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Spatio-temporal imaging of calcium in degenerating nerves

ReferenceBBS/E/B/0000L171
Principal Investigator / Supervisor Professor Michael Philip Coleman
Co-Investigators /
Co-Supervisors		 Dr Martin Bootman
Institution Babraham Institute
DepartmentBabraham Institute Department
Funding typeResearch
Value (£) 97,391
StatusCompleted
TypeInstitute Project
Start date 01/01/2006
End date 31/01/2009
Duration37 months

Abstract

Axons are the long processes that link neurons together within our brain, spinal cord and peripheral nervous system, allowing neurons to communicate rapidly with one another. Naturally with such huge structures, there are significant logistical problems in maintaining axons. Failure to do so is the cause of a number of human neurological disorders, not only those where there is direct axonal injury such as spinal injury, but also many where the disorder is inherited such as motor neuron disease, or acquired such as exposure to neurotoxins. We are beginning to understand that the way in which axons die is similar in each of these seemingly unrelated circumstances. However, we do not yet fully understand what that mechanism is. Calcium ions are normally pumped out of all cells, including neurons, because high levels of calcium inside the cell are extremely dangerous. It is also pumped into specific 'stores' within cells, including inside the axon, from where it may be released and used to 'signal' certain events and processes so that the cell or axon can respond accordingly. We are investigating whether calcium is released from intra-axonal stores early in the degeneration process and whether this is required for axon degeneration. This is a very important issue because axons make up by far the largest part of most neurons and because they are essential for the function of that neuron and for the most part cannot be replaced if they are lost. In the longer term, understanding this process should lead to new ways to treat, or even prevent, a wide spectrum of neurodegenerative conditions.

Summary

unavailable
Committee Closed Committee - Biochemistry & Cell Biology (BCB)
Research TopicsAgeing, Neuroscience and Behaviour
Research PriorityX – Research Priority information not available
Research Initiative X - not in an Initiative
Funding SchemeX – not Funded via a specific Funding Scheme
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