SUBCELLULAR FRACTIONATION OF POSTMORTEM BRAIN 1

— Procedures used to separate subcellular organelles from fresh brain were applied to brains which had been removed from guinea pigs (1) immediately after death; (2) after the dead animal was maintained at room temperature for 3 h, followed by 16–17 h at 4°C; or (3) after the dead animal was maintained for 19–20 h at room temperature. Subcellular fractionation of the brains in 0.32 M sucrose was followed by discontinuous density gradient centrifugation of the crude mitochondrial fraction. After overnight storage of brains at room temperature, there was a moderate shift in succinate dehydrogenase activity from sub‐fraction C (mitochondria) to subfraction B (synaptosomes). There was little change in the distribution of galactolipid among particulate subfractions. There was little change in distributions of monoamine oxidase or acetylcholinesterase activities. Under the less extreme postmortem conditions, there were no shifts in the subcellular distributions of brain enzymes. Ultrastructural changes were much more profound and consisted of losses of identifiable mitochondria and synaptosomes and a progressive increase in very dense bodies. Our results suggest that in spite of the marked morphological changes, meaningful separation of subcellular organelles can be achieved with postmortem tissue.