Disruption To Intracellular Trafficking As A Central Pathogenic Mechanism In Amyotrophic Lateral Sclerosis (ALS)
Funder
National Health and Medical Research Council
Funding Amount
$688,157.00
Summary
There are several different forms of ALS (MND), but the disease appears very similar in terms of symptoms and pathology. We have identified a common disease process shared by several different forms of ALS, which suggests that this is the underlying mechanism by which motor neurons die. This study will investigate whether we can develop new drug targets based on this mechanism in animal disease models. This may ultimately assist in the development of new treatments for ALS.
Volitional And Non-volitional Control Of Human Balance: Normal Physiology And Changes With Ageing
Funder
National Health and Medical Research Council
Funding Amount
$383,066.00
Summary
How does the brain control balance when we stand? Our research shows that two very distinct processes operate to produce distinct postural, perceptual and cardiovascular outcomes. These experiments investigate the neurophysiology that coordinates these systems and what happens with age. The results will fundamentally change views on balance control. Balance problems are common in neurological disorders and old age. Knowing how balance works will improve diagnosis, treatment and rehabilitation.
Molecular Control Of Interneuron Development And Function In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$527,828.00
Summary
This project will study the changes that occur in neurons, during normal brain maturation and in pathology. We hypothesise that early signs of brain malfunction can be detected in neurons before symptoms appear. The role of a gene will be studied during development and disease in a mouse model of autism, in order to identify the molecular and electrical signs of abnormal activity. This research will ultimately enable us to propose new strategies to treat symptoms of brain disease.
Targeting GDNF Family Ligand (GFL) Signalling To Treat Inflammatory Bone Pain
Funder
National Health and Medical Research Council
Funding Amount
$329,285.00
Summary
Pain associated with bone marrow oedema syndromes, osteomyelitis, osteoarthritis, fractures and bone cancer causes a major burden on individuals and health care systems in Australia and worldwide. In this application, we will explore specific signalling pathways that we have identified in nerves that code bone pain. This will provide an opportunity for the rational design of highly specific drugs capable of interacting exclusively with molecules that drive pain in these conditions.
Function And Physiological Role Of Inhibitory Circuits In The Amygdala
Funder
National Health and Medical Research Council
Funding Amount
$741,518.00
Summary
The amygdala is part of the brain that assigns emotional content to our sensory world and dysfunction of the amygdala is responsible for many anxiety-related disorders. Many anxiolytics, like valium, act on receptors in the amygdala. In this project we will study circuits in the amygdala that are modulated by anxiolytics. These studies will provide essential information in the understanding of anxiety disorders and help in developing drugs to treat these disorders.
A Genome-wide Analysis Of The Epigenetic Control Of Learning And Memory
Funder
National Health and Medical Research Council
Funding Amount
$547,857.00
Summary
The ability to form and recall memories is a fundamental function of the brain. This ability is affected by neurodegenerative diseases such as Alzheimer's Disease. This project will uncover the regulatory framework that defines the brain cells involved in forming memories, and how these change during Alzheimer's Disease progression.
Novel Analgesic Approaches: Harnessing Functional Interactions Between Sodium Channels And Opioids
Funder
National Health and Medical Research Council
Funding Amount
$329,076.00
Summary
Chronic pain is a debilitating condition that affects the life of one five Australians and has significant socioeconomic impact. Currently available pain killers often do not work, or have intolerable side effects. We have discovered that combination treatment with opioids and a novel venom-derived compound discovered by us provides effective pain relief. The aim of this project is to understand the mechanisms underlying this synergistic effect to develop new treatment approaches for pain.
Central Nervous Pathways For The Sympathetic Control Of Immune Function
Funder
National Health and Medical Research Council
Funding Amount
$300,741.00
Summary
The nervous system regulates immune system function by a special set of nerves that are part of the sympathetic nervous system. This project aims to work out which brain pathways control them.
Stimulant laxatives are widely used and usually very effective in the short term, but how they work is very poorly understood. Our recent work has shown that they selectively excite sensory pathways from the colon which then trigger defaecation. This points to an undiscovered mechanism that potently affects colonic sensation and motility. This is likely to be a target for new treatments for other colonic disorders such as Irritable bowel syndrome and faecal incontinence.
Understanding The Origins Of Neurogenic Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$668,914.00
Summary
Brain cells that control the cardiovascular system are thought to have stopped dividing by adulthood. We recently discovered that this is not the case. Our initial findings suggest that these nascent cells might be important for maintaining normal blood pressure. This work will allow us to elucidate the function of these nascent cells and how they integrate into the circuit that controls the cardiovascular system. Our findings will be fundamental for understanding diseases such as hypertension.