Genetic And Phenotype Studies Of Partial Epilepsy In Gypsies
Funder
National Health and Medical Research Council
Funding Amount
$646,136.00
Summary
Epilepsy is one of the most common serious neurological disorders, which affects more than 50 million people worldwide. Genetic research, with a major contribution from Australian researchers, has led to the discovery of many rare forms of the disease caused by mutations in single genes of large effect. However, the vast majority of cases worldwide belong to the so-called genetically complex forms, involving multiple interacting genes and environmental factors. The genetically complex epilepsies ....Epilepsy is one of the most common serious neurological disorders, which affects more than 50 million people worldwide. Genetic research, with a major contribution from Australian researchers, has led to the discovery of many rare forms of the disease caused by mutations in single genes of large effect. However, the vast majority of cases worldwide belong to the so-called genetically complex forms, involving multiple interacting genes and environmental factors. The genetically complex epilepsies have proved particularly difficult to understand and the numerous genetic studies conducted so far have failed to produce important and replicable results. It is becoming increasingly clear that enormous genetic heterogeneity, with many rare mutations occurring in different affected subjects, will be a major obstacle to understanding the molecular basis of complex epilepsies. In this context, genetically isolated populations, which stem from a small number of ancestors, can be particularly helpful and revealing, since their limited genetic diversity means that the number of genes involved in causing complex epilepsies may be smaller and shared between individuals and families. In this study, we will analyze affected families, as well as non-familial cases of epilepsy, from a genetically isolated population - the European Roma-Gypsies. We will determine the number of potential susceptibility genes involved in familial forms, the overlap and differences between families, as well as the contribution of the genes identified in families to the development of sporadic epilepsy.Read moreRead less
Positional Candidate Targets For Multiple Ovulation Genes
Funder
National Health and Medical Research Council
Funding Amount
$272,036.00
Summary
The frequency of non-identical twins is associated with fertility in individuals and populations, although we know little about mechanisms for twinning or effects on fertility. The likelihood for giving birth to non-identical twins is influenced by genetic factors. The probability of a subsequent twin pregnancy is increased fourfold in mothers of twins and roughly doubled for women whose mother or sister has had non-identical twins. Understanding why some women are more likely to have twins will ....The frequency of non-identical twins is associated with fertility in individuals and populations, although we know little about mechanisms for twinning or effects on fertility. The likelihood for giving birth to non-identical twins is influenced by genetic factors. The probability of a subsequent twin pregnancy is increased fourfold in mothers of twins and roughly doubled for women whose mother or sister has had non-identical twins. Understanding why some women are more likely to have twins will help us find key pathways that control normal ovarian function and important factors that influence success in assisted reproduction. The aim of this project is to search for these genes in families with two sisters who have given birth to non-identical twins. Previous studies have identified one strong target region and two possible regions containing genes for increased twinning. We now have additional families and will examine each region in more detail. We will also look for genes within each region that could be responsible for variation in twin frequency.Read moreRead less
Identifying Target Genes For Novel Anti-epileptic Therapies In The Mouse
Funder
National Health and Medical Research Council
Funding Amount
$469,802.00
Summary
Epilepsy is a disease which affects 2-4% of the population. There are a wide range of drugs available to treat the condition but there is consistently 30-40% of patients who do not respond well to any of these drugs and who continue to have seizures. The reason that there are no drugs available for these people is that most of the drugs available have been designed along the same principles. A new set of principles is needed to develop new drugs which will be able to treat those people not respo ....Epilepsy is a disease which affects 2-4% of the population. There are a wide range of drugs available to treat the condition but there is consistently 30-40% of patients who do not respond well to any of these drugs and who continue to have seizures. The reason that there are no drugs available for these people is that most of the drugs available have been designed along the same principles. A new set of principles is needed to develop new drugs which will be able to treat those people not responding to current therapy. This project is designed to identify new biologic pathways which may be interrupted with drugs to prevent seizures in people with epilepsy. This project uses a procedure to induce mutations into genes in mice and then screens for mice which do not seize when challenged with a drug which generates seizures in mice. Genetic studies will identify the mutated genes and these will be used as potential targets for new therapies or will identify new biological pathway which should expand the use of future anti-epileptic drugs.Read moreRead less
Characterisation Of A New Localisation For Susceptibility To Inflammatory Bowel Disease On Chromosome 12
Funder
National Health and Medical Research Council
Funding Amount
$76,125.00
Summary
One of the greatest challenges facing contemporary gastroenterology is to understand the causes of the inflammatory bowel diseases in order to develop more effective therapies. Although there have been advances in treatment over the last few years, the causes of IBD are still not known. The existence of a genetic predisposition to IBD is now well established, and there is strong evidence that the disease is the result of the interaction of a number of different genes. To date, two genetic locali ....One of the greatest challenges facing contemporary gastroenterology is to understand the causes of the inflammatory bowel diseases in order to develop more effective therapies. Although there have been advances in treatment over the last few years, the causes of IBD are still not known. The existence of a genetic predisposition to IBD is now well established, and there is strong evidence that the disease is the result of the interaction of a number of different genes. To date, two genetic localisations (one on chromosome 16 and a second on chromosome 12) have been confirmed in multicentre studies. We have identified a novel localisation for disease susceptibility on chromosome 12 in the Australian population during the course of a genome scan on 73 multiplex inflammatory bowel disease families. (The importance of this localisation has been confirmed in English and American families.) This localisation is quite separate from that originally described and many genes separate the two localisations. We will refine the new localisation by fine scale mapping in the region of the localisation that we originally identified in pure Crohn's disease families. At this stage, the localisation appears not to be important in families suffering from ulcerative colitis or in families in which both CD and UC occurs (known as mixed families), though this finding will be tested. Using state of the art molecular genetics, we will then identify and characterise the gene involved. The significance of this project lies in the importance of this localisation to the understanding of underlying biochemistry and genetics of a complex disease in which multiple genes are segregating and interacting in, some as yet undefined manner.Read moreRead less
Cloning And Characterisation Of A Novel Developmental Gene Involved In Myelination.
