Membrane potential responses to acetylcholine (ACh, 10(-7)-10(-3 M) were investigated in monkey and rabbit ovarian oocytes. In monkey oocytes ACh most commonly elicited a short-latency hyperpolarization concomitant with a decreased membrane input resistance (Rin). Under voltage-clamp short-latency ACh currents had an equilibrium potential of approximately -40 mV. In rabbit oocytes responses to ACh consisted of an increase in Rin or of a depolarization with an equilibrium potential of approximately -15 mV. Curare, hexamethonium, and atropine (10(-5)-10(-3) M) did not block these ACh responses. Thus, the oocyte membrane in the rabbit contains ACh receptors that cannot be classified as either muscarinic or nicotinic.
Caratsch, C., Eusebi, F., Salustri, A. (1984). Acetylcholine receptors in monkey and rabbit oocytes. JOURNAL OF CELLULAR PHYSIOLOGY, 121(2), 415-418 [10.1002/jcp.1041210220].
Acetylcholine receptors in monkey and rabbit oocytes
SALUSTRI, ANTONIETTA
1984-11-01
Abstract
Membrane potential responses to acetylcholine (ACh, 10(-7)-10(-3 M) were investigated in monkey and rabbit ovarian oocytes. In monkey oocytes ACh most commonly elicited a short-latency hyperpolarization concomitant with a decreased membrane input resistance (Rin). Under voltage-clamp short-latency ACh currents had an equilibrium potential of approximately -40 mV. In rabbit oocytes responses to ACh consisted of an increase in Rin or of a depolarization with an equilibrium potential of approximately -15 mV. Curare, hexamethonium, and atropine (10(-5)-10(-3) M) did not block these ACh responses. Thus, the oocyte membrane in the rabbit contains ACh receptors that cannot be classified as either muscarinic or nicotinic.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.