Cortical Spreading Depressions: Effects On Intracellular Ca2+ Concentration And Mechanisms Of Propagation
Funder
National Health and Medical Research Council
Funding Amount
$185,604.00
Summary
Human neuropathologies such as migraine, stroke, focal epilepsy and head injury all appear to involve an event called cortical spreading depression (CSD). This is characterised by a transient loss of excitability of cells that slowly spreads from a site of initiation out across the cortical surface. In normal brain tissue CSDs do not kill cells but in tissue with less than optimal energy supply CSDs do kill cells. This project is designed to understand the mechanisms contributing to CSD-induced ....Human neuropathologies such as migraine, stroke, focal epilepsy and head injury all appear to involve an event called cortical spreading depression (CSD). This is characterised by a transient loss of excitability of cells that slowly spreads from a site of initiation out across the cortical surface. In normal brain tissue CSDs do not kill cells but in tissue with less than optimal energy supply CSDs do kill cells. This project is designed to understand the mechanisms contributing to CSD-induced cell death. It is widely accepted that a high intracellular concentration of calcium ions is lethal to a cell. Thus, the proposed experiments are expected to show that a single episode of CSD in normal brain tissue induces only small changes in the intracellular calcium ion concentration but if repeated episodes of CSD occur, and if they take place in tissue with a compromised energy supply, then the calcium concentration rises to detrimental levels. Little is known about the mechanisms which underlie the propagation of CSD and therefore experiments will also be undertaken to investigate whether release of a messenger into the extracellular space is important or if there is a role for release of calcium from intracellular stores.Read moreRead less
The Contributions Of Different Sources Of Calcium To The Induction Of Long Term Potentiation
Funder
National Health and Medical Research Council
Funding Amount
$267,750.00
Summary
When we make memories, we alter the strength of synaptic connections between nerve cells.These changes are particularly marked in the hippopcampus ; a region of the brain involved in the formation of memories. The strength of a synaptic connection is altered if it activates a neurone sufficiently to cause a rise in the level of calcium ions. Calcium can be derived from several sources within the neurone. This project aims to assess the relative importance of these different sources of calcium in ....When we make memories, we alter the strength of synaptic connections between nerve cells.These changes are particularly marked in the hippopcampus ; a region of the brain involved in the formation of memories. The strength of a synaptic connection is altered if it activates a neurone sufficiently to cause a rise in the level of calcium ions. Calcium can be derived from several sources within the neurone. This project aims to assess the relative importance of these different sources of calcium in inducing increases in synaptic strength.Read moreRead less