Mechanism Of Signal Transduction And Receptor Activation In Ligand Gated Ion Channel Receptors
Funder
National Health and Medical Research Council
Funding Amount
$456,000.00
Summary
This project seeks to provide fundamental new information about the means by which neurotransmitter receptors, which mediate fast synaptic neurotransmission, operate. It will use a range of molecular advances made by this and other laboratories to clarify how neurotransmitters enable their receptors to activate and signal. This fundamental information is of major medical significance as defective synaptic transmission, caused by mutations in ligand gated ion channel receptors, give rise to a num ....This project seeks to provide fundamental new information about the means by which neurotransmitter receptors, which mediate fast synaptic neurotransmission, operate. It will use a range of molecular advances made by this and other laboratories to clarify how neurotransmitters enable their receptors to activate and signal. This fundamental information is of major medical significance as defective synaptic transmission, caused by mutations in ligand gated ion channel receptors, give rise to a number of neurological and psychiatric disease states. The ligand gated receptors are also major targets for therapeutic drugs and the information gained in this study may also provide insights into new ways in which drugs could be used to enhance or inhibit synaptic signalling.Read moreRead less
Molecular Determinants Of Inhibitory Synaptic Function Studied Using Mutant And Transgenic Mice
Funder
National Health and Medical Research Council
Funding Amount
$496,500.00
Summary
Communication between nerve cells is the key to effective brain function and when disturbed, pathological states such as epilepsy, schizophrenia, fear and anxiety, spasticity and motor disorders ensue. This project is based on new data which suggests that the site of this communication, called the synapse, is a much more dynamic structure than previously thought. Based on our work to date, where we have demonstrated the recruitment of selected classes of neurotransmitter receptors into synapses, ....Communication between nerve cells is the key to effective brain function and when disturbed, pathological states such as epilepsy, schizophrenia, fear and anxiety, spasticity and motor disorders ensue. This project is based on new data which suggests that the site of this communication, called the synapse, is a much more dynamic structure than previously thought. Based on our work to date, where we have demonstrated the recruitment of selected classes of neurotransmitter receptors into synapses, our aim is to use a range of naturally occuring mice mutants, as well as transgenic mice to modulate the receptor levels and so to examine the role of synaptic function and synaptic dynamics. The outcomes of this project will provide fundamental new knnowledge aimed at understanding how communication in the nervous system works and may suggest ways in which modulation of this information flow could be used to treat disorders of brain function.Read moreRead less
Identification Of Novel Therapeutic Binding Sites On Glycine Receptors By High Throughput Screening
Funder
National Health and Medical Research Council
Funding Amount
$542,017.00
Summary
Glycine receptors mediate inhibitory neurotransmission in the nervous system. They provide fresh therapeutic targets for chronic inflammatory pain and muscle spasticity. Here we identify 5 compounds that may be appropriate as leads for discovering novel therapies for these disorders. We will use automated high throughput screening methods to discover how these drugs interact with the receptor. This will narrow down the search for the next generation of analgesic and muscle relaxant drugs.
Therapeutic Potential Of Glycine Receptors In Pain Sensory Pathways
Funder
National Health and Medical Research Council
Funding Amount
$292,223.00
Summary
Inflammation caused by infection or injury leads to a heightened sensation of pain and can convert non-painful stimuli (e.g., touch) into painful stimuli. This effect is mediated by the production of prostaglandins both in peripheral tissues and in the spinal cord. Prostaglandins have recently been shown to decrease the magnitude of the inhibitory neurotransmission that normally occurs onto pain sensing neurons in the spinal cord. This has the effect of raising the excitability of these neurons, ....Inflammation caused by infection or injury leads to a heightened sensation of pain and can convert non-painful stimuli (e.g., touch) into painful stimuli. This effect is mediated by the production of prostaglandins both in peripheral tissues and in the spinal cord. Prostaglandins have recently been shown to decrease the magnitude of the inhibitory neurotransmission that normally occurs onto pain sensing neurons in the spinal cord. This has the effect of raising the excitability of these neurons, thereby making it easier for weak pain stimuli to be relayed to the brain. Inhibitory neurotransmission onto pain sensing neurons is largely mediated by the alpha3 glycine receptor subunit that is not found anywhere else in the body. Very little is known about the physiological and pharmacological properties of these receptors. We hypothesise that drugs that increase the activation of alpha3 glycine receptors may provide a novel treatment for pain. This project will firstly identify new drugs that can increase the activation of these receptors. It will then test whether these drugs are likely to work in vivo. The project will also establish why these receptors are found only on pain neurons. Together, this information will establish whether alpha3 glycine receptors represent a promising new therapeutic target for inflammatory pain, and will place us in an excellent position to begin the next step of identifying novel therapeutic lead compounds.Read moreRead less
Examining The Role Of ASIC Channels In Pain Through The Development Of Subtype-specific ASIC Channel Modulators.
