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
Sialyltransferase In The Bipolar And Schizophrenic Brain: Examining The Role Of A Novel Generalised Susceptibility Gene
Funder
National Health and Medical Research Council
Funding Amount
$512,627.00
Summary
Bipolar disorder and schizophrenia are two major psychiatric conditions affecting over 800,000 Australians. We have identified a new gene which contributes to increased risk to developing both bipolar disorder and schizophrenia. We will investigate the function of this gene in normal brain development, and how this function is disrupted in individuals with bipolar disorder and schizophrenia. Understanding the biological cause will help us define better treatments for these severe mental illnesse ....Bipolar disorder and schizophrenia are two major psychiatric conditions affecting over 800,000 Australians. We have identified a new gene which contributes to increased risk to developing both bipolar disorder and schizophrenia. We will investigate the function of this gene in normal brain development, and how this function is disrupted in individuals with bipolar disorder and schizophrenia. Understanding the biological cause will help us define better treatments for these severe mental illnesses.Read moreRead less
Imaging Genetics In Schizophrenia And Bipolar Disorder: Adjudicating Neurocognitive Endophenotypes
Funder
National Health and Medical Research Council
Funding Amount
$569,873.00
Summary
Schizophrenia and bipolar disorder share some common genes and cognitive deficits, yet manifest differently in terms of symptom expression, illness course, and functional impact. This research tests the assertion that genes implicated as common to these conditions may code for impairments in prefrontal cognitive and sub-cortical emotion processing. We also examine whether between-diagnosis distinctions in these brain responses may be mediated by hypothalamic-pituitary-adrenal axis functioning.
Neurons in the two hemispheres of the brain make connections with each other via a large fibre tract called the corpus callosum. In over fifty different human congenital syndromes the corpus callosum fails to form properly. Such syndromes, which include Aicardi syndrome, Andermann syndrome, Shapiro syndrome and Acrocallosal syndrome, can result in mental retardation, seizures, lack of motor coordination and ocular abnormalities in children. Our data on both mouse and human brain development show ....Neurons in the two hemispheres of the brain make connections with each other via a large fibre tract called the corpus callosum. In over fifty different human congenital syndromes the corpus callosum fails to form properly. Such syndromes, which include Aicardi syndrome, Andermann syndrome, Shapiro syndrome and Acrocallosal syndrome, can result in mental retardation, seizures, lack of motor coordination and ocular abnormalities in children. Our data on both mouse and human brain development show that the mouse is an excellent model system for understanding how the brain becomes wired up during development and what may go wrong in these disorders. Here we investigate the role of a family of genes called nuclear factor one (Nfi) genes in brain development. When mutated in mice, members of this gene family, principally Nfia and Nfib, cause severe malformations of the brain. The phenotype inlcudes a failure to form some midline glial populations, the expansion of the cingulate cortex and loss of the corpus callosum. The propoer formation of midline glial populations and the cingulate cortex are essential to callosal fomration and correct brain wiring. Defects in brain wiring in the cingulate cortex during development may underlie disorders such as schizophrenia, bipolar disorder and depression. In this project we will address the mechanism of function underlying the control of brain development by the Nfi genes. The expected outcomes of this research are to identify new mechanisms and genetic pathways critical to the formation of connections between the two sides of the brain and proper formation of the cingulate cortex. These results will improve our understanding of how the brain forms and what mechanisms may be disrupted during development that result in neurological and cognitive deficits in children and adults.Read moreRead less