A Novel Knockin Model To Test The Role Of Nicotine Acting On Alpha4 Acetylcholine Receptors In Complex Behaviours
Funder
National Health and Medical Research Council
Funding Amount
$581,315.00
Summary
Cigarette smoking is the single largest preventable cause of death and disease in Australia and worldwide. Nicotine contained in tobacco products acts on brain nicotine receptors, which plays an intrinsic role in addiction. One type of receptor for nicotine found in regions of the brain associated with drug-seeking behaviour is called alpha4 nicotinic receptors. We have made a mouse with a mutation in this nicotine receptor to study nicotine addiction and anxiety.
Brain damage resulting from long-term alcohol abuse is localized to discrete regions of the brain and selectively impairs key neuropsychological functions. Alcohol misuse affects processes that control excitability in the brain, leading to the over-stimulation of brain cells. When this continues for long periods the cells are likely to die and most alcoholics misuse alcohol for most of their adult lives. We will study the human brain s capacity to use and respond to glutamate, its major natural ....Brain damage resulting from long-term alcohol abuse is localized to discrete regions of the brain and selectively impairs key neuropsychological functions. Alcohol misuse affects processes that control excitability in the brain, leading to the over-stimulation of brain cells. When this continues for long periods the cells are likely to die and most alcoholics misuse alcohol for most of their adult lives. We will study the human brain s capacity to use and respond to glutamate, its major natural excitant, in the regions that are selectively damaged by alcoholism. How these capacities are affected by heredity, and by diseases commonly associated with alcoholism such as cirrhosis of the liver, will also be explored. If we can understand how selective brain damage occurs in alcoholics we will be better able to devise new drug therapies to combat and prevent it. As well, localized brain damage is a feature of many neurological diseases, so the study will provide a general model of disease mechanisms.Read moreRead less
Cell Death In The Retina: Analysing The Switch That Triggers Dependency On Target-derived Trophic Factors
Funder
National Health and Medical Research Council
Funding Amount
$428,414.00
Summary
Construction of the developing nervous system in the embryo involves the creation of nerve cells and their connections, but also involves loss of a proportion of these cells prior to maturation. We will study this process of cell death and how developing nerve cells switch on their dependency to survival factors. In so doing we will better understand what happens when brain development goes wrong and also devise new ways to protect nerve cells in the injured or degenerate adult nervous system.
Ecstasy, Methamphetamine And Their Combination: Assessment Of Adverse Effects
Funder
National Health and Medical Research Council
Funding Amount
$384,250.00
Summary
MDMA (Ecstasy) and Methamphetamine (METH) are popular party drugs that are frequently used by young Australians. Health problems associated with MDMA and METH use are (1) many people suffer complications arising from the high body temperature (hyperthermia) that these drugs produce, and (2) MDMA and METH may both cause long-term loss of key neurotransmitters in the brain. This effect on the brain may well lead to psychological problems such as anxiety, depression, increased impulsive behaviour a ....MDMA (Ecstasy) and Methamphetamine (METH) are popular party drugs that are frequently used by young Australians. Health problems associated with MDMA and METH use are (1) many people suffer complications arising from the high body temperature (hyperthermia) that these drugs produce, and (2) MDMA and METH may both cause long-term loss of key neurotransmitters in the brain. This effect on the brain may well lead to psychological problems such as anxiety, depression, increased impulsive behaviour and memory impairment. However the link between MDMA and METH use and subsequent brain damage is still very controversial. Recently, we have found that when MDMA and METH are combined, a particularly toxic effect is seen with very high body temperatures and lasting adverse effects on mood and brain function. This is a major cause for concern because of evidence that many Australian drug users are combining METH and MDMA on a regular basis. This project will investigate the short and long-term effects of MDMA, METH and METH-MDMA combinations. Phase 1 is aimed at investigating whether different doses of the drugs lead to lasting changes in mood, behaviour and brain function and to compare the relative toxicity of the three treatments. Phase 2 will determine whether lack of fluid intake, high environmental temperatures and advanced age are risk factors in determining the toxicity of MDMA and METH. Phase 3 will assess whether the toxicity of these drug treatments depends upon whether an animal takes the drugs voluntarily or whether they are injected with the drug by the experimenter. The final part of the project will use a wide variety of advanced techniques to track the brain damage caused by these drug treatments given under a range of conditions. The significance of this project will be in increasing our understanding of how MDMA and METH affect the brain and behaviour and how the harms posed by these drugs may be predicted and therefore minimised.Read moreRead less