Finding The Missing Katanin Required For Male Fertility
Funder
National Health and Medical Research Council
Funding Amount
$417,214.00
Summary
Microtubules are a key element of all cells, including in the male germ line. In this project we will define the function of the microtubule severing protein KATNA1 in male fertility. This will be achieved using a unique model and state-of-the-art technologies. This project will have immediate relevance to the 1 in 20 Australian men who suffer from infertility but will also inform KATNA1 function in the many other tissues where KATNA1 is produced.
Alzheimer's Disease And Related Disorders: Mechanism Of Tau Pathology In Established And Novel Transgenic Animal Models
Funder
National Health and Medical Research Council
Funding Amount
$423,017.00
Summary
Alzheimer's disease (AD) is a devastating neurodegenerative disease for which no cure is available. It affects more than 15 million people worldwide. There are estimates that by 2040, approximately 500'000 Australians will suffer from AD, with associated health costs of about 3% of the GDP. AD is characterized by two major brain lesions, beta-amyloid plaques and neurofibrillary tangles (NFTs). The latter contain a protein called tau which is in a fibrillar and highly phosphorylated state. We wer ....Alzheimer's disease (AD) is a devastating neurodegenerative disease for which no cure is available. It affects more than 15 million people worldwide. There are estimates that by 2040, approximately 500'000 Australians will suffer from AD, with associated health costs of about 3% of the GDP. AD is characterized by two major brain lesions, beta-amyloid plaques and neurofibrillary tangles (NFTs). The latter contain a protein called tau which is in a fibrillar and highly phosphorylated state. We were the first to establish a transgenic animal model of pre-tangles and, together with Dr. Hutton's laboratory, of NFT formation. We could further show that injections of beta-amyloid into brains of our tau mutant mice enhanced the NFT pathology in these mice. By Functional Genomics we identied genes and proteins, which are induced by tau expression. The specific aim of this proposal is to determine whether oxidative stress enhances the tau pathology in our tau mutant mice and whether distinct brain areas are particularly susceptible to this kind of stress. The reason for addressing this question is twofold: On the one hand, we have found in our mice that reactive oxygen species are increased, secondly it is known that some brain areas in the AD brain are degenerating, whereas others are not. A second aim is to develop novel tau transgenic models where individual interactions of tau with cellular proteins are disturbed. Finally, we want to determine whether the two kinases BMX and FAK and the phosphatase PPV regulate tau phosphorylation in vivo. Together, we hope that our efforts lead to a better understanding of the pathogenic mechanisms in AD and related disorders. As pathocascades are likely to be shared between a range of diseases, these findings may also contribute to other fields of research, such as Parkinson's disease. Ultimately, these efforts will assist in the development of a safe treatment of AD.Read moreRead less
Neurons are highly compartmentalized cell-types. In neurodegenerative diseases such as Alzheimer's disease, the protein Tau that serves a distinct function in one cellular compartment (the axon) accumulates in a massively phosphorylated form elsewhere (somatodendritic compartments and their spines) which is believed to impair neuronal functions. We will investigate how Tau is distributed in health and disease, and determine how this distribution is regulated.
NOVEL MECHANISMS UNDERLYING THE SPREADING OF TAU PATHOLOGY IN ALZHEIMER’S DISEASE AND OTHER TAUOPATHIES
Funder
National Health and Medical Research Council
Funding Amount
$640,106.00
Summary
Alzheimer’s disease and related dementias affect 230,000 people in Australia, with numbers expected to grow to three times that by 2050. The direct costs for health and residential care alone already exceed $6.6 billion per annum. The underlying pathomechanisms and the processes that drive the progression of neurodegeneration in these devastating disorders remain largely unknown. Here, we will identify novel therapeutic targets and assist in developing therapies for yet incurable diseases.
Novel Pathomechanisms And Treatment Approaches In Alzheimer’s Disease And Related Forms Of Dementia
Funder
National Health and Medical Research Council
Funding Amount
$774,540.00
Summary
This fellowship will provide new insight into the molecular processes underlying onset and progression of common brain conditions, including Alzheimer’s disease, Frontotemporal dementia and Motor Neuron Disease. Furthermore, new therapeutic targets for these diseases will be developed and tested in model systems, to facilitate future translation into clinical application, and to overcome the lack of treatments.
Targeting Post-synaptic Tau To Treat Alzheimer's Disease
Funder
National Health and Medical Research Council
Funding Amount
$1,686,311.00
Summary
We have previously identified post-synaptic tau as being critical in mediating toxicity in Alzheimer's disease brains. This project aims at understanding the exact underlying molecular mechanisms and, more importantly, developing novel drugs to block early toxicity that initiates cascades that eventually lead to brain atrophy and dementia. To achieve this aim, this project will generate and utilize models of Alzheimer's disease in combination with a broad range of latest analytical tools.
Protein Phosphatase 2A Methylation: Regulation And Functional Significance For Tauopathies
Funder
National Health and Medical Research Council
Funding Amount
$470,713.00
Summary
Clinical studies have revealed that low blood levels of the vitamin folate are a risk factor for cognitive impairment, depression and dementia, which are prevalent in the elderly. Deregulation of the protein tau is a key event in Alzheimer’s disease pathogenesis. This project will utilize cell culture and aged mouse models to determine how alterations in folate status and deregulation of protein phosphatase 2A affect the regulation of tau and other key brain processes that become altered in Alzh ....Clinical studies have revealed that low blood levels of the vitamin folate are a risk factor for cognitive impairment, depression and dementia, which are prevalent in the elderly. Deregulation of the protein tau is a key event in Alzheimer’s disease pathogenesis. This project will utilize cell culture and aged mouse models to determine how alterations in folate status and deregulation of protein phosphatase 2A affect the regulation of tau and other key brain processes that become altered in Alzheimer’s disease.Read moreRead less
DISCOVERY OF GENES THAT PROTECT AGAINST TAU-INDUCED NEUROPATHOLOGY
Funder
National Health and Medical Research Council
Funding Amount
$921,764.00
Summary
Dementia incurs $5 billion of direct health costs, affects 300,000 Australians and its incidence is increasing. New treatments are urgently needed. Dementia is associated with tau protein aggregates in the brain. Finding genes that prevent symptoms caused by tau aggregates will help develop new treatments, but identifying such genes has been very difficult and expensive. We will use our world-leading resource to revolutionize gene discovery and identify genes that can protect against dementia.