Abstract
Cells of the murine neuroblastoma clone N1E-115 possess muscarinic receptors that influence the intracellular level of cyclic nucleotides. The stimulation of [3H]cyclic GMP levels occurs only with intact cells and has an EC50 near the "low-affinity" agonist equilibrium dissociation constant (KL) determined by radioligand binding assays. The inhibition of prostaglandin E1-stimulated [3H]cyclic AMP formation has an EC50 close to the value for the "high-affinity" agonist equilibrium dissociation constant (KH). During sequential subculturing in medium supplemented with newborn bovine serum, the inhibition of [3H]cyclic AMP was maintained, but the [3H]cyclic GMP response declined dramatically, and after 7 subculturings it was essentially absent. The time course for [3H]cyclic GMP formation in a late subculture with an 88% loss of the response was identical with the time course in early subcultures. A normal [3H]cyclic GMP response to bradykinin and histamine was demonstrated to be present in cells that had lost the [3H]cyclic GMP response to carbachol. The EC50 and KD values for the two muscarinic responses and binding sites increased 3- to 4-fold after several subculturings. A 90% loss of low-affinity binding sites was closely correlated with a similar loss of the [3H]cyclic GMP response. High-affinity binding sites did not decline significantly in concentration until the 11th subculture, where the total number of muscarinic sites was only 6% of the earliest subculture. In all subcultures, however, the ability of the muscarinic receptor to decrease [3H]cyclic AMP levels was maintained. These data, which show that the subculturing of N1E-115 cells in medium supplemented with newborn calf serum results in a selective loss of one muscarinic function, strongly support the hypothesis that these cells contain two separate muscarinic receptor-effector systems. One receptor subtype or conformation has a low affinity for the agonist and mediates cyclic GMP formation. The other receptor subtype or conformation has a higher affinity for the agonist and mediates an inhibition of prostaglandin E1-stimulated cyclic AMP formation.
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