Abstract
AimsThe non-neuronal cholinergic system is widely expressed in nature. The present experiments were performed to characterize the non-neuronal cholinergic system in murine embryonic stem cells (CGR8 cell line). Main methodsCGR8 cells were cultured in gelatinized flasks with Glasgow's buffered minimal essential medium (Gibco, Germany). Acetylcholine was measured by HPLC combined with bioreactor and electrochemical detection. Key findingsCGR8 cells contained 1.08±0.12pmol acetylcholine/106 cells (n=7) which was reduced to 0.50±0.06pmol/106 cells (n=6; p<0.05) in the presence (4h) of 30μM bromoacetylcholine to block choline acetyltransferase. A time-dependent release of acetylcholine into the incubation medium was demonstrated, when cholinesterase activity was blocked by 10μM physostigmine, with 97±13, 180±15 and 216±14pmol being released from 65×106 cells after incubation periods of 2, 4 and 6h, respectively. The cumulative release corresponds to a fractional release rate of 2%/min. Blockade of nicotine or muscarine receptors did not significantly modulate the release of acetylcholine which was substantially reduced by 300μM quinine (inhibitor of organic cation transporters). This inhibition showed considerable fading over the incubation period, indicating additional release mechanisms activated upon inhibition of organic cation transporters. SignificanceMurine embryonic stem cells contain and release significant amounts of acetylcholine. The high fractional release rate and the compensation for blocked organic cation transporters indicate that non-neuronal acetylcholine may play a functional role in the homeostasis of murine embryonic stem cells.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call