Changes of synaptosomal energy metabolism induced by hypoxia during aging.

Synaptosomes were isolated from the motor area of the cerebral cortex of normoxic or hypoxic (PaO2 = 17-19 mmHg, for 15 min) beagle dogs of different ages. Synaptosomes were incubated in Krebs-Henseleit-Hepes buffer (for 10 min at 24 degrees C) and the energetic state was defined by: the balance of the labile phosphates (ATP, ADP, AMP, and creatine phosphate); the respiratory rate; the redox state of the intramitochondrial NAD-couple. By the present experimental model, it is possible to evaluate the potential damage (induced by the "in vivo" hypoxic insult) that synaptosomes cannot reverse under optimal incubation. Aging affected the phosphorylation state of the post-hypoxic incubated synaptosomes. The oxygen consumption rate was quite similar in the synaptosomal fractions from the motor area of hypoxic beagle dogs of different ages, but the cytochrome c and a contents were lower in the preparations from hypoxic older brains. In dogs of different ages, hypoxia always lowered the respiration of the synaptosomes, but aging affected the oxygen consumption rates only in post-hypoxic synaptosomes incubated with succinate. The synaptosomal energetic state was defined also by the redox state of the intramitochondrial NAD-couple (delta Gox-red) and the phosphorylation state of adenine nucleotide system (delta GATP). The free-energy change (delta delta G) for the coupled reactions was calculated, too. In synaptosomes isolated from the cerebral cortex of dogs submitted to hypoxia, the equilibrium (calculated for the mitochondrial electron transfer chain and the phosphorylation of adenine nucleotides) was markedly altered as function of aging.(ABSTRACT TRUNCATED AT 250 WORDS)