Acetylation of homocholine by rat brain: subcellular distribution of acetylhomocholine and studies on the ability of homocholine to serve as substrate for choline acetyltransferase in situ and in vitro.

Abstract

Abstract: In situ acetylation of homocholine by slices of rat cerebral cortex was about 34% of the in situ acetylation of choline. Acetylhomocholine synthesized by the cerebral cortical slices was distributed in the same subcellular fractions as was acetylcholine (ACh), although the relative distribution of acetylhomocholine and ACh between nerve‐ending‐free and nerve‐ending‐bound stores was different. Cerebellar slices acetylated homocholine <10% as well as did cerebral cortical slices. In vitro, choline acetyltransferase (ChAT; EC 2.3.1.1.6) either partially purified from whole rat brain, solubilized from lysed synaptosomes, or in a synaptosomal membrane‐associated form, did not acetylate homocholine at an appreciable rate. Under conditions of alkaline pH, an appreciable in vitro rate of homocholine acetylation by preparations of lysed synaptosomes was detected. However, analysis of this acetylation showed it not to be the result of ChAT catalysis and unlikely to occur by the same mechanism as that responsible for acetylation of homocholine in situ: the acetylation was not inhibited by ChAT inhibitors and occurred equally in the presence of preparations of lysed cerebral cortical or cerebellar synaptosomes. It is concluded that in situ acetylation of homocholine is probably catalyzed by ChAT and that acetylhomocholine is subsequently stored in the same subcellular sites as is ACh; the inability to detect ChAT‐catalyzed acetylation of homocholine in vitro might arise as an artefact of the procedures employed in isolation of the enzyme.