Evidence that synaptically-released zinc contributes to neuronal injury after traumatic brain injury
Brain research, 2000•Elsevier
Prior evidence indicates that synaptically-released zinc enters postsynaptic neurons in toxic
excess during ischemia and seizures. In addition, prevention of this zinc translocation has
been shown to be neuroprotective in both ischemia and seizures. Here we show evidence
that the same translocation of zinc from presynaptic boutons into postsynaptic neurons
occurs after mechanical injury to the brain. Specifically, using a rat model of traumatic brain
injury, we show that trauma is associated with (i) loss of zinc from presynaptic boutons (ii) …
excess during ischemia and seizures. In addition, prevention of this zinc translocation has
been shown to be neuroprotective in both ischemia and seizures. Here we show evidence
that the same translocation of zinc from presynaptic boutons into postsynaptic neurons
occurs after mechanical injury to the brain. Specifically, using a rat model of traumatic brain
injury, we show that trauma is associated with (i) loss of zinc from presynaptic boutons (ii) …
Prior evidence indicates that synaptically-released zinc enters postsynaptic neurons in toxic excess during ischemia and seizures. In addition, prevention of this zinc translocation has been shown to be neuroprotective in both ischemia and seizures. Here we show evidence that the same translocation of zinc from presynaptic boutons into postsynaptic neurons occurs after mechanical injury to the brain. Specifically, using a rat model of traumatic brain injury, we show that trauma is associated with (i) loss of zinc from presynaptic boutons (ii) appearance of zinc in injured neurons, and (iii) neuroprotection by intraventricular administration of a zinc chelator just prior to brain impact. The possible use of zinc chelators for neuroprotection after head trauma is considered.
Elsevier