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Journal of Neuroscience, Vol 7, 3612-3622, Copyright © 1987 by Society for Neuroscience

ARTICLE

The properties and regulation of functional acetylcholine receptors on chick ciliary ganglion neurons

JF Margiotta, DK Berg and VE Dionne
Department of Pharmacology, University of California, San Diego, La Jolla 92093.

The properties of acetylcholine receptor (AChR) channels on chick ciliary ganglion neurons in culture were examined using patch-clamp recording techniques. Acetylcholine (ACh) was applied by rapid microperfusion. Whole-cell current noise analysis revealed a single class of functional receptors on the neurons. Dose-response studies indicated a Kd of about 36 microM and a Hill coefficient of 1.5-1.7, predicting 2 ACh binding sites per receptor. Both fast and slow components of receptor desensitization were observed. Single-channel recordings from excised outside-out patches of soma membrane exposed to 2-5 microM ACh indicated a single-channel conductance of 40 pS, a reversal potential of -9 mV, a mean open duration of 1 msec, and an opening probability of 0.34. The kinetic behavior of the channels was provisionally described by a 3-closed, 1-open state model for receptor activation. In all of these properties, AChRs of ciliary ganglion neurons resemble those on skeletal muscle fibers. Growing the neurons in an elevated K+ concentration produced a 2-3-fold decrease in peak whole-cell currents induced by ACh under standard test conditions, without altering any of the single-channel properties described above. Neither changes in cholinesterase activity nor receptor distribution accounted for the decrease. Instead, calculations indicated that elevated K+ reduced the ACh response by decreasing the number of functional AChRs on the neurons. No K+-dependent decrease is observed, however, in the number of total receptors on the neurons detected either by a monoclonal antibody specific for the receptor or by an alpha-neurotoxin that binds to the receptor and blocks its function. Moreover, the number of receptors detected by the 2 probes is at least 10-fold greater than the calculated number of functional receptors. The findings suggest that only a small fraction of the AChRs on the neuronal surface is functional and that the cell can alter the ratio of functional and nonfunctional receptors in response to growth conditions.

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