Decoding Conserved Mechanisms That Control Neuronal Migration
Funder
National Health and Medical Research Council
Funding Amount
$526,950.00
Summary
During brain development, nerve cells interact with each other and their surrounding environment through a forest of molecules that are essential for precise cellular communication. Deficient signaling between these molecules causes defects in development and leads to disease. By employing genetic and biochemical approaches we propose to identify new mechanisms through which the brain develops, to better understand how brain diseases such as epilepsy and schizophrenia occur.
The Role Of UPF3B And Nonsense Mediated MRNA Decay Surveillance In The Pathology Of Intellectual Disability.
Funder
National Health and Medical Research Council
Funding Amount
$789,954.00
Summary
Proper functioning of the nonsense mediated mRNA decay (NMD or 'mRNA police') is crucial for any cell to ensure normal development and function. When NMD is compromised the outcome is learning and memory problems, autism or schizophrenia. Under this project we study malfunctioning NMD using stem and neuronal cells derived from patients' skin cells. Some of the affected genes might be considered for therapeutic interventions. NMD is relevant to 1000s of human disorders and as such it is of fundam ....Proper functioning of the nonsense mediated mRNA decay (NMD or 'mRNA police') is crucial for any cell to ensure normal development and function. When NMD is compromised the outcome is learning and memory problems, autism or schizophrenia. Under this project we study malfunctioning NMD using stem and neuronal cells derived from patients' skin cells. Some of the affected genes might be considered for therapeutic interventions. NMD is relevant to 1000s of human disorders and as such it is of fundamental importance.Read moreRead less
A Zebrafish Model Of Facioscapulohumeral Dystrophy For Therapy Development And Functional Studies
Funder
National Health and Medical Research Council
Funding Amount
$390,601.00
Summary
This project seeks to develop a zebrafish model for a genetic muscle-wasting disease called facioscapulohumeral dystrophy (FSHD). Our zebrafish model will enable us to better understand the biological mechanisms underlying the disease, as well as provide a platform for therapeutic testing and discovery.
Uncovering The Function Of Susceptibility Variants In Alzheimer's Disease: From GWAS To Cell-Type Specific EQTLs And MQTLs
Funder
National Health and Medical Research Council
Funding Amount
$647,804.00
Summary
This project will investigate some of the genetic and epigenetic changes that occur inside certain brain cells that make them selectively vulnerable to Alzheimer's disease, in order to better understand the mechsnisms that give origin to the disease and identify possible targets for precision therapies.
The Role Of Cell Adhesion Molecules In Regulation Of Axon Advance
Funder
National Health and Medical Research Council
Funding Amount
$426,006.00
Summary
All cells contain on their surface a class of molecules, cell adhesion molecules, that enable them to adhere to other cells in tissues. Cell adhesion molecules have long been known to be involved in the guidance of axons to their targets during development. However the molecular mechanisms by which these molecules act are largely unknown. We propose to use the powerful genetic tools available in the fruitfly to dissect the mechanisms by which two cell adhesion molecules promote axon growth.
Investigation Of The Functional Role Of Parkin And PArkin Co-Regulated Gene (PACRG) In Neurodegenerative Disease.
Funder
National Health and Medical Research Council
Funding Amount
$82,421.00
Summary
Parkinson’s disease (PD) is a chronic neurodegenerative disorder affecting greater than 1% of the population at 65 years of age. Current treatment regimes treat the motor-associated symptoms of disease - tremor and muscle rigidity. There is no cure, or effective treatment to reverse or halt disease progression. Understanding the role of dysregulated proteins in the progression of PD will identify new targets for treatment of the motor and cognitive deficits observed in PD-affected individuals.
PIPK2A, A Candidate Gene For Schizophrenia: Impact Of DNA Polymorphisms On Gene- And Protein Expression And -function
Funder
National Health and Medical Research Council
Funding Amount
$454,023.00
Summary
Schizophrenia is a devastating mental disorder with severe impact not only on the individual, but also on families and communities. Prevalence of the illness is worldwide about 0.5% for all populations. More than 200,000 Australians suffer from schizophrenia, costing the Australian community nearly $2 billion each year. The causes for schizophrenia are still unclear. There is now agreement that nature (genetic factors) and nurture (environmental influences) play a role in the development of the ....Schizophrenia is a devastating mental disorder with severe impact not only on the individual, but also on families and communities. Prevalence of the illness is worldwide about 0.5% for all populations. More than 200,000 Australians suffer from schizophrenia, costing the Australian community nearly $2 billion each year. The causes for schizophrenia are still unclear. There is now agreement that nature (genetic factors) and nurture (environmental influences) play a role in the development of the disorder. Evidence for genetic factors has been obtained and consistently confirmed by family-, twin-, and adoption studies. After many years of research, evidence for several genes, conferring susceptibility to schizophrenia, has been obtained by gene finding approaches applied to large family samples with multiple affected members. However, these genes have to be considered as candidates until more is known about their impact on brain function resulting in schizophrenic disorders. We have dissected a gene locus on chromosome 10p detected by linkage analysis by several groups including ourselves. We obtained statistical evidence for association of DNA sequence variants in the gene encoding the enzyme phosphatidyl-4-phosphate 5-kinase with schizophrenia. This enzyme is a critical component of the phosphoinositide pathways, which are involved in cell signalling. Our aim is to identify a possible dysfunction in the pathways. We will search for mutations involved in function or dysfunction of the enzyme. We will investigate gene- and protein expression and enzyme function in lymphoblast cell cultures and in post mortem brain tissue. Our ultimate goal is to characterise the possible impairment of intracellular cell signalling and thus identify molecular targets for development of novel and specific pharmacological treatments that have the potential to replace the currently available medication which is symptom-oriented and usually accompanied by severe adverse effects.Read moreRead less