Naunyn-Schmiedeberg's archives of pharmacology
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Naunyn Schmiedebergs Arch. Pharmacol. · Nov 1985
Alteration of the inhibitory effect of metyrapone by reduction to metyrapol during the metabolism of methacetin in vivo in mice.
Metyrapone is known as an inhibitor of the oxidative drug metabolism in vitro. We have used the exhalation analysis as a tool to study the influence of this inhibitor on the demethylation of 14C-methacetin in vivo. In parallel we investigated the reductive metabolism of metyrapone in mice by measuring the concentrations of metyrapone and its reduced metabolite metyrapol with a HPLC-method. 50 mg of metyrapone/kg b. wt. resulted in a 90% inhibition of 14CO2 exhalation when given 2 min before the exhalation analysis was started. ⋯ The administration of metyrapol itself in vivo causes a decrease in 14CO2 exhalation, too. The 14CO2 exhalation curves after metyrapol correspond to the curves after metyrapone, when sufficient time was allowed for its reduction to metyrapol. It can be concluded that not only metyrapone itself but also its reductive metabolite metyrapol is an effective, however weaker inhibitor.
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Naunyn Schmiedebergs Arch. Pharmacol. · Apr 1983
Aminooxyacetic acid induced accumulation of GABA in the rat brain. Interaction with GABA receptors and distribution in compartments.
The effect of aminooxyacetic acid (AOAA, 90 mg/kg i.v.) on bicuculline, picrotoxin and 3-mercaptopropionic acid (3-MPA) induced convulsions and on GABA concentrations in cerebellum, whole brain and a synaptosomal fraction of whole brain was investigated. At various intervals after AOAA the rats were either injected with one of the convulsive drugs or sacrificed for analysis of the GABA concentration. AOAA caused a rapid initial (0-30 min) and a later slower increase of GABA in cerebellum and whole brain. ⋯ This protective effect remained practically unchanged up to 6 h after AOAA. However, once started, the convulsions were generally of the same duration and intensity. The results can be interpreted as GABA accumulating after AOAA stimulates GABA receptors to a degree more or less proportional to the whole brain GABA concentration and further that GABA synthetized in neurons is liberated, stimulates inhibitory bicuculline sensitive (predominant) and excitatory bicuculline insensitive receptors and is captured to a large extent by non-neuronal cells.
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Naunyn Schmiedebergs Arch. Pharmacol. · Aug 1982
A novel analysis of concentration-dependence of partial agonism Ring-demethylation of bupranolol results in a high affinity partial agonist (K 105) for myocardial and tracheal beta-adrenoceptors.
1. Ring-demethylation of the pure antagonist bupranolol results in a ligand (K 105) which induces conformational beta-adrenoceptor changes leading to partial agonistic effects in heart and trachea. However, these conformational receptor changes are not accompanied by changes in receptor affinity, because the affinity estimates for K 105 and bupranolol did not differ for a variety of myocardial tissues (including ventricular beta-adrenoceptors labelled with 3H-(-)-propranolol] and trachea, not even for tracheal receptor subtypes. 2. ⋯ For the case of a single class of non-interacting receptors the slope of the double log-regression should be unity. Our plot has incorporated information from complete concentration-effect curves, instead of a single concentration-ratio as in the Schild-plot. Analysis of data of K 105 with the new plot (intrinsic activity greater than 0) and the Schild-plot (intrinsic activity = 0) yielded slopes near unity, consistent with simple competition.
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Naunyn Schmiedebergs Arch. Pharmacol. · May 1982
Hydrophobic membrane interaction of etidocaine, bupivacaine and 2-chloroprocaine. A spin and fluorescent probe study.
It has been suggested that local anesthetics may block sodium conductance through nervous membranes also by hydrophobic interaction, e.g., by expanding the membrane. Decreased anisotropy (fluidization) and depressed phase transition temperatures have been shown by relatively high local anesthetic concentrations. We studied the dose dependence of the effect of three clinically used local anesthetics, with different lipid solubility, on lipid fluidity parameters of four different model membranes. ⋯ The effect was most marked with bupivacaine (1-10 mM) when cis-parinaric acid was used. While isolated mammalian nerves are blocked by local anesthetic concentrations below 100 muM, this study shows that the clinically used local anesthetics increase fluidity and depress phase transition temperature only at 10-100 times higher concentrations at physiological pH. This kind of hydrophobic membrane interaction may not be important for the nerve blocking effect.