Neuroendocrine Responses To Psychological Stress: Unmasking The Protective Role Of The Prefrontal Cortex.
Funder
National Health and Medical Research Council
Funding Amount
$346,153.00
Summary
This project seeks to build up a picture of one of the mechanisms that the brain uses to protect our bodies from the potentially harmful effects of psychological stress. When we are subjected to psychological stress one of the consequences is the release of a hormone, corticosterone, into the blood-stream. This can be beneficial in the short-term as it helps our body redistribute its pattern of energy utilization in a way that helps in coping with an unexpected challenge. However, excessive secr ....This project seeks to build up a picture of one of the mechanisms that the brain uses to protect our bodies from the potentially harmful effects of psychological stress. When we are subjected to psychological stress one of the consequences is the release of a hormone, corticosterone, into the blood-stream. This can be beneficial in the short-term as it helps our body redistribute its pattern of energy utilization in a way that helps in coping with an unexpected challenge. However, excessive secretion of corticosterone due to excessive exposure to psychological stress can damage your health. For example, it can make you more susceptible to infection and also accelerate the rate at which your brain ages. The brain possesses certain mechanisms which try to limit the release of corticosterone when you are subjected to psychological stress. Unfortunately these mechanisms are not quite up to doing the necessary job under the conditions in which we live today, i.e. a very high level of psychological stress is a common feature of modern life. Nevertheless we believe that if we can properly understand these protective mechanisms in the brain, it may be possible to develop drugs which can boost their efficiency. In the long term this could greatly reduce ill-health in our society.Read moreRead less
TorsinA Mediated Dystonia, Functional Analysis And Molecular Models
Funder
National Health and Medical Research Council
Funding Amount
$479,817.00
Summary
The dystonias represent a group of movement disorders characterised by sustained muscle contraction, resulting in twisting and abnormal postures. Current treatment regimes may provide some measure of symptomatic relief, but are often unsatisfactory and limited by adverse side effects. The prevalence of dystonia is estimated at approximately 300 cases per million population. Dystonia is a complex disorder, the causes and disease mechanisms are not well understood. However, in the past 10 years se ....The dystonias represent a group of movement disorders characterised by sustained muscle contraction, resulting in twisting and abnormal postures. Current treatment regimes may provide some measure of symptomatic relief, but are often unsatisfactory and limited by adverse side effects. The prevalence of dystonia is estimated at approximately 300 cases per million population. Dystonia is a complex disorder, the causes and disease mechanisms are not well understood. However, in the past 10 years several genes have been identified that can cause dystonia. The overall aim of this proposal is to characterise a gene that causes dystonia when disrupted. Understanding the function of this gene may significantly advance our understanding of this disorder. Using these results, we aim to model dystonia in cellular and animal systems; these may provide powerful insight into the molecular pathway(s) perturbed in dystonia and a means to develop novel therapeutic approaches to alleviate or prevent the disorder.Read moreRead less