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1

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Catecholamine-inactivating enzymes in rat reticulocytes (1973)

Quiring, K. ; Kaiser, G. ; Gauger, D. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 279 (1973), S. 93-97

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ISSN: 1432-1912

Keywords: Catechol-O-Methyltransferase ; Monoamine Oxidase ; Erythrocyte

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Catecholamine inactivating enzymes in red blood cells are preferentially localized in the reticulocytes and not in mature erythrocytes: catechol-O-methyltransferase (COMT) activity in erythrocyte ghost preparations from reticulocyte-rich blood of rats pretreated with acetyl-phenylhydrazine was found to be 5 times higher than in ghosts from reticulocyte-poor blood. In the respective 12000×g supernates of the haemolysates, COMT activity in reticulocyte-rich preparations was not significantly enhanced. Significant monoamine oxidase (MAO) activity was only found in ghosts from reticulocyte-rich blood prepared by centrifugation at 12000×g. MAO activity was inhibited in vitro by pargyline concentrations〈10−6 M. These results are in agreement with earlier findings which have shown that rat reticulocytes contain a complete adrenergic β-receptor-effector system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00502072

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Rates of recovery of irreversibly inhibited monoamine oxidases: A measure of enzyme protein turnover (1972)

Planz, G. ; Quiring, K. ; Palm, D.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 273 (1972), S. 27-42

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ISSN: 1432-1912

Keywords: Monoamine Oxidase ; Irreversible Enzyme Inhibition ; Rates of Recovery from Inhibition ; Enzyme Protein Turnover ; Tranylcypromine

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. After irreversible inhibition of monoamine oxidase (MAO) in rats with hydrazine derivatives (3-amino-2-oxazolidinone, furazolidone, benmoxine) and the non-hydrazine pargyline, recovery of enzyme activity occurred at rates which were characteristic for the organ investigated and independent of the chemical structure of the irreversible inhibitor. The respective half times were the same in homogenates and in mitochondria and amounted to about 10 days in the brain and 3 to 4 days in the liver; in the small intestine, mucosal MAO activity recovered with a half time of 0.5 days, whereas in the residual intestinal layers a half time of about 4 days was found.\3-Tranylcypromine is not an irreversible inhibitor: the half times of MAO recovery were 3.6 days in the brain and 2.4 days in the liver. Thus, long duration of inhibition and organ-specific half times of recovery of MAO inhibition are characteristic features of irreversible inhibitors. 2. When mitochondrial protein was labelled by i.v. injection of 14C-leucine, specific radioactivity declined with a half time of 9.4 days in the brain and 4.0 days in the liver; for the intestinal mucosa and for the residual intestinal layers, a half time of 0.5 and 4.4 days, respectively, was found. As these values are nearly identical with those found for the rates of MAO recofery after irreversible inhibition, the assumption is supported that irreversibly inhibited MAO must be replaced by newly synthetized enzyme. Vice versa, the rates of MAO recovery after irreversible inhibition seem to reflect the rates of mitochondrial protein turnover. Measurements of the rate of recovery of irreversibly inhibited MAO activity may therefore be useful to determine the turnover of the enzyme protein.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00508078

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Entstehung eines β-Sympathicomimeticums (3′-Desoxy-3-methyl-tetrahydropapaverolin) aus α-Methyldopamin und Tyramin bei Inkubation mit Monoaminoxydase-Präparaten (1968)

Langeneckert, W. ; Palm, D.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 260 (1968), S. 400-415

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ISSN: 1432-1912

Keywords: Tetrahydropapaveroline Derivatives ; Amine/Aldehyde Condensation ; Monoamine Oxidase ; β-Sympathomimetics ; Tetrahydropapaverolinderivate ; Amin/Aldehyd-Kondensation ; Monoaminoxydase ; β-Sympathicomimetica

