Cerebral Phosphoinositide and Energy Metabolism During and After Insulin‐Induced Hypoglycemia

During and after insulin‐induced hypoglycemia, changes in levels of cerebral phosphatidylinositol (PI), phosphatidylinositol 4‐phosphate (PIP), phosphatidylinositol 4,5‐bisphosphate (PIP 2 ), phosphatidic acid (PA), triacylglycerol (TAG), diacylglycerol (DAG), and free fatty acids (FFAs) as well as the cerebral energy state were studied in relation to the EEG. In hypoglycemic rats with an EEG pattern of quasiperiodic sharp or slow sharp waves, which preceded the development of an isoelectric EEG, PIP 2 levels increased significantly, together with a slight decrease in PI content. Levels of the other lipids did not change during this period. The cerebral energy state was affected only slightly in spite of profound decreases in plasma and tissue glucose levels. With 30 min of an isoelectric EEG, levels of all phos‐phoinositides and PA decreased significantly; total FFA and DAG contents increased seven‐and twofold, respectively; the TAG‐palmitate level decreased, and that of TAG‐arachidonate increased. Plasma and tissue glucose were nearly depleted, and the cerebral energy state deteriorated severely. The increment in fatty acids in the DAG and FFA pools was less than their loss from phosphoinositides and PA, an observation suggesting vascular washout or oxidation of a portion of the FFAs produced. Following 90 min of glucose infusion, PIP and PA levels recovered to control values; however, the PIP 2 content exceeded control levels, and that of PI remained below control levels. DAG and FFA contents returned to normal. The data suggest that PIP 2 synthesis is increased or PIP 2 degradation is blocked because of disturbed neurotransmission during the preisoelectric and recovery periods, at a time when the tissue energy state is minimally affected, and that all phosphoinositides are degraded during the period of isoelectric EEG, probably owing to energy shortage.