Funder
National Health and Medical Research Council
Funding Amount
$617,256.00
Summary
Acid sensing ion channels (ASICs) sense changes in acidity in the body. They are found throughout the body and may underlie nerve damage in stroke and some types of pain. ASICs also have many as yet unknown functions. A lack of selective tools to study ASICs is a major barrier to a complete understanding of what they do. This proposal aims to modify three animal toxins which block these receptors to make useful tools to study their function, in particular their role in sensing pain.
Developing Novel Selective Glycine Receptor Potentiators As A Means To Control Pain.
Funder
National Health and Medical Research Council
Funding Amount
$552,647.00
Summary
It has been estimated that >3M Australians suffer from pain at a cost to the economy of >$34B, with chronic pain (persisting beyond 1-6 mths) accounting for ~half this burden. There is an urgent and compelling social and economic case for the development of safer and more effective pain therapeutics. This project takes inspiration from a new class of Australian marine natural products that selectively regulate a key pain pathway, and will optimize and develop these as a new class of pain d ....It has been estimated that >3M Australians suffer from pain at a cost to the economy of >$34B, with chronic pain (persisting beyond 1-6 mths) accounting for ~half this burden. There is an urgent and compelling social and economic case for the development of safer and more effective pain therapeutics. This project takes inspiration from a new class of Australian marine natural products that selectively regulate a key pain pathway, and will optimize and develop these as a new class of pain drug.Read moreRead less
The Contribution Of Subunit Interfaces To Receptor Activation In Ligand Gated Ion Channels
Funder
National Health and Medical Research Council
Funding Amount
$309,070.00
Summary
This project seeks to provide insights into new mechanisms that could be used to enhance or inhibit neuronal signalling. The family of pentameric neurotransmitter receptors that are key components in the process of neuronal signalling and are the target of this study. It will investigate the molecular motions that occur when the receptor shifts from the resting state to the activated state in the presence of neurotransmitter. This critical to understanding the normal function of these receptors ....This project seeks to provide insights into new mechanisms that could be used to enhance or inhibit neuronal signalling. The family of pentameric neurotransmitter receptors that are key components in the process of neuronal signalling and are the target of this study. It will investigate the molecular motions that occur when the receptor shifts from the resting state to the activated state in the presence of neurotransmitter. This critical to understanding the normal function of these receptors in the brain and how they can be modulated.Read moreRead less
Mechanism Of Signal Transduction And Receptor Activation In Ligand Gated Ion Channel Receptors
Funder
National Health and Medical Research Council
Funding Amount
$551,560.00
Summary
This project seeks to provide fundamental new information about the means by which neurotransmitter receptors, which mediate fast synaptic neurotransmission, operate. This knowledge is important since the Cys-loop family of ligand gated ion channel receptors are responsible for a wide range of neuronal signalling and the control of both excitatory and inhibitory receptors. The Cys-loop receptors are modulated by both therapeutic drugs (eg. benzodiazepines, barbiturates, antiemetics) and by recre ....This project seeks to provide fundamental new information about the means by which neurotransmitter receptors, which mediate fast synaptic neurotransmission, operate. This knowledge is important since the Cys-loop family of ligand gated ion channel receptors are responsible for a wide range of neuronal signalling and the control of both excitatory and inhibitory receptors. The Cys-loop receptors are modulated by both therapeutic drugs (eg. benzodiazepines, barbiturates, antiemetics) and by recreational drugs (eg. alcohol, nicotine). They are also targets for development of new therapeutic drugs, such as allosteric modulators of nAChR for memory enhancement, or modulating GlyR to relieve spasticity or chronic pain. The project will use a range of molecular advances made by this and other laboratories to clarify how neurotransmitters enable their receptors to activate and signal. This fundamental information is of major medical significance as defective synaptic transmission, caused by mutations in ligand gated ion channel receptors, gives rise to a number of neurological and psychiatric disease states. The ligand gated receptors are also major targets for therapeutic drugs and the information gained in this study may also provide insights into new ways in which drugs could be used to enhance or inhibit synaptic signalling.Read moreRead less