Funder
National Health and Medical Research Council
Funding Amount
$150,880.00
Summary
This project aims to identify and characterise a novel human gene involved in the formation of different organs and tissues, with an essential role in nervous system development. One of the most interesting facts of life, emerging from the completion of the Human Genome Project, is that it is not the number of genes but rather their regulation that plays the major role in evolution and determines the differences between species. The development of a human being from conception to birth is among ....This project aims to identify and characterise a novel human gene involved in the formation of different organs and tissues, with an essential role in nervous system development. One of the most interesting facts of life, emerging from the completion of the Human Genome Project, is that it is not the number of genes but rather their regulation that plays the major role in evolution and determines the differences between species. The development of a human being from conception to birth is among the most complex processes, where fine regulation of the timing and site of gene expression is crucial. We have recently identified a novel disorder where a mutation in a single gene disrupts the development and function of the eyes, the skull, the nervous, and the endocrine systems. The most disabling manifestations of the disease result from involvement of the peripheral nervous system. This is due to the failure of affected individuals to produce myelin, the insulating material that enwraps nerve fibres and facilitates the rapid conduction of nerve impulses. The mutated gene, which the project aims to identify, is likely to be involved in regulating the expression of multiple other genes essential for the early stages of myelination, as well as for the development of other tissues. The disease gene has been localised to a small interval on the long arm of chromosome 18, which does not contain any known developmental genes, suggesting that the project will provide novel information on the molecular pathways governing normal human development. As a result, the study may have important implications for understanding the general pathogenesis of disorders of the peripheral nervous system, including its common forms which affect thousand of people worldwide.Read moreRead less
Molecular Genetics Of Hereditary Motor And Sensory Neuropathy With Pyramidal Signs
Funder
National Health and Medical Research Council
Funding Amount
$235,500.00
Summary
This project aims to determine the molecular cause of hereditary motor neuropathies with pyramidal signs by chromosomal linkage studies and to screen suitable families to locate genes with disease causing mutations. We propose to use the resources of the human genome project to locate the defective gene. In previous studies we have used these methods to identify genes of two other hereditary diseases of nerve. Our data suggests that this disorder forms part of the largest group of hereditary neu ....This project aims to determine the molecular cause of hereditary motor neuropathies with pyramidal signs by chromosomal linkage studies and to screen suitable families to locate genes with disease causing mutations. We propose to use the resources of the human genome project to locate the defective gene. In previous studies we have used these methods to identify genes of two other hereditary diseases of nerve. Our data suggests that this disorder forms part of the largest group of hereditary neuropathies yet to be defined. Because this disorder affects long spinal cord neurones, identifying the mutated gene and studying its function may shed light on possible mechanisms involved in other spinal cord diseases. This research is a systematic search and should lead to identifying the abnormal gene causing disease. Once the gene involved is known then an effective diagnostic test will be developed. When a test for the disease is available, it is likely that we will find that the disorder is more common than previously recognised. Knowledge of the function of the gene will lead to an understanding of how the disease develops and will eventually enable development of effective treatments.Read moreRead less
Identification And Characterisation Of Novel Mouse Models For Recessively Inherited Deafness.
Funder
National Health and Medical Research Council
Funding Amount
$504,750.00
Summary
Hearing loss affects 10% of Australians. Approximately 1 in 1000 children is born deaf. Another 1 in 1000 people develops hearing loss by adulthood. A progressive hearing impairment occurs with age so that more than 50% of people over the age of 75 have a substantial hearing loss. The financial, social and personal costs of deafness are significant. Deafness is caused by environmental and- or inherited factors. Environmental risk factors include premature birth, infections and exposure to loud n ....Hearing loss affects 10% of Australians. Approximately 1 in 1000 children is born deaf. Another 1 in 1000 people develops hearing loss by adulthood. A progressive hearing impairment occurs with age so that more than 50% of people over the age of 75 have a substantial hearing loss. The financial, social and personal costs of deafness are significant. Deafness is caused by environmental and- or inherited factors. Environmental risk factors include premature birth, infections and exposure to loud noise. Inherited factors include changes (mutations) in one of many genes whose products are essential for normal hearing. In the majority of children and young people with a hearing impairment the underlying cause is genetic. It is also thought that genetic predisposition frequently contributes to the early onset and the severity of age-related hearing loss. However, it has been difficult to identify the genes causing deafness, and as a consequence we know relatively little about what these genes do. The mouse ear is very similar to the human ear and in this application we propose to use mice to identify and study deafness genes. Australia has a unique resource of mice that are being especially bred to uncover genetic diseases. We have shown that 1 in a 1,000 of these mice have a genetic hearing loss similar to that found in most newborns and young people. These mice therefore provide us with an exceptional opportunity to discover novel deafness genes, which again will provide us with more information about how we hear. We will investigate why changes in these genes causes hearing loss and this information will allow us to determine in detail how genetic and environmental factors lead to hearing loss in young and old. The results will immediately allow us to offer earlier diagnosis and better counselling to affected families, and in the longer term we believe our research will enable us to develop improved or novel treatments to delay or prevent deafness.Read moreRead less