Inclusion Body Proteins And Neurodegenerative Disease
Funder
National Health and Medical Research Council
Funding Amount
$389,164.00
Summary
Parkinson's disease affects 1% of people aged over 50, and a related disorder, Dementia with Lewy bodies, causes dementia in elderly patients. These diseases are characterised by inclusion bodies (Lewy bodies) in a sub population of nerve cells. Multiple system atrophy, another adult-onset neurodegenerative disorder, is also characterised by inclusion bodies (glial inclusions). Inclusions may interfere with cellular function, contributing to the process of brain degeneration. The inclusion bodie ....Parkinson's disease affects 1% of people aged over 50, and a related disorder, Dementia with Lewy bodies, causes dementia in elderly patients. These diseases are characterised by inclusion bodies (Lewy bodies) in a sub population of nerve cells. Multiple system atrophy, another adult-onset neurodegenerative disorder, is also characterised by inclusion bodies (glial inclusions). Inclusions may interfere with cellular function, contributing to the process of brain degeneration. The inclusion bodies are precipitations of proteins and other cellular chemicals. In the last 10 years, in a search for the underlying cause of these neurodegenerative disorders, there has been an intensive research effort to identify the proteins precipitated in the inclusion bodies. The present project adopts a new strategy and aims to identify the precipitated proteins in the inclusion bodies in brains of people dying with Parkinson's disease, Dementia with Lewy bodies and Multiple system atrophy. We intend to isolate the Lewy bodies and the glial inclusions from fresh brain tissue of patients dying with relevant diseases. Throughout the various steps in the isolation process, the location of the inclusion bodies will be checked with a special antibody to a particular protein (alpha synuclein) which we and others have already discovered to be present in all inclusion bodies. Proteins will then be identified using electrophoresis and amino acid sequencing. With the identification of these proteins, their role in neurodegeneration in these diseases can be examined using multiple biomedical approaches. These proteins will be important candidates for developing novel diagnostic reagents, screening for gene mutations in patients, or as the target of therapeutic intervention in these diseases.Read moreRead less
Cleavage Methods Of Mutation Detection: Improvement And Application In Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$1,044,349.00
Summary
Genes contain the information to build our body and keep it operating normally. These genes are inherited from our parents and number around 100,000. Faults in these genes can cause inherited diseases such as cystic fibrosis, cancers and common disorders such as Asthma and diabetes. These genes need detecting so that particular genes can be identified as causing the disease and also so that patients can have their disease properly diagnosed so that proper therapy and information can be given to ....Genes contain the information to build our body and keep it operating normally. These genes are inherited from our parents and number around 100,000. Faults in these genes can cause inherited diseases such as cystic fibrosis, cancers and common disorders such as Asthma and diabetes. These genes need detecting so that particular genes can be identified as causing the disease and also so that patients can have their disease properly diagnosed so that proper therapy and information can be given to the patients. In future similar changes (but changes not causing disease) may be searched for in patients to overcome the side effects of drugs. Our centre specializes in the methods of detecting faults and their application. Two of our methods are being used around the world and one is being sold as simple kit. These methods still have drawbacks and the work proposed is to overcome some of these. We propose to apply our and other methods to faults in genes which have recently been shown to cause diseases of the artery. This is an exciting new development that shows that this disease is similar to cancer. We are fortunate to have attracted Dr Paula Bray from the laboratory which discovered this. This new finding needs to be studied in more detail and may identify life-style factors which cause coronary heart disease. Our studies will also assist in gene therapy when it becomes available.Read moreRead less