Brain Plasticity Following Changes In Sensory Input
Funder
National Health and Medical Research Council
Funding Amount
$312,576.00
Summary
The research proposed here will investigate the mechanisms our brains use to adapt to changes in sensory input, as occurs following blindness, deafness, nerve damage or loss of a limb. The information gathered will help develop treatments for diseases associated with sensory loss, as well as those associated with deficits in our ability to learn and remember, such as Alzheimer's disease.
Synaptic Integration And Plasticity In The Rat Piriform Cortex
Funder
National Health and Medical Research Council
Funding Amount
$250,500.00
Summary
The human cerebral cortex is the pinnacle of evolution. It is the most complex structure known, responsible for all of those skills - like language and reasoning - that make our species so remarkable. It is also a major site of many brain diseases, like schizophrenia and epilepsy. An understanding of how the cerebral cortex works would be a remarkable achievement, of immeasurable benefit to human health. How can one go about studying such a complex structure? The strategy taken in this project i ....The human cerebral cortex is the pinnacle of evolution. It is the most complex structure known, responsible for all of those skills - like language and reasoning - that make our species so remarkable. It is also a major site of many brain diseases, like schizophrenia and epilepsy. An understanding of how the cerebral cortex works would be a remarkable achievement, of immeasurable benefit to human health. How can one go about studying such a complex structure? The strategy taken in this project is to begin by studying one of the simplest regions of the cerebral cortex, the olfactory (or piriform) cortex. The olfactory cortex is an evolutionarily ancient region of cortex, with a simpler architecture than other cortical regions. Its task is to process the sense of smell, a primitive sense that is more elaborated in lower animals than in humans. The broad goal of our research is to understand, by studying the olfactory cortex of rats, how olfactory processing occurs at the level of nerve cells (neurons). We will use a number of powerful techniques - including microelectrode recording and laser microscopy - to measure the electrical properties of individual neurons. We will also study the synaptic connections between neurons, and how these connections change following memory-inducing stimuli. It is hoped that this work will shed light on how the healthy cortex is able to process and store information, and how brain diseases cause these functions to deteriorate.Read moreRead less
Mechanisms Of Glutamate Receptor Maturation In Chicken Brain
Funder
National Health and Medical Research Council
Funding Amount
$418,980.00
Summary
In the brain, many key proteins involved in signalling change during development as part of the fine tuning of the network of connections between nerve cells. Disorders of this fine tuning are thought to result in a number of neurological or psychiatric conditions such as epilepsy and schizophrenia. This project will investigate the maturation of signalling molecules in the brain (receptors for the neurotransmitter glutamate, key enzymes called protein kinases and protein phosphatases that contr ....In the brain, many key proteins involved in signalling change during development as part of the fine tuning of the network of connections between nerve cells. Disorders of this fine tuning are thought to result in a number of neurological or psychiatric conditions such as epilepsy and schizophrenia. This project will investigate the maturation of signalling molecules in the brain (receptors for the neurotransmitter glutamate, key enzymes called protein kinases and protein phosphatases that control the activity of receptors and scaffolding proteins that bind the whole lot into a signalling complex). The project uses chickens as a novel animal model because chicken brain has a slow maturation that occurs well after the initial wiring of the brain is complete. This enables the maturation changes to be clearly identified and experimentally modified. The project combines investigations at the molecular, physiological and behavioural levels. The effects of hormones and drugs on maturation will be investigated. Because brain maturation in humans is also slow an understanding of the way in which this maturation is controlled may provide insights into what causes some neurological-psychiatric disorders in children and adolescents and how to treat or prevent them.Read moreRead less