INHIBITION OF GLUCOSE UTILIZATION FOR ACETYLCHOLINE SYNTHESIS BY CEREBROSPINAL FLUID 1

— Replacement of bicarbonate‐Locke incubation medium with feline CSF reduced [ 14 C]ACh formation from [U‐ 14 C]glucose by rat brain mince approx 30%. CSF was obtained from a cannula leading to the cisterna magna of freely moving cats. The component of CSF responsible for inhibition was characterized as a dialyzable heat‐stable organic anion. Choline acetyltransferase activity was not altered by CSF. [ 14 C]ACh synthesis and 14 CO 2 production from [U‐ 14 C]glucose but not from [2‐ 14 C]‐pyruvate were inhibited by CSF, suggesting inhibition in the metabolism of glucose to pyruvate. The anionic fraction of human CSF was as potent as that from feline CSF in inhibiting 14 CO 2 production from [U‐ 14 C]glucose. Brain hexokinase was inhibited by the anionic fraction of feline CSF. The inhibition was non‐competitive with respect to glucose and uncompetitive with respect to ATP. It is suggested that inhibition of hexokinase by CSF was responsible at least in part for the inhibition of glucose metabolism which resulted in decreased [ 14 C]ACh synthesis and 14 CO 2 production.