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung 1. Bei der Inkubation von Monoaminoxydase-haltigen Präparationen (Mitochondrien aus Meerschweinchenleber) mit den blutdrucksteigernden Aminen α-Methyldopamin und Tyramin entsteht eine blutdrucksenkende (Ratte, Katze) und am Herzvorhof (Meerschweinchen) positiv inotrop wirkende Substanz. Das β-Sympathicolyticum Pronethalol antagonisierte beide Wirkungen kompetitiv. 2. Das säulenchromatographisch isolierte β-Sympathicomimeticum erwies sich als ein Kondensationsprodukt aus α-Methyldopamin und dem durch oxydative Desaminierung von Tyramin in den Inkubaten entstandenen p-Hydroxyphenylacetaldehyd. Es war identisch mit dem aus synthetisch hergestelltem p-Hydroxyphenylacetaldehyd (Hydraminspaltung von Synephrin) durch Kondensation mit α-Methyldopamin erhaltenen 3′-Desoxy-3-methyl-tetrahydropapaverolin (DM-THP). Der Identitätsbeweis wurde mit chromatographischen, infrarot-spektrometrischen und pharmakologischen Methoden geführt. 3. DM-THP war am Herzvorhof etwa 6mal, am Blutdruck etwa 100mal schwächer β-adrenergisch wirksam als Tetrahydropapaverolin, das in analoger Weise durch Kondensation von Dopamin mit 3,4-Dihydroxyphenylacetaldehyd entsteht. 4. Beziehungen zwischen chemischer Konstitution und β-sympathicomimetischer Wirksamkeit werden diskutiert.

Notes: Summary 1. A substance which lowered the blood pressure of the rat and the cat and had an inotropic action on the guinea pig auricle was formed when monoamine oxidase preparations (mitochondria from guinea pig liver) were incubated with the pressor amines α-methyldopamine and tyramine. Both actions were competetively antagonised by the β-receptor blocking drug pronethalol. 2. The compound which acts on β-receptors was isolated from the incubates (column chromatography) and found to be formed from α-methyldopamine by condensation with p-hydroxyphenylacetaldehyde, the aldehyde formed from tyramine by oxidative deamination. The condensation product proved to be identical with synthetic 3′-deoxy-3-methyl-tetrahydropapaveroline (DM-THP) obtained from α-methyldopamine by interaction with authentic p-hydroxyphenylacetaldehyde. The aldehyde was synthesized from synephrine by hydramine cleavage. The identification was made by means of chromatographic, infrared spectrometric and pharmacological methods. 3. When compared with tetrahydropapaveroline, DM-THP was 6 times weaker in its inotropic action and 100 times weaker as a hypotensive agent. 4. The relationship between chemical configuration and β-receptor stimulating activity was discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00537356

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Effect of pretreatment with the selective β1-adrenoceptor antagonist bisoprolol on the subsequent cardiovascular actions and β-adrenoceptor subtype specific occupancy of celiprolol in healthy man (1993)

Mey, C. ; Beithaupt, K. ; Palm, D. ; [et al.]

Springer

European journal of clinical pharmacology 44 (1993), S. 341-348

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ISSN: 1432-1041

Keywords: Celiprolol ; Bisoprolol ; β-Adrenoceptor blockade ; radioreceptor assay ; RRA-kinetics ; impedance cardiography ; ergometry

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Summary The cardiovascular effects at rest and during exercise and β1- and β2-adrenoceptor occupancy following a single dose of 1200 mg celiprolol p. o. were investigated in 8 healthy subjects with or without pretreatment with a single dose of 20 mg bisoprolol p. o., using a place-bo-controlled, 2-way cross-over design. The ergometric responses of heart rate (HR) and systolic blood pressure (SBP) after celiprolol were reduced to a similar extent as after bisoprolol, but the cardiovascular function at rest was affected in a different way: there was a rise in HR, clear enhancement of cardiac systolic performance, and a considerable drop in the estimated total peripheral vascular resistance, associated with median β1-RRA and β2-RRA occupancies of 88 and 34%, respectively. The cardiovascular effects of celiprolol were not affected by pretreatment with bisoprolol. Celiprolol thus binds extensively to β1-adrenoceptors, moderately to β2-adrenoceptors, acts as β1-adrenergic antagonist (exemplified by the ergometric effects) but has vasodilator, positive chronotropic and cardiac systolic performance enhancing properties, which do not involve either direct or indirect β1-adrenergic agonism, but which might reflect β2-adrenergic agonism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00316470

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Comparison of the effects of atropine in vivo and ex vivo (radioreceptor assay) after oral and intramuscular administration to man (1995)

Volz-Zang, C. ; Waldhäuser, T. ; Palm, D. ; [et al.]

