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Developing Novel Neuroreceptor And Channel Therapies For Pain And Addiction
Funder
National Health and Medical Research Council
Funding Amount
$808,375.00
Summary
Chronic pain is a growing and poorly treated global health burden. There is a great need for novel pain therapeutics. We are discovering novel drug targets in pain pathways in the nervous system and new therapeutic molecules that selectively block information flow in pain nerves. Strong pain relieving drugs like morphine also lose their effectiveness after long periods of use. We are finding mechanisms responsible for this thereby providing a rational basis for development of better opioids and ....Chronic pain is a growing and poorly treated global health burden. There is a great need for novel pain therapeutics. We are discovering novel drug targets in pain pathways in the nervous system and new therapeutic molecules that selectively block information flow in pain nerves. Strong pain relieving drugs like morphine also lose their effectiveness after long periods of use. We are finding mechanisms responsible for this thereby providing a rational basis for development of better opioids and pain treatments.Read moreRead less
The amygdala is a part of the brain that processes and lays down emotional memories. Dysfunction in the amygdala is responsible for anxiety related disorders such post-traumatic stress disorder. I will study the neural circuits in the amygdala using innovative recordings and stimulation techniques. These studies will provide insight into the circuits that underpin anxiety related neurological disorders and provide targets for development of novel anxiolytic agents.
Peripheral Membrane Proteins In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$640,210.00
Summary
Peripheral membrane proteins are critical for processes such as cell transport, signaling, neurosecretion and development. As such, their dysfunction can lead to many debilitating diseases including cancer, inflammation and neurodegeneration. This project will establish fundamental new knowledge about how peripheral membrane proteins regulate cell function, how their perturbation or mutation results in human disease, and will inform efforts to target them for future therapeutic outcomes.
Developmental Neurobiology Of Schizophrenia And Translation Into New Treatments
Funder
National Health and Medical Research Council
Funding Amount
$611,574.00
Summary
Our ultimate goal is to expand effective treatment options for people with schizophrenia particularly ones that can prevent schizophrenia from developing. The successful completion of this project will identify novel biological pathways by which schizophrenia develops and, importantly, will yield new molecular tools to personalise treatment of schizophrenia.
I am a neuroscientist, studying fundamental mechanisms related to addiction. A major feature of my research is the neuropharmacological characterisation of potential novel therapeutic strategies to combat drug-seeking behaviour.
Molecular Mechanisms And Pharmacology Of The Dynamins
Funder
National Health and Medical Research Council
Funding Amount
$883,375.00
Summary
His research focuses on the molecular mechanisms of synaptic transmission in the nervous system to: a) understand the basic science of nerve communication and b) develop drugs to control diseases of nerve terminals like epilepsy. The main focus is on proteins called the dynamins, which are self-assembling molecular machines acting in many intracellular functions. There are three dynamin genes: dynI, II and III with diverse functions in the different parts of the body.
Neurodevelopmental Mechanisms And Early Intervention In Psychiatric Illness
Funder
National Health and Medical Research Council
Funding Amount
$652,765.00
Summary
Schizophrenia and depression are devastating mental illnesses and a huge burden to society. Drug treatments can be beneficial, but many patients are either treatment-resistant or show severe side-effects. There is an urgent need for truly novel treatment strategies which should ideally prevent symptoms. The main aim of this project is to elucidate brain mechanisms involved in schizophrenia and depression development to inform clinical research about improved preventative treatment strategies.
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.