Nerve cells communicate with each other through nerve processes or neurites. The dysfunction of neurites results in the clinical symptoms of dementia such as cognitive decline. Currently we cannot directly monitor degeneration of neurites in the living brain and therefore it is difficult to determine whether therapeutic agents are protective. My goal is to develop a detection system in the blood that will allow us to monitor these changes during disease progression and therapeutic intervention.
There are escalating numbers of Alzheimer�s disease sufferers. This Project aims to provide a better understanding of the fundamental process underlying the damage to brain circuitry in this condition. This proposal may provide key information regarding the relationship between the major pathological changes of Alzheimer�s disease, identifying the cellular mechanisms that are crucial to this process, and providing new avenues for therapeutic agents targeted at the earliest stage of AD.
Implications Of Retinal Neurodegeneration In Alzheimer's Disease
Funder
National Health and Medical Research Council
Funding Amount
$602,213.00
Summary
Recent research has shown that “early signs” of Alzheimer ’s disease (AD) can be detected in the eyes. My research focus is to determine which particular changes in the retina are associated with AD. I will also investigate if blocking the production of beta amyloids (proteins produced in AD) in the eye will indeed help reduce their load in the brain and hence delay the onset of AD. Results from this research maybe used for early diagnosis and future medicinal studies that target the eye in AD.
The Molecular Mechanisms Of Anabolic Androgen Actions In Skeletal Muscle
Funder
National Health and Medical Research Council
Funding Amount
$487,500.00
Summary
We are studying the role of male sex hormones, androgens, in controlling muscle function. Muscle wasting occurs in a variety of disorders, including cancer, burns and trauma, and also during normal ageing. Treatment with androgens helps prevent muscle wasting, and causes increased muscle size, although current therapies can also have side effects. Little is known about how androgens prevent wasting and promote muscle growth. Therefore, we propose to study the actions of male sex hormones in musc ....We are studying the role of male sex hormones, androgens, in controlling muscle function. Muscle wasting occurs in a variety of disorders, including cancer, burns and trauma, and also during normal ageing. Treatment with androgens helps prevent muscle wasting, and causes increased muscle size, although current therapies can also have side effects. Little is known about how androgens prevent wasting and promote muscle growth. Therefore, we propose to study the actions of male sex hormones in muscle. We will study the growth of mouse muscle cells in culture, and measure their rate of growth when treated with androgens. All cells contain certain factors that control their growth and replication, and we will test whether androgens activate these factors to increase growth. We will also study the effect of androgens on muscle in mice, to investigate complex effects that only occur in real muscle. We will neuter male mice, which causes muscle wasting. Neutered mice will then be treated with androgens or placebo, and we will compare the muscle growth effect of androgen treatment versus placebo. We will measure muscle strength, size, and the number of muscle cells in treated and placebo mice. We will also see if the effects of androgen require a particular protein, the androgen receptor, which acts as a lock-key mechanism in cells, to allow them to respond to androgens. We will make a strain of mouse with a non-functional version of the androgen receptor only in muscle cells. This will determine if the muscle growth effects of androgens occur through a direct action on muscle, or indirectly through acting on other tissues in the body. This information will ultimately allow us to design more targeted androgen therapies for muscle wasting, that act only on muscle.Read moreRead less
Investigating Mechanisms Of Dementia And Motor Neuron Disease
Funder
National Health and Medical Research Council
Funding Amount
$303,924.00
Summary
Dementia and motor neuron disease (MND) are both neurodegenerative diseases which have devastating impacts on patients and their families. My research investigates the biochemical mechanisms involved in these diseases. Pathology in the nervous system of dementia and MND patients contains a protein called ‘TDP-43’, but it remains unknown how this causes disease. This project will therefore explore the effects of TDP-43 malfunction, which will provide insight into potential therapeutic strategies.