Springer

European journal of clinical pharmacology 49 (1995), S. 45-49

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ISSN: 1432-1041

Keywords: Atropine ; M2-cholinoceptors ; effect kinetics ; radioreceptor assay ; healthy volunteers

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Abstract The effects of an oral dose of atropine (0.03 mg/kg body weight) and an IM (0.02 mg/kg) dose on the heart rate and salivary flow in seven healthy adult volunteers were compared to see whether the oral dose was sufficient to inhibit vagal reflexes of the heart. Atropine concentrations in plasma were determined by an M2-selective radioreceptor assay, and the in vitro occupancy of porcine cardiac M2-cholinoceptors was measured in parallel. In ligand-binding studies, atropine has been shown to have a comparable affinity for human and porcine cardiac M2-cholinoceptors (Ki 4.0 and 5.9, respectively). Slight changes in heart rate after oral administration were not significant. After IM administration, however, the heart rate increased significantly, by a maximum of 22 beats·min−1 after 45 min. The slight increase in heart rate after the oral dose corresponded to a receptor occupancy in vitro near the lower limit of detection, whereas the significant increase in heart rate after the IM dose corresponded to a receptor occupancy of up to 47%. The maximum reduction in salivary flow was similar after the oral and IM doses (84.3 and 87.5%, respectively). The almost complete inhibition of salivary flow could be explained by the lower vagal tone in the salivary glands compared with to the heart. The difference in the effect on heart rate was probably due to lower absorption of the oral dose. Thus, an oral dose greater than 0.03 mg atropine/kilogram body weight is required to compensate for low gastrointestinal absorption and to overcome the high vagal tone of the heart.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00192357

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Simple and reliable radioreceptor assay for beta-adrenoceptor antagonists and active metabolites in native human plasma (1984)

Wellstein, A. ; Palm, D. ; Wiemer, G. ; [et al.]

Springer

European journal of clinical pharmacology 27 (1984), S. 545-553

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ISSN: 1432-1041

Keywords: beta-blockers ; radioreceptor assay ; propranolol ; carteolol ; active metabolites ; rat reticulocyte membranes ; CGP 12177

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Summary A radioreceptor assay (RRA) for the assay of beta-adrenoceptor antagonists in native human plasma is described. The hydrophilic antagonist3H-CGP 12177 was used as the radioligand. In contrast to the hydrophobic radioligand3H-dihydroalprenolol, which was investigated in parallel, the beta-adrenoceptor binding of3H-CGP 12177 by rat reticulocyte membranes was found not to be affected by inclusion of increasing proportions (0–66% of incubation volume) of human plasma in the assay. Thus, solvent extraction of drug and/or active metabolites was not necessary to avoid binding of the radioligand tracer to plasma added in the RRA. The assay of unprocessed samples was possible. Drug concentrations in plasma after oral administration of propranolol (240 mg) or carteolol (30 mg) to 6 healthy volunteers were measured by the RRA and in parallel by a chemical method. The results from both methods agreed when the plasma concentration kinetics of propranolol were investigated (elimination half-life: 3.9 h). In contrast, plasma concentrations of carteolol were consistently higher according to the RRA after oral administration of the drug. Identical concentrations, however, were found by the RRA and chemical method using plasma samples spiked with carteolol. Plasma concentrations of carteolol detected by the chemical method decline monoexponentially (elimination half-life: 5.4 h). A similar half-life of elimination for parent drug was found by the RRA (5.9 h), but an additional term describing the appearance of an active metabolite was necessary to account for the biphasic drug elimination (elimination half-life of metabolite: 17.3 h). The latter result is in agreement with the appearance of 8-hydroxy-carteolol as an active metabolite, which shows similar affinity for beta-adrenoceptors as the parent drug. The active metabolite, with a 3-fold longer elimination half-life than the parent drug, will prolong the duration of the clinical effects of orally administered carteolol. In conclusion, the RRA permits the determination of beta-adrenoceptor antagonistic activity in native human plasma at concentrations as low as 0.1-fold the IC50-value of the drug or an active metabolite.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00556890

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7

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Penbutolol: Pharmacokinetics, effect on exercise tachycardia, and in vitro inhibition of radioligand binding (1988)

Brockmeier, D. ; Hajdù, P. ; Henke, W. ; [et al.]

