth defects.
Genetic And Molecular Dissection Of Laterality In The Developing Heart
Funder
National Health and Medical Research Council
Funding Amount
$379,370.00
Summary
Vertebrate animals display an external bilateral symmetry. However, most internal organs are located asymmetrically and show profound left-right structural asymmetries during development. For each species, these laterality characteristics are constant. Inherited laterality disorders occur in humans and, although rare, are associated with high mortality rates due to discordant cardiovascular development. Moreover, subtle anomalies of laterality may underlie a host of congenital heart abnormalitie ....Vertebrate animals display an external bilateral symmetry. However, most internal organs are located asymmetrically and show profound left-right structural asymmetries during development. For each species, these laterality characteristics are constant. Inherited laterality disorders occur in humans and, although rare, are associated with high mortality rates due to discordant cardiovascular development. Moreover, subtle anomalies of laterality may underlie a host of congenital heart abnormalities. In early embryogenesis, the newly-formed heart tube loops to the right, an event which establishes the correct alignment of the future cardiac chambers. The direction of heart looping is determined by genetic pathways that establish laterality in the early embryo. A component of this pathway is a TGFbeta-family signalling molecule, nodal, which is activated on the left side of the forming heart and other organs. Nodal then activates the transcription factor gene Pitx2. The aim of this project is to examine the consequences of genetic inactivation of the mouse nodal and Pitx2 genes in the heart, and to discover cardiac genes downstream of these genes. We will specifically test the hypothesis that laterality contributes to heart chamber formation in addition to setting the direction of looping. Ablation of these genes in the whole embryo leads to complex defects that preclude analysis of their functions in the heart. To achieve heart-specific deletion, we will use a conditional gene ablation technology that exploits the bacteriophage recombinase, Cre. Genes downstream of Pitx2 and Nodal will be discovered using microarray technology, which allows us to screen exhaustively for changes in gene expression between different tissues. This project will help us solve the complex genetic basis of congenital cardiac abnormalities in humans, and will contribute to our understanding of how heart chambers form, potentially useful in stem cell-based therapies for the failing heart.Read moreRead less
Recycling Of E-cadherin: Implications For Dynamic Cell Adhesion
Funder
National Health and Medical Research Council
Funding Amount
$250,494.00
Summary
E-cadherin is one of the major proteins responsible for mediating cell-to-cell adhesion in the body. During embryonic development E-cadherin is essential for establishing the normal body pattern and the cellular architecture of many epithelial organs. Throughout life E-cadherin serves to maintain epithelial barriers, such as the lining of the digestive tract. E-cadherin has been clearly identified as a tumour suppressor molecule: loss of normal E-cadherin function leads to tumour metastasis and ....E-cadherin is one of the major proteins responsible for mediating cell-to-cell adhesion in the body. During embryonic development E-cadherin is essential for establishing the normal body pattern and the cellular architecture of many epithelial organs. Throughout life E-cadherin serves to maintain epithelial barriers, such as the lining of the digestive tract. E-cadherin has been clearly identified as a tumour suppressor molecule: loss of normal E-cadherin function leads to tumour metastasis and cancer invasion. It is therefore essential to understand the physiological function and regulation of E-cadherin in cells. E-cadherin is normally expressed on the surface of cells for adhesion to neighbouring cells. Recently, we found that cells can internalise and recycle this surface E-cadherin: even in mature epithelia, a proportion of the E-cadherin molecules appear to undergo constant movement in and out of the cell. It is likely that this mechanism participates in the dynamic remodelling of adhesive contacts between cells in organs such as the gastrointestinal tract and during wound healing. Corruption of this recycling mechanism could also potentially contribute to tumorigenesis. In this grant we propose to build upon this discovery by investigating molecular and cellular mechanisms that mediate E-cadherin recycling. We will characterize the cellular pathways by which E-cadherin is trafficked. The signaling pathways that regulate recycling will be analysed, since these may be perturbed in cancer and inflammation. Other molecules that interact with E-cadherin will be studied to determine whether they too recycle. The information from these studies will have broad implications for understanding the role of E-cadherin in healthy organs and in common cancers.Read moreRead less
Early Influences Of Obesity And Fat Patterning In Children:critical Periods, Environmental Determinants, And Socio-cultu
Funder
National Health and Medical Research Council
Funding Amount
$1,152,711.00
Summary
Childhood obesity is an escalating public health problem both internationally and within Australia. Rates of childhood obesity in Australia are at one of the highest amongst developed nations. 25% of Australian children are currently overweight or obese. Obesity is a strong risk factor for chronic disease. In children, obesity is of concern because it is highly likely to persist and, during childhood, contributes to serious physical and mental health problems. A quarter of Australian children ar ....Childhood obesity is an escalating public health problem both internationally and within Australia. Rates of childhood obesity in Australia are at one of the highest amongst developed nations. 25% of Australian children are currently overweight or obese. Obesity is a strong risk factor for chronic disease. In children, obesity is of concern because it is highly likely to persist and, during childhood, contributes to serious physical and mental health problems. A quarter of Australian children are now carrying excess body fat. Because of these factors, prevention of obesity is paramount because success of current treatment options is limited and does not last. Especially harmful forms of fatness may originate in early life - the tendency to store fat in the abdominal region and the tendency to accrete fat rather than muscle (at any body size). For this reason, the early life determinants of obesity deserve special attention, even in the presence of society-wide factors conducive to obesity. Professor Moore and a group of researchers from the University of Adelaide will test the proposition that pre-birth and infancy is a ‘critical period’ for the development of obesity. The group aims to investigate whether there is a distinct period in early life for acquiring the predisposition to harmful forms of fatness. The project also aims to identify practical opportunities for prevention, focusing on mothers and their infants.Read moreRead less