Neurodevelopmental Role Of Susceptibility Genes For Autism Spectrum Disorders: From Genes To Behaviour
Funder
National Health and Medical Research Council
Funding Amount
$482,968.00
Summary
Autism is a developmental neuropsychiatric syndrome characterised by impairments in three principal domains: social interaction, language and behavioural inflexibility. Autism spectrum disorder (ASD) refers to a group of neurodevelopmental syndromes with the common feature of dysfunctional reciprocal social interaction. In this project we will investigate the role of genes that increase the risk of ASD in the development of behaviours using an animal model. This work will lead to a better unders ....Autism is a developmental neuropsychiatric syndrome characterised by impairments in three principal domains: social interaction, language and behavioural inflexibility. Autism spectrum disorder (ASD) refers to a group of neurodevelopmental syndromes with the common feature of dysfunctional reciprocal social interaction. In this project we will investigate the role of genes that increase the risk of ASD in the development of behaviours using an animal model. This work will lead to a better understanding of the genetic basis of ASD.Read moreRead less
I use multidisciplinary and neuroimaging approaches to understand how the biochemistry of the brain affects how the brain functions in health and disease. This basic science underpins treatment approaches and furthers our understanding of a wide range of brain disorders.
Mild traumatic brain injury (TBI) is a leading cause of death and disability in Australia, especially in young populations. Although many patients recover uneventfully following mild TBI, complications such as prolonged symptoms, depression and cognitive deterioration may occur. With considerable advancements in neuroimaging and cognitive assessment in recent years, newer techniques may provide a window to directly observe changes that accompany mild TBI.
Targeting Of Callosal Axons To Duplicate Cortical Areas In The Contralateral Hemisphere
Funder
National Health and Medical Research Council
Funding Amount
$600,785.00
Summary
The two sides of the brain communicate via a large fibre tract called the corpus callosum. This proposal investigates how the corpus callosum is formed during embryonic and postnatal development. Specifically, we investigate how the axons that make up the corpus callosum are able to locate their precise target in the contralateral hemisphere so that the brain circuit they form will be functional. We have developed a new mouse model to discover the fundamental mechanisms regulating how the brain ....The two sides of the brain communicate via a large fibre tract called the corpus callosum. This proposal investigates how the corpus callosum is formed during embryonic and postnatal development. Specifically, we investigate how the axons that make up the corpus callosum are able to locate their precise target in the contralateral hemisphere so that the brain circuit they form will be functional. We have developed a new mouse model to discover the fundamental mechanisms regulating how the brain is wired in order to function correctly.Read moreRead less
Guidance Mechanisms Regulating The Development Of Axonal Projections From The Cingulate Cortex.
Funder
National Health and Medical Research Council
Funding Amount
$484,236.00
Summary
The corpus callosum is the largest fibre tract in the brain and connects neurons in the left and right cerebral hemispheres. A subpopulation of callosal axons arise from neurons in the cingulate cortex and are the first to cross the midline. Defects in activation or wiring of the cingulate cortex are strongly implicated in acute pain, schizophrenia and bipolar disorder. This proposal investigates how the commissural projections of the cingulate cortex become wired up during development.
Cellular And Molecular Regulation Of Interhemispheric Fusion
Funder
National Health and Medical Research Council
Funding Amount
$449,489.00
Summary
In the developing brain, the two cerebral hemispheres undergo interhemispheric fusion to allow commissural fibres to cross the midline. Lack of interhemispheric fusion results in agenesis of the corpus callosum and may manifest as an interhemispheric cyst in acallosal patients. This project will investigate the cellular and molecular mechanisms that regulate interhemispheric fusion, including removal of the leptomeninges, astroglial differentiation and the formation of adherens junctions at the ....In the developing brain, the two cerebral hemispheres undergo interhemispheric fusion to allow commissural fibres to cross the midline. Lack of interhemispheric fusion results in agenesis of the corpus callosum and may manifest as an interhemispheric cyst in acallosal patients. This project will investigate the cellular and molecular mechanisms that regulate interhemispheric fusion, including removal of the leptomeninges, astroglial differentiation and the formation of adherens junctions at the interhemispheric fissure to mediate fusion.Read moreRead less
Down syndrome (DS) individuals have 3 copies of chromosome 21. I am proposing to do my PhD to investigate the role of a gene existing on chromosome 21 called Intersectin 1. This gene, when over-expressed might be responsible for manifestation of intellectual impairment in Down syndrome. I will be examining the consequence of altered/over-expression of this gene in receptor trafficking, cell signalling and histology of the brain to identify the differences between affected individuals and the nor ....Down syndrome (DS) individuals have 3 copies of chromosome 21. I am proposing to do my PhD to investigate the role of a gene existing on chromosome 21 called Intersectin 1. This gene, when over-expressed might be responsible for manifestation of intellectual impairment in Down syndrome. I will be examining the consequence of altered/over-expression of this gene in receptor trafficking, cell signalling and histology of the brain to identify the differences between affected individuals and the normal population.Read moreRead less
Molecular And Cellular Mechanisms Of Axon Guidance In The Vertebrate Nervous System
Funder
National Health and Medical Research Council
Funding Amount
$330,735.00
Summary
There are, at least, two major obstacles that have to be overcome in the design of therapies to assist the repair of injured brain tissue. First, the nerve cells that are damaged have to be encouraged to regrow - typically this regrowth is inhibited in the brain; and second, this regrowth has to be directed so that the correct connections are re-established. This project will begin to unravel some of the mechanisms that nerve cells use to wire up together during development. This information can ....There are, at least, two major obstacles that have to be overcome in the design of therapies to assist the repair of injured brain tissue. First, the nerve cells that are damaged have to be encouraged to regrow - typically this regrowth is inhibited in the brain; and second, this regrowth has to be directed so that the correct connections are re-established. This project will begin to unravel some of the mechanisms that nerve cells use to wire up together during development. This information can be used to assist in trying to modulate and facilitate directed regrowth following injury.Read moreRead less
Characterisation Of Eurl, A Novel Gene Implicated In The Etiology Of Abnormal Brain Development And Intellectual Disability
Funder
National Health and Medical Research Council
Funding Amount
$597,541.00
Summary
Intellectual disability affects around one per cent of Australians, and can arise from genetic abnormalities during fetal life, such as through abnormal regulation of gene expression. We have identified a novel gene, known as eurl, which controls brain assembly as well as the ability of neurons to form functional connections within the brain. We will investigate how this novel gene controls brain development, and characterise eurl as a potential therapeutic target for learning and memory.
Sensory Cortex Processing Changes Underlying Brain And Behaviour Deficits Caused By Traumatic Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$576,795.00
Summary
Traumatic brain injury (TBI) from physical head trauma causes behavior and cognitive deficits. The burden for victims, families and the community is enormous: total life-time expenses in moderate-to-severe TBI are estimated to be $8.6 billion in Australia. We aim to elucidate whether changes in how the brain processes sensory information could underlie TBI-induced deficits in complex behaviour and whether these changes will be ameliorated by the three currently-most-promising treatments for TBI.