Ischemic preconditioning protects neurons from damage and maintains the immunoreactivity of kynurenic acid in the gerbil hippocampal CA1?region following transient cerebral ischemia

摘要

Pyramidal neurons in region?I of hippocampus proper?(CA1) are particularly vulnerable to excitotoxic processes following transient forebrain ischemia. Kynurenic acid?(KYNA) is a small molecule derived from tryptophan when this amino acid is metabolized through the kynurenine pathway. In the present study, we examined the effects of ischemic preconditioning?(IPC) on the immunoreactivity and protein levels of KYNA following 5?min of transient forebrain ischemia in gerbils. The animals were randomly assigned to 4?groups (sham-operated group, ischemia-operated group, IPC?+?sham-operated group and IPC?+?ischemia-operated group). IPC was induced by subjecting the gerbils to 2?min of ischemia followed by 1?day of recovery. In the ischemia-operated group, we observed a significant loss of pyramidal neurons in the CA1 stratum pyramidale?(SP) at 5?days post-ischemia; however, in the IPC?+?ischemia-operated group, the pyramidal neurons were well protected. KYNA immunoreactivity in the SP of the ischemia-operated group was significantly altered following ischemia-reperfusion and was very low 5?days following ischemia?reperfusion. In the?IPC?+?ischemia-operated group, however, KYNA immunoreactivity was constitutively detected in the SP of the CA1 region after the ischemic insult. We also found that the alteration pattern of the KYNA protein level in the CA1 region following ischemia was generally similar to the immunohistochemical changes observed. In brief, our findings demonstrated that IPC maintained and even increased KYNA immunoreactivity in the SP of the CA1 region following ischemia?reperfusion. The data from the present study thus indicate that the enhancement of KYNA expression by IPC may be necessary for neuronal survival following transient ischemic injury.