STK9, A Second Rett Syndrome Gene: Genetic And Functional Studies
Funder
National Health and Medical Research Council
Funding Amount
$468,750.00
Summary
Rett syndrome (RTT) is a devastating progressive disorder affecting motor and intellectual development. It is characterised by normal development for the first 6-12 months of life, followed by developmental regression with the loss of learned purposeful hand function, loss of acquired speech and communicative abilities, sometimes leading to the incorrect diagnosis of autism. It may be the most common cause of progressive mental retardation in girls, with an estimated prevalence in Australia of 1 ....Rett syndrome (RTT) is a devastating progressive disorder affecting motor and intellectual development. It is characterised by normal development for the first 6-12 months of life, followed by developmental regression with the loss of learned purposeful hand function, loss of acquired speech and communicative abilities, sometimes leading to the incorrect diagnosis of autism. It may be the most common cause of progressive mental retardation in girls, with an estimated prevalence in Australia of 1 per 10,000 females under the age of twelve years. It is a genetic disorder and occurs almost exclusively in females. In 1999, a gene (called MECP2) was identified which appears to be the cause of RTT in most girls and women with RTT. However, for 5 - 10% of RTT subjects, no gene change is found in the MECP2 gene, raising the possibility that other genes may also be responsible for RTT. Our research group has identified one of these genes. Known as STK9, little is known about this gene's function. Of great interest is the fact that our studies suggest that STK9 could also be a caus of intellectual disability in other patients, and with autism. The focus of this research project is to explore how common gene changes in STK9 are in a large number of children with RTT, intellectual disability and seizures, and autism with intellectual disability and seizures. Using cutting edge research technology, we will go on to study how STK9 interacts with MECP2 and other genes, in order to better understand how these genes may be detrimentally affecting brain function in girls and women with Rett syndrome and other neurological disorders. These studies will give us a greater understanding of normal brain development and function.Read moreRead less