Acetylcholine Synthesis and CO2 Production from Variously Labeled Glucose in Rat Brain Slices and Synaptosomes

Abstract

The molecular basis of the close linkage between oxidative metabolism and acetylcholine (ACh) synthesis is still unclear. We studied this problem in slices and synaptosomes by measurement of ACh synthesis from [U‐¹⁴C]glucose, and ¹⁴CO₂ production from [3,4‐¹⁴C]‐ and [2‐¹⁴C]glucose, an index of glucose decarboxylation by the pyruvate dehydrogenase complex (PDH) and the enzymes of the Krebs cycle, respectively. We examined both under conditions that either inhibited (low O₂ or antimycin) or stimulated (2,4‐ dinitrophenol [DNP] or 35 mm‐K⁺) ¹⁴CO₂ production from [2‐¹⁴C]‐ or [3,4‐¹⁴C]glucose. Incorporation of [U‐¹⁴C]glucose into ACh was reduced under low O₂ and by antimycin or DNP (by 51‐93%) and stimulated by 35 mm‐K⁺ (by 30‐60%). Under all of these conditions, ACh synthesis and the decarboxylation of [3,4‐¹⁴C]‐ and [2‐¹⁴C]glucose were linearly related (r= 0.741 and 0.579, respectively). The difference in the rate of ¹⁴CO₂ production from [3,4‐¹⁴C]‐ and [2‐¹⁴C]glucose was used as a measure of the amount of glucose that was not oxidatively decarboxylated (efflux). We found that efflux was reduced (low 0₂ and antimycin), unchanged (DNP in slices), or increased (DNP in synaptosomes and K⁺ stimulation in slices) compared with control values under 100% O₂. ACh synthesis and efflux were more closely related (r= 0.860) than ACh synthesis and ¹⁴CO₂ production from variously labeled glucoses.