Astroglial Remodelling Of The Interhemispheric Midline Is Regulated By Deleted In Colorectal Cancer (DCC) Signalling And Is Required For Corpus Callosum Formation
Funder
National Health and Medical Research Council
Funding Amount
$669,400.00
Summary
The integration of information between the brain hemispheres occurs via a large bundle of connecting nerve fibres called the corpus callosum. People with a genetic mutation in DCC display mirror movement disorder and some have a severe brain defect where the corpus callosum fails to form, but at present we don’t understand the function of this gene. In this study we will investigate how DCC functions in early brain development to regulate corpus callosum formation and mirror movement disorder.
Nfi Genes Regulate The Switch Between Neurogenesis And Gliogenesis During Cortical Development
Funder
National Health and Medical Research Council
Funding Amount
$387,489.00
Summary
Cells within the brain fall into two categories; neurons or glia. Importantly, both derive from a common progenitor population, the radial glia, during development. Early in development radial glia produce neurons, while later they generate glia. The genes which control the switch from neuron production to glia production remain poorly defined. I propose to investigate how this switch is controlled in radial glia, focussing on a family of proteins known to regulate gene transcription.
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.
Properties And Functions Of Reactive Astrocytes And Their Role In Neurological Disease
Funder
National Health and Medical Research Council
Funding Amount
$344,652.00
Summary
I am a developmental neuroscientist interested in the way alterations to normal brain development affect neuronal function later in life. I intend to investigate this by studying astrocytes – the cells that support and nourish brain nerve cells. In some diseases these astrocytes become stressed and instead of aiding the brain, set about destroying it. A better understanding of their action during development and disease may enable improved interventions for the treatment of many brain disorders.
Cellular Mechanisms Of Functional Deficits In Experimental Glaucoma
Funder
National Health and Medical Research Council
Funding Amount
$294,541.00
Summary
If successful, our approach will potentially have a major impact on the treatment of diabetic retinopathy and possibly on all diabetic vascular diseases. A single injection might only be necessary to prevent the development of diabetic retinopathy, which would represent a significant weapon in the management of patients. In addition, successful application of secretion gene therapy in the eye might open up the possibility to introduce the same concept for the treatment of larger organs undergoin ....If successful, our approach will potentially have a major impact on the treatment of diabetic retinopathy and possibly on all diabetic vascular diseases. A single injection might only be necessary to prevent the development of diabetic retinopathy, which would represent a significant weapon in the management of patients. In addition, successful application of secretion gene therapy in the eye might open up the possibility to introduce the same concept for the treatment of larger organs undergoing microvascular changes as a result of diabetes.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.
Abnormal growth of blood vessels is a central feature of number of blinding conditions of the eye. Although there are treatments available that reduce the sudden loos of vision in a majority of people with advanced age related macular degeneration, about 20% fail to respond and half gradually loose vision. This project will determine the effectiveness of treating vascular diseases of the retina with a novel therapy that is quite different to that currently available.