Springer

European journal of clinical pharmacology 35 (1988), S. 613-623

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ISSN: 1432-1041

Keywords: penbutolol ; beta-adrenoceptor blockade ; pharmacokinetics ; pharmacodynamics ; in vitro/in vivo correlation ; radioreceptor assay ; active metabolites

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Summary The pharmacokinetics of penbutolol 40 mg, its reduction in exercise-induced tachycardia, and the in vitro inhibition of radioligand binding to beta-adrenoceptors by plasma have been investigated in 7 healthy volunteers. The peak penbutolol concentration of 285 ng/ml was observed 1.2 h after administration, and the maximum of 4′-OH-penbutolol of 4.76 ng/ml was found after 1.64 h. Penbutolol was detected for up to 48 h, and 4′-OH-penbutolol dropped below the limit of detection after about 10 h. The terminal plasma concentration of penbutolol declined with an average half-life of 19 h. The maximum reduction in exercise-induced tachycardia was 33 beats/min 2.6 h after taking penbutolol. There was still a significant reduction of about 7 beats/min after 48 h. This effect could be adequately explained by the concentration-time course of penbutolol in combination with Clark's model of the concentration-effect relationship. Antagonist activity in plasma caused 91% inhibition of radioligand binding in vitro to beta2-adrenoceptors on rat reticulocyte membranes 1.6 h after intake of penbutolol. By 48 h after intake, radioligand binding was still significantly inhibited (23%). The in vitro inhibition of radioligand binding by plasma showed a linear correlation with the reduction in exercise-induced tachycardia for all phases of the workload. The time course of the reduction in heart rate was completely explained by the in vitro inhibition of radioligand binding. However, it was not possible to explain the in vitro inhibition of radioligand binding by the concentration-time course of penbutolol using a simple competition model, although both variables were based on the same sampling site. When the in vitro inhibition of radioligand binding was plotted against the penbutolol concentration at the same sampling times (with both variables transformed to multiples of the apparent inhibition constant) the discrepancy became even more apparent as time-related counterclockwise hysteresis. None of the known metabolites of penbutolol can explain the discrepancy between the penbutolol concentration and the inhibition of radioligand binding in vitro. It appears that an other active metabolite is formed, which contributes to the effect in vitro and in vivo and so can explain the observed discrepancy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00637597

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Inhibition of amine oxidases by nitrofuran derivatives: Possible structure-activity relations and criteria of irreversibility (1970)

Quiring, K. ; Palm, D.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 265 (1970), S. 397-410

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ISSN: 1432-1912

Keywords: Monoamine Oxidase ; MAO Inhibitors ; Nitrofurans ; Hydrazines ; Enzyme Inhibition (Irreversible)

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Four bacteriostatically active nitrofurfurylidene compounds and their respective hydrazine moieties were administered to male Wistar rats. MAO activity was measured in vivo by different methods in liver, brain, and small intestine. Inhibition of DAO activity was determined in small intestine of rats and, in in-vitro experiments, in a partially purified pig kidney enzyme preparation. 1. Only those nitrofuran derivatives, which contain a hydrazine moiety that also inhibited the enzyme, were MAO inhibitors. The same was true for DAO; both enzymes were inhibited irreversibly. It is concluded that a hydrazine derivative with a free NH2-group as produced by metabolic transformation of the parent compound must be responsible for the amine oxidase inhibiting action of nitrofuran derivatives in vivo. Thus, both N-(5-nitro-2-furfurylidene)-3-amino-2-oxazolidinone and 3-amino-2-oxazolidinone were MAO inhibitors, the latter being 30–60 times more potent. K-(5-nitro-2-furfurylidene)-3-amino-5-methylmercaptomethyl-2-oxazolidinone was not an MAO inhibitor, although 3-amino-5-methylmercaptomethyl-2-oxazolidinone did inhibit the enzyme. In this case, the parent compound is possibly not metabolized to an active substance. In regard to 5-nitro-2-furfurylidene-4-hydroxybenzoyl-hydrazide and N-(5-nitro-2-furfurylidene)-1-amino-hydantoin, both the parent compounds and their respective hydrazine moieties-4-hydroxybenzoyl-hydrazide and 1-amino-hydantoin-were not inhibitors of MAO. 2. The steepness of the dose-response curves of MAO inhibition decreased in the order brain-liver-small intestine. These differences are explained by different turnover rates of enzyme protein as reflected by different half-life times of enzyme reactivation in the respective organs (10, 3, and 1.8 days for brain, liver, and small intestine, respectively). Consequently, duration and also degree of an irreversible MAO inhibition depend not only on the local concentration of the inhibiting drug, but also on the rate of protein turnover in the respective organ. It is stated that, inter alia, accordance between enzyme reactivation rate and enzyme protein turnover rate is a criterion for an irreversible MAO inhibitor.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00997076

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