Identification Of Genes Involved In Neural Crest Development
Funder
National Health and Medical Research Council
Funding Amount
$482,310.00
Summary
Knowledge of the genes that during embryonic development control the way our bodies form is necessary to understanding how our body systems function in health and disease. However, research on the developmental genetics of vertebrates, including humans, has proceeded very indirectly, mostly by looking for genes similar to those found in other biological systems, most notably the fruit fly. The significance of this research is that it will identify developmental genes directly from the chosen ver ....Knowledge of the genes that during embryonic development control the way our bodies form is necessary to understanding how our body systems function in health and disease. However, research on the developmental genetics of vertebrates, including humans, has proceeded very indirectly, mostly by looking for genes similar to those found in other biological systems, most notably the fruit fly. The significance of this research is that it will identify developmental genes directly from the chosen vertebrate body system as it develops. As a body system we will choose one of the most basic building blocks of the very early nervous system. This building block is an embryonic organ called the Neural Crest that later goes on to form important parts of the nervous system, but in addition it also forms major parts of the head and face, glands in the neck, the large arteries leading out from the heart, and pigment cells (melanocytes) in the skin. It is particularly important to gain insight into development of this organ because the tissues that derive from the neural crest are the most at risk for birth defects and for childhood cancers. Knowledge of neural crest development also tells us about our own evolution, because the neural crest is the only major system found only in vertebrates including humans.Read moreRead less
The Development Of Glial Cells In The Sympathetic Nervous System
Funder
National Health and Medical Research Council
Funding Amount
$372,025.00
Summary
Nervous system development entails the co-ordinated multiplication of a small number of founder cells to give the millions of cells of the mature nervous system. Each founder generates a many different cell types. Understanding how this is controlled is among the most challenging problems in modern biology. We will show how the development of the two basic cell types (neurons and glia), is controlled in a part of the nervous system that is relatively simple and accessible for manipulation.
Defining The Role Of VEGF And Vascular Formation In Craniofacial Development
Funder
National Health and Medical Research Council
Funding Amount
$636,417.00
Summary
Aberrant neural crest cell development gives rise to common congenital malformations such as cleft lip and/or palate and cardiac outflow tract defects that effect over 1% of all births. As the aetiology of these disorders are largely unknown it is critical to understand the cell and molecular mechanisms coordinating NCC development such that alternative therapies may be devised to target the underlying pathological defects and to provide definitive diagnostic / prognostic tools.
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.
Differentiation And Fate In The Developing Sympathetic Ganglia
Funder
National Health and Medical Research Council
Funding Amount
$353,754.00
Summary
This project seeks to understand how a small number of founder cells can divide and differentiate into the myriad different types of cells that make up the mature nervous system. It uses modern genetic techniques to follow progenitor cells as they mature into mature neurons.
Role Of L1CAM In Enteric Nervous System Development
Funder
National Health and Medical Research Council
Funding Amount
$374,759.00
Summary
There are millions of nerve cells in the gut. During development, these nerve cells arise from cells (neural crest) that migrate from the developing brain. Neural crest cells migrate into and along the gut. Some humans have a condition called Hirschsprung's disease in which nerve cells are absent from parts of the gut. Afflicted individuals have severe constipation and require surgery. In this study, we will identify the mechanisms controlling neural crest migration in the developing gut.
Role Of Kinesin Binding Protein And Spontaneous Activity In The Development Of Enteric Neurons
Funder
National Health and Medical Research Council
Funding Amount
$599,889.00
Summary
The nerve cells in the wall of the gut play an essential role in motility. Defects in the development of these nerve cells results in pediatric motility disorders. We will examine the roles of two factors, kinesin binding protein, and spontaneous activity in the development of enteric neurons.
Manipulation Of Enteric Neural Stem Cells For Cell Therapy To Treat Enteric Neuropathies
Funder
National Health and Medical Research Council
Funding Amount
$611,438.00
Summary
Cell therapy offers great promise for the treatment of motility disorders due to defects in the nerve cells in the bowel. Patient-derived cells are likely to be the best source of cells, however, patient-derived cells will require manipulation because they are likely to be defective. We will identify manipulations of stem/progenitor cells that increase their efficacy for cell transplantation.
Can Human Neural Stem Cells Form Enteric Nerves In Human Hirschsprungs Disease Colon?
Funder
National Health and Medical Research Council
Funding Amount
$598,815.00
Summary
The intestine has its own nervous system which develops from cells that migrate into the intestine during early development. Sometimes this does not work and part of the bowel has no nerves and cannot function. This is treated now by cutting out this bad bowel and joining the sections of good bowel. But it may be possible to grow new nerves in the bad bowel using stem cells. This project aims to test whether this treatment, which would avoid loss of bowel, is possible.