Vesicular Storage and Release of Cholinergic False Transmitters

Publisher Summary Several analogues of choline are known, which are taken up by cholinergic nerve terminals and released in the acetylated form on stimulation. Such compounds are thus precursors of cholinergic false transmitters. This chapter discusses two compounds, N-methyl-N-2-hydroxyethylpyrrolidiniu (mPCh) and homocholine (HCh), using guinea-pig cortex and the electric organ of Torpedo marmorata. In the experiments with cortex, the false transmitter precursors were injected into the tissue and released transmitters collected in Locke solution applied to the surface of the cortex in plastic sleeves. Free vesicles and those attached to external membranes were isolated from tissue subjace…

Determination of the Subcellular Origin of [14C] Acetylcholine (ACh) and [3H] Acetylpyrrolidinecholine (Apych) Released from Guinea-Pig Cerebral Cortex after Electrical Stimulation

After in vivo application of radiolabelled choline, radioactive ACh is formed and can be released from the brain by electrical stimulation. However, its origin is still obscure because, due to the metabolical heterogeneity of synaptic vesicles, no subcellular compartment has been found with a specific activity (SA) corresponding to that of released transmitter. To bypass this heterogeneity problem, two different labelled precursors can be used.

The Uptake of Acetylpyrrolidinecholine — A False Cholinergic Transmitter — Into Mammalian Cerebral Cortical Synaptic Vesicles

It is now well established that cholinergic vesicles are metabolically heterogeneous organelles. It is, however, still under discussion whether this is due to an intravesicular or an intervesicular heterogeneity. March-banks and Israel (10), supporting the hypothesis of intravesicular heterogeneity, suggested that newly formed ACh is only loosely bound to the vesicles. On the other hand, a distinct vesicle fraction obtained from the electromotor system of Torpedo marmorata after its incubation with radioisotopes shows a high specific radioactivity (12), results which favor the view that intervesicular differences do exist. Biochemical and morphological findings suggest that these vesicles h…

VESICULAR UPTAKE AND RELEASE OF THE FALSE CHOLINERGIC TRANSMITTERS ACETYLPYRROLIDINECHOLINE (APYCH) AND ACETYLHOMOCHOLINE (AHCH)