Regional studies of changes in brain fatty acids following experimental ischaemia and reperfusion in the gerbil.

Regional studies of brain phospholipid metabolism were carried out during a period of ischaemia induced in the gerbil by bilateral carotid occlusion for 60 min. The associated changes in free fatty acids (FFAs) during this period and following recirculation for up to 180 min were noted. Following ischaemia there was a generalised rise in the levels of all FFAs with no selective release of either the unsaturated (arachidonic and docosahexaenoic) or saturated (palmitic and stearic) fatty acids. There were no observed differences between the brain regions studied, which is in contrast to previously reported observations for prostaglandins. There was also no indication of any specific phospholipid fraction being involved in FFA release. This would indicate that the release of FFAs from phospholipids is a nonspecific event, probably due to the action of hydrolytic lipases. Restoration of the circulation resulted in a short, sharp increase (within 5 min) in all FFAs, but in contrast to the observations during ischaemia alone there was a relatively larger rise in the unsaturated FFAs as compared to the saturated FFAs. Following this increase there was a gradual general decline in all FFA levels until 180 min of reperfusion. Since there was no preferential depletion of unsaturated FFAs during reperfusion, when free radical attack is considered to be at its maximum, it is our opinion that free radical peroxidation is unlikely to explain the pathology described in our model.