Genes Important For Early Brain Development Are Also Important For Adult Brain Disease
Funder
National Health and Medical Research Council
Funding Amount
$850,346.00
Summary
I committed to understanding of how the brain develops, grows and regenerates. My laboratory is active in finding a cure for brain injury following brain trauma or brain ischemia. I have discovered that the genes that drive neuron migration and wiring in the fetus also function in the adult brain to improve neuron survival and regeneration. Probing the function of these genes will deliver twin benefits in preventing brain disorder in the newborn and treating brain disease in the adult.
Prof Alan Connelly is an internationally recognised neuroimaging researcher specialising in MRI. His major areas of research are in the development of new methods to acquire and process MR images of both structural and functional aspects of the brain, and the application of these novel methods to clinical neuroscience problems. His work has had a major impact in the field of epilepsy, where techniques that he pioneered have been widely adopted in specialist epilepsy centres worldwide.
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.
Development of normal brain function requires information transfer and integration from outside and within the brain. Normal brain wiring is guided by genetic and environmental cues, whose relative contributions remain controversial. This project investigates the physiological and behavioural consequences of abnormal brain wiring, and the potential for controlled environments and targeted interventions to overcome the deficits. Relevance includes neurotrauma as well as mental illnesses.
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
Differential Regulation Of Human Tyrosine Hydroxylase Isoforms And The Development Of Parkinson's Disease
Funder
National Health and Medical Research Council
Funding Amount
$325,591.00
Summary
Parkinson's disease is a common neurodegenerative disease whose major feature is loss of a dopamine containing nerves in a part of the brain called the substantia nigra. Loss of nerves within the substantia nigra is not uniform, but firstly and primarily affects the ventral cells, suggesting that particular dopaminergic neurons are more vulnerable to the disease process. A key to understanding Parkinson's disease would be to work out why these cells are more susceptible to degeneration than othe ....Parkinson's disease is a common neurodegenerative disease whose major feature is loss of a dopamine containing nerves in a part of the brain called the substantia nigra. Loss of nerves within the substantia nigra is not uniform, but firstly and primarily affects the ventral cells, suggesting that particular dopaminergic neurons are more vulnerable to the disease process. A key to understanding Parkinson's disease would be to work out why these cells are more susceptible to degeneration than other dopaminergic cells in the brain. Tyrosine hydroxylase controls the rate of dopamine synthesis. Humans are unique in that they contain four isoforms of tyrosine hydroxylase and therefore they have the potential to alter the regulation of dopamine synthesis in ways that other species do not. Recent developments in our laboratories have suggested that particular isoforms of tyrosine hydroxylase may have either a role in the susceptibility of dopaminergic neurons to degeneration in Parkinson's disease or a role in the timing of the symptoms of the disease. We have demonstrated differences in the distribution of the human TH isoforms within the substantia nigra, with certain isoforms being more prevalent in the susceptible ventral cells. We have also shown that there are major differences in the regulation of the four human tyrosine hydroxylase isoforms. Some isoforms will be more sensitive to conditions that occur with high frequency stimulation of neurons and some to low frequency sustained stimulation. This would provide a mechanism by which differential distribution of the human TH isoforms would result in altered dopamine synthesis in different parts of the human brain and this may in turn lead to either increased susceptibility to, or earlier appearance of symptoms of, Parkinson's disease.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
Mild Traumatic Brain Injury And The Risk Of Long-term Neurodegenerative And Neurobehavioural Disease
Funder
National Health and Medical Research Council
Funding Amount
$585,269.00
Summary
Considerable media attention surrounds the potential for long-term problems in individuals with high exposure to head impacts such as seen in sporting, civilian and/or military contexts. This study examines the long-term effects of mild traumatic brain injury (mTBI) and helps close the current knowledge gap of the impact of this disorder on individuals. There are no long term trials to answer the critical question of whether mild TBI causes long term problems in the brain.
The mammalian cerebral cortex is an area of the brain responsible for all higher order cognitive processes. I investigate how connections from between the two cerebral hemispheres during embryonic and foetal development, thus enabling the brain to coordinate information from the two sides of the body. Malformations of these connections cause mental retardation and sensory and motor deficits. I want to understand how these brain defects occur and how best to treat them.
Brain damage resulting from long-term alcohol abuse is localized to discrete regions of the brain and selectively impairs key neuropsychological functions. Alcohol misuse affects processes that control excitability in the brain, leading to the over-stimulation of brain cells. When this continues for long periods the cells are likely to die and most alcoholics misuse alcohol for most of their adult lives. We will study the human brain s capacity to use and respond to glutamate, its major natural ....Brain damage resulting from long-term alcohol abuse is localized to discrete regions of the brain and selectively impairs key neuropsychological functions. Alcohol misuse affects processes that control excitability in the brain, leading to the over-stimulation of brain cells. When this continues for long periods the cells are likely to die and most alcoholics misuse alcohol for most of their adult lives. We will study the human brain s capacity to use and respond to glutamate, its major natural excitant, in the regions that are selectively damaged by alcoholism. How these capacities are affected by heredity, and by diseases commonly associated with alcoholism such as cirrhosis of the liver, will also be explored. If we can understand how selective brain damage occurs in alcoholics we will be better able to devise new drug therapies to combat and prevent it. As well, localized brain damage is a feature of many neurological diseases, so the study will provide a general model of disease mechanisms.Read moreRead less