Effect of neurotransmitters on phospholipid metabolism in rat cerebral-cortex slices: cellular and subcellular distribution

Abstract— Young rat cerebral-cortex slices were incubated with ³²Pi in the absence and presence of ACh plus eserine, norepinephrine, dopamine or serotonin for 1 h. their cellular and subcellular fractions were isolated, and the specific radioactivities of the various phospholipids determined. In the neuronal- and astroglial-enriched fractions ACh plus eserine increased the ³²P-labelling of phosphatidyl inositol (PhI) phosphatidic acid (PhA) and phosphatidylcholine (PhC) by increments which ranged from 108 per cent for PhI to 30 per cent for PhC and in the presence of norepinephrine or dopamine these increments ranged from 180 per cent for PhI to 29 per cent for PhC. In the subcellular fractions ACh plus eserine exerted maximal stimulatory effect on the labelling of the synaptosomal phospholipids, which was 88 per cent for PhI and 79 per cent for PhA, followed by those of microsomes, mitochondria and nuclei. ACh plus eserine exerted no effect on ^l4C]glucose incorporation, but inhibited the incorporation of ¹⁴C]glycerol into phospholipids by amounts which ranged from 30 per cent for PhI to 3 per cent for PhE. Although the rate of incorporation of ³²Pi into phospholipids of 0.2 mm slices was higher than that of the 0.5 mm slices the stimulatory effect of ACh plus eserine on the ³²Pi incorporation into the lipids of the latter was higher. When neuronal- and astroglial enriched fractions were first isolated from the cerebra then incubated with ³²Pi or ¹⁴C]choline, labelling of phospholipids in the neuronal fraction was higher than that of the astroglial fraction; however, ACh plus eserine had no effect on the incorporation of ³²Pi into the lipids of either fraction. ACh plus eserine stimulated the activity of phosphatidic acid phosphatase in the various subcellular fractions by increments which ranged from 13 per cent in nuclei to 37 per cent in microsomes. It was concluded that the nonspecific localization of the neurotransmitter effect could be due to the widespread distribution of the enzymes which appear to be responsive to cholinergic and adrenergic neurotransmitters.