The release of radioactive histidine was studied in a superfusion system by using preloaded rat cerebral cortical slices and guinea pig synaptosomes. ATP/ADP ratios in both preparations were used to assess the energy levels and thus the oxygenation of brain slices and synaptosomes. ATP/ADP ratios similar to the intact brain and nerve terminals were found in slices and synaptosomes even after hours of superfusion with oxygenated buffer. Depolarization by 30 or 50 mM K+ induced release of histidine from slices and synaptosomes. The results confirm that under physiological energetic conditions, histidine is released both from slices and synaptosomes after depolarization with potassium.