New Dopaminergic Neurons In The Parkinson's Disease Striatum: Establishment Of Phenotype, Function And Origin.
Funder
National Health and Medical Research Council
Funding Amount
$156,493.00
Summary
Parkinson s disease is usually associated with loss of dopamine cells that send nerves from the substantia nigra to the striatum. However, we have found large numbers of apparently new dopaminergic cells in post mortem tissue from the striatum of 10 patients with Parkinson s disease but not in 5 age-matched controls. Our aims are firstly to determine whether these cells are indeed dopaminergic neurons by establishing their neurochemical and morphological profiles. This is required to determine w ....Parkinson s disease is usually associated with loss of dopamine cells that send nerves from the substantia nigra to the striatum. However, we have found large numbers of apparently new dopaminergic cells in post mortem tissue from the striatum of 10 patients with Parkinson s disease but not in 5 age-matched controls. Our aims are firstly to determine whether these cells are indeed dopaminergic neurons by establishing their neurochemical and morphological profiles. This is required to determine whether these apparently dopaminergic cells do indeed produce the neurotransmitter dopamine and to determine to what class of neuron they belong. The latter is important to establish whether they act locally in the striatum or extend their influence over a larger area of the brain. Secondly we shall assess their function in human and rat tissue. We shall determine whether their number is related to the severity of damage in Parkinson s disease, or whether L-DOPA therapy, which most patients receive, plays any role in their appearance. These experiments will lay the ground work to allow us to determine whether these cells are beneficial or harmful. Lastly, we shall determine where these cells come from. We shall determine whether they have always been present but have taken on a new function, or whether they are in fact new cells which have been born recently. This knowledge is essential if we are to be able to change their numbers to improve treatment of Parkinson s disease. We estimate that there are up to 66,000 of these dopaminergic cells in each striatum of patients with Parkinson s disease. This is enough to have a significant impact on the manifestation of the disease. These cells might be beneficial, allowing the brain to maintain essential functions for longer or they might be harmful playing a role in either development of Parkinson s disease itself or the harmful side effects of L-DOPA therapy.Read moreRead less
Pharmacological Regulation Of Airway Smooth Muscle Phenotype
Funder
National Health and Medical Research Council
Funding Amount
$276,742.00
Summary
In Australia there is a high incidence of asthma which impairs quality of life and can sometimes cause death if sufficiently severe. The main cause of asthma is the shortening of muscle surrounding the airway passages that cause the narrowing of these tube-like passages. When airway passages narrow a feeling of chest tightness is perceived by the asthmatic patient. When the narrowing is severe the amount of oxygen being delivered to the blood can be reduced to dangerous levels. When there is mus ....In Australia there is a high incidence of asthma which impairs quality of life and can sometimes cause death if sufficiently severe. The main cause of asthma is the shortening of muscle surrounding the airway passages that cause the narrowing of these tube-like passages. When airway passages narrow a feeling of chest tightness is perceived by the asthmatic patient. When the narrowing is severe the amount of oxygen being delivered to the blood can be reduced to dangerous levels. When there is muscle growth in the airways even small amounts of shortening of the muscle can cause severe narrowing of the airway passages. This research will investigate how muscle grows in asthmatic airways and look for new ways to use drugs to treat this muscle growth. We hope to improve drug treatment of asthma by limiting the amount of airway narrowing caused by muscle contraction.Read moreRead less
Use Of Expression Profiling To Identify Genes Influencing Cardiovascular Risk In The Norfolk Island Population Isolate
Funder
National Health and Medical Research Council
Funding Amount
$697,409.00
Summary
This study will use a unique population isolate from Norfolk Island. We aim to identify genes that play a role in cardiovascular disease risk. Norfolk has a population of ~1200 permanent residents, most of whom are direct descendents of 18th century English Bounty mutineers and Polynesian women. We will undertake gene expression mapping to identify genomic loci that influence cardiovascular disease using samples from this population isolate.
Structural Basis For Inhibition Of Malaria Invasion By Targeting The Apical Membrane Antigen Of Plasmodium Falciparum.
Funder
National Health and Medical Research Council
Funding Amount
$434,134.00
Summary
3 million children die every year from malaria infections. A leading vaccine candidate is a protein from the malaria parasite called AMA1. Humans that have been infected with malaria make antibodies to this protein which can kill parasites, however little is known about how this occurs. We aim to identify regions of the protein that generate antibodies that prevent malaria parasites from invading human cells and help in the search for a vaccine against malaria.