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.
Identifying The Critical Pathways Which Regulate Vertebrate Craniofacial Development
Funder
National Health and Medical Research Council
Funding Amount
$552,131.00
Summary
Understanding the genes which underlie human birth defects is of immense clinical importance. Our laboratory is a world-leader investigating a gene responsible for facial skeleton development, Grhl2. With our wide range of models, we will discover how Grhl2 works to ensure the face and skull develop properly during birth.
A Novel Gene Family Implicated In Neural Crest And Craniofacial Malformation
Funder
National Health and Medical Research Council
Funding Amount
$695,016.00
Summary
We have identified a new type of receptor that when defective causes facial clefting in animal models. We are using our unique laboratory and clinical resources to understand how these birth defects occur and to investigate the molecular signalling events that are controlled by this olfactory receptor. These studies will pave the way to designing pharmaceuticals that may eventually ameliorate or even stop this major group of birth defects.
Normal embryonic and foetal devlopment depends on the ability of cells to move from one place to another. This behaviour enables cells to be produced at one site and transported to one or a number of other sites. Although the face appears to us as a single seamless unit it originates as a number of blocks of tissue which begin development separately and must grow in a coordinated way that enables them to meet at precisely the correct time, in the correct place and in the correct order. The basis ....Normal embryonic and foetal devlopment depends on the ability of cells to move from one place to another. This behaviour enables cells to be produced at one site and transported to one or a number of other sites. Although the face appears to us as a single seamless unit it originates as a number of blocks of tissue which begin development separately and must grow in a coordinated way that enables them to meet at precisely the correct time, in the correct place and in the correct order. The basis of this growth and fusion is the ability of individual cells to move around the embryo to supply the raw materials for this construction process when and where they are needed. The combined activities of the cells in constructing the various parts of the embryo is known as morphogenesis which literally means creating shape. We are trying to gain insight into the basis of morphogenesis that produces the face. This is important because the face and other structures that are closely associated with it are particularly prone to errors. Despite this, surprisingly little is known about the mechansims that control development of the face. We know a great deal about which cells are involved in constructing the face but very little about what triggers the initial steps of development or maintains ordered growth. Our research is aimed at defining genes that are important in controlling development of the face through the study of normal development and birth defects. We are defining the function of genes that appear to be important in controlling the behaviour of cells during early development of the face. This knowledge will assist in understanding the control mechanism for facial devlopment and will eventually lead to improvements in the treatment and prevention of birth defects affecting these structures.Read moreRead less
My background is in the study of human molecular genetic disease, and my interest has evolved to the analysis of embryonic development using the mouse as a model system. My particular interest is in the molecular mechanisms governing limb and craniofacial
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.
Birth defects can have devastating consequences for individuals and their families, and improving our ability to diagnose and screen for these disorders has implications for treatment and reproductive options. We are using the mouse as a model to discover genes important in a new class of birth defects caused by dysfunction of a hair-like cellular projection known as the cilium.
Defining The Role Of Nedd4 In Neural Crest Cell Development
Funder
National Health and Medical Research Council
Funding Amount
$541,565.00
Summary
Neural crest cells are specialised stem cells that give rise to many tissues and organs during embryonic development. We recently identified an essential role for a regulatory protein in neural crest cells. Our research is aimed at understanding how this protein influences the growth of structures such as the heart and facial skeleton. Understanding these processes underpins the ultimate goal of implementing diagnostic and preventative medicine for highly prevalent congenital birth defects.