Spelling suggestions: "subject:"imidazole (pharmacology)""
1 |
Imidazoline Desensitization of Epinephrine Responses in Rat Vas DeferensRice, P J., Hardin, J. C., Hamdi, A, Abraham, S T. 01 December 1991 (has links)
Repeated exposure of the rat vas deferens to the imidazoline oxymetazoline (OXY) results in a progressive loss of response which can appear selective for imidazoline agonists. The present study tests the hypothesis that imidazolines produce desensitization through prolonged blockade or inactivation of alpha-1 adrenoreceptors. Repeated exposure to OXY, naphazoline (NPZ) or tetrahydrozoline (THZ) produces a concentration- and time-dependent rightward shift and depression of the (-)-epinephrine concentration-effect curve, suggesting a mechanism of prolonged receptor blockade or inactivation. (-)-Epinephrine Kd values were similar when estimated after either receptor inactivation with phenoxybenzamine or repeated exposure to imidazolines. The differences in the ability of individual imidazolines to produce desensitization (order of potency: OXY greater than NPZ greater than or equal to THZ) do not follow their intrinsic activity (NPZ approximately THZ approximately OXY) or affinity (OXY greater than or equal to NPZ greater than THZ). The ability of individual imidazoline and phenethylamine agonists to produce a response in imidazoline-desensitized rat vas deferens reflects agonist intrinsic efficacy. Desensitization by imidazoline exposure does not affect contraction produced by either KCl or neurokinin A. Imidazolines produce effects similar to receptor inactivation and their desensitization in vas deferens can be explained without invoking an imidazoline subtype of alpha-1 adrenoreceptor.
|
2 |
Relaxation of Isolated Human Myometrial Muscle by beta2-Adrenergic Receptors but Not beta1-Adrenergic ReceptorsLiu, Ying L., Nwosu, Uchenna C., Rice, P. J. 01 October 1998 (has links)
OBJECTIVE: Human myometrium contains both beta1-adrenergic and beta2-adrenergic receptors. This study was designed to assess the importance of each beta-adrenergic receptor subtype in relaxation of human myometrial muscle strips. STUDY DESIGN: Radioligand binding studies were used to establish the presence of each beta-adrenergic receptor subtype, whereas highly selective beta1-antagonists and beta2-antagonists were used to assess the contribution of beta-adrenergic receptor subtypes to myometrial relaxation after exposure to (-)-isoproterenol. RESULTS: Membranes prepared from myometrium contained 82% +/- 4% beta2-adrenergic receptors. After contraction produced by exposure to potassium chloride (35 mmol/L), isoproterenol produced relaxation with half maximal effect at 0.02 micromol/L and a maximal relaxation of 52% +/- 3%. Beta1-antagonist CGP-20712A had no significant effect, whereas beta2-antagonist ICI-118551 produced a characteristic rightward shift of the isoproterenol concentration-relaxation relationship. CONCLUSIONS: Although both beta1-adrenergic receptors and beta2-adrenergic receptors are present in human myometrial tissue at term, relaxation by nonselective beta-agonist isoproterenol is mediated exclusively by beta2-adrenergic receptors.
|
Page generated in 0.0645 seconds