Synaptic release of zinc from brain slices: factors governing release, imaging, and accurate calculation of concentration.

Cerebrocortical neurons that store and release zinc synaptically are widely recognized as critical in maintenance of cortical excitability and in certain forms of brain injury and disease. Through the last 20 years, this synaptic release has been observed directly or indirectly and reported in more than a score of publications from over a dozen laboratories in eight countries. However, the concentration of zinc released synaptically has not been established with final certainty.

Is zinc the link between compromises of brain perfusion (excitotoxicity) and Alzheimer's disease?

Prior brain injury is a major risk factor in the development of Alzheimer's disease. This is true for traumatic brain injury, stroke or ischemic brain injury, and (more speculatively) for brain injury resulting from the hypo-perfusion-reperfusion in cardiac arrest or cardiac bypass surgery and even hypo- or hypertension. Here we propose that the release of excess, toxic, "floods" of free zinc into the brain that occurs during and after all excitotoxic brain injury is a key factor that sets the stage for the later development of Alzheimer's disease.