Cholinergic and catecholaminergic receptors in the Xenopus oocyte membrane

1. Neurotransmitter-receptors in the membrane of Xenopus oocytes have been studied using electrophysiological techniques. Neurotransmitters and related agents were applied while recording either membrane potential or membrane current. The majority of ovarian oocytes used were at stages IV and V. 2....

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Bibliographic Details
Published in:The Journal of physiology 1982-07, Vol.328 (1), p.143-170
Main Authors: Kusano, K., Miledi, R., Stinnakre, J.
Format: Article
Language:English
Subjects:
acetylcholine
Acetylcholine - pharmacology
Animals
catecholamines
Catecholamines - pharmacology
Catecholamines - physiology
Cell Membrane - physiology
Dose-Response Relationship, Drug
Female
Membrane Potentials - drug effects
oocytes
Oocytes - drug effects
Oocytes - physiology
Ovum - physiology
Progesterone - pharmacology
Receptors, Cholinergic - physiology
Receptors, Drug - physiology
Xenopus
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Summary:1. Neurotransmitter-receptors in the membrane of Xenopus oocytes have been studied using electrophysiological techniques. Neurotransmitters and related agents were applied while recording either membrane potential or membrane current. The majority of ovarian oocytes used were at stages IV and V. 2. Three types of oocytes were examined: inner ovarian epithelium covered (e.c.) oocytes; epithelium manually removed (e.r.) oocytes; and collagenase treated (c.t.) ooctyes. 3. Ovarian oocytes are sensitive to some cholinergic and catecholaminergic agents. Responses to serotonin were seldom observed and when present were much weaker than responses to other agents. No responses were observed to the amino acids: aspartate, glutamate, γ-aminobutyric acid, and glycine; or to octopamine and histamine. 4. Acetylcholine (ACh) usually depolarized the membrane, in a dose-dependent manner, with threshold concentrations as low as 10 -9 m . The ACh-potential was due to an increase in Cl permeability and had a reversal potential around — 19 mV. The intracellular Cl ion activity, measured with a Cl-ion sensitive micro-electrode, was about 65 m m and the estimated Cl-ion equilibrium potential, E Cl , agreed with the reversal potential of the ACh-potential. 5. Curare (10 -4 m ), tetrodotoxin (10 -6 m ), or α-bungarotoxin (10 -6 g/ml.) did not block the response to 10 -6 m -ACh; whereas atropine (10 -7 m ) blocked it. No response to nicotinic agents (e.g. nicotine, 1,1-dimethyl-4-phenylpiperazinium) was observed. These results suggest that the ACh receptors in the oocyte membrane are muscarinic in nature. 6. The apparent latency of the ACh potential, examined by ionophoretic application of ACh to e.r. oocytes and c.t. oocytes, ranged from 0·5 sec to over 20 sec. Intracellular injection of ACh was without effect. 7. Responses to catecholamines were observed mostly in e.c. oocytes; while in e.r. and c.t. oocytes they were rare and of very small amplitudes. 8. The usual response to both dopamine and (—)-epinephrine was a transient hyperpolarization manifested by an initial increase in K-permeability followed by a decrease. The latency of these responses ranged from 10 sec to over 30 sec and their reversal potential was nearly — 100 mV, which coincided with E K . 9. Oocytes responded to the β-adrenergic receptor agonist, isoproterenol, as well as (—)-epinephrine. Pre-treatment with the β-adrenergic receptor blocker, propranolol, abolished the response to both (—)-epineph
ISSN:0022-3751
1469-7793
DOI:10.1113/jphysiol.1982.sp014257