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The 1,5-dimethyl 3,7-diaza-3,7-dimethyl-9-oxo-2,4-di-2-pyridine-bicyclo[3.3.1]nonane-1,5-dicarboxylate, HZ2, has a high and selective affinity for the kappa opioid receptor and an antinociceptive activity comparable to morphine. In addition, it is characterized by a long duration of action and a high oral bioavailability. QSAR studies within series of kappa agonists revealed a chair-boat conformation of a double protonated HZ2 characterized by an almost parallel orientation of the C9 carbonyl group and the N7-H group and at least one aromatic ring to be the pharmacophoric arrangement. Structural variations showed that the pyridine rings in 2 and 4 position can be replaced with p-methoxy-, m-hydroxy- and m-fluoro-substituted phenyl rings. However, all other substituents have to be kept the same for a high affinity to the kappa receptor.

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3,7-Diazabicyclo[3.3.1]nonan-9-ones having aryl rings in positions 2 and 4 with systematically varied substituents were synthesized using a double Mannich procedure. Radioligand binding assays were performed to measure the affinity of the compounds to the mu-, delta-, and kappa-opioid receptors. The affinity of all 2, 4-diphenyl-substituted 3,7-diazabicyclo[3.3.1]nonan-9-ones to the mu- and delta-receptors was found to be low. In contrast, with exception of the nitro- and cyanophenyl-substituted compounds, most of the diazabicycles showed considerable affinity for the kappa-receptor. In particular, the m-fluoro-, p-methoxy-, and m-hydroxy-substituted compounds have an affinity in the submicromolar range. Due to solubility problems in aqueous media, salts of HZ2 were synthesized. The methiodide shows high kappa-affinity and may, thus, be a promising candidate for development of a peripheral kappa-agonist, e.g. for use in the case of rheumatoid arthritis.

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Previously 2,4-dipyridine substituted 3,7-diazabicyclo[3.3.1]nonanone diesters were found to have a high affinity and selectivity towards the kappa-opioid receptor. The purpose of this study was to check the influence of substituents at position N3 on the affinity to the mu-, delta-, and kappa-receptors. Whereas a phenylethyl group is able to create affinity to the mu-receptor, small substituents such as a hydrogen or a methyl group are responsible for a high affinity to the kappa-receptor. In addition, a dimeric compound was found to have affinity to the kappa-receptor. Although all compounds will bear at least one positive charge under physiological conditions they show a considerable lipophilicity, indicating the possibility of passing the blood-brain barrier.

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The present study was conducted to characterise the centrally active analgesic drug tramadol hydrochloride [(1RS,2RS)-2-[(dimethyl-amino)-methyl]-1-(3-methoxyphenyl)-cyclohe xanol hydrochloride] and its metabolites M1, M2, M3, M4 and M5 at the cloned human mu-opioid receptor. Membranes from stably transfected Chinese hamster ovary (CHO) cells were used to determine the four parameters of the ligand-receptor interaction: the affinity of (+/-)-tramadol and its metabolites was determined by competitive inhibition of [3H]naloxone binding under high and low salt conditions. The agonist-induced stimulation of [35S]GTPgammaS binding permits the measurement of potency (EC50), efficacy (Emax = maximal stimulation) and relative intrinsic efficacy (effect as a function of receptor occupation). The metabolite (+)-M1 showed the highest affinity (Ki=3.4 nM) to the human mu-opioid receptor, followed by (+/-)-M5 (Ki=100 nM), (-)-M1 (Ki=240 nM) and (+/-)-tramadol (Ki=2.4 microM). The [35S]GTPgammaS binding assay revealed an agonistic activity for the metabolites (+)-M1, (-)-M1 and (+/-)-M5 with the following rank order of intrinsic efficacy: (+)-M1>(+/-)-M5>(-)-M1. The metabolites (+/-)-M2, (+/-)-M3 and (+/-)-M4 displayed only weak affinity (Ki> 10 microM) and had no stimulatory effect on GTPgammaS binding. These data indicate that the metabolite (+)-M1 is responsible for the mu-opioid-derived analgesic effect.

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In in vitro receptor binding and synaptosomal uptake experiments the (+)-enantiomer of tramadol (CAS 148229-78-1) is specific for the mu-opioid receptor site and for the serotonin (5-HT) carrier, whereas the (-)-enantiomer (CAS 148229-79-2) has a higher affinity to the noradrenaline (NA) transporter. The antinociceptive active tramadol metabolite O-demethyltramadol (M1) shows a pronounced mu-selectivity. With respect to in vitro receptor binding experiments, the affinity of (+)-M1 to this opioid receptor subtype is more than two orders of magnitude higher than that of (+)-tramadol and approximately 1/10 that of morphine. Tramadol and M1 (and the enantiomers thereof) have no affinity to other receptor or uptake sites tested, e.g. 5-HT1A, 5-HT2, 5-HT3, NMDA (ligand: MK801), dopamine (DA)-D1, DA-D2, benzodiazepine, muscarine M1 and DA uptake (Ki > or = 2 x 10(-5) mol/l). Ex vivo neurotransmitter determinations show that tramadol (46.4 mg/kg i.p.) elevates the DA metabolites 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid and enhances DA release in definite brain areas. The active enantiomer of the racemic tramadol is the (+)-enantiomer. (+)-Tramadol significantly enhances the turnover rate of DA. The enantioselective elevation of DOPAC by (+)-tramadol is antagonized by naloxone (2 x 5 mg/kg i.p.). Morphine (21.5 mg/kg i.p.) enhances the turnover of NA in definite brain areas. Neither the NA-specific uptake inhibition nisoxetine (31.6 mg/kg i.p.) nor tramadol (or its (+)- and (-)-enantiomers) have any influence on the NA turnover. Tramadol reduces the levels of 5-HT and its metabolite 5-hydroxyindoleacetic acid. Morphine enhances, whereas tramadol reduces, 5-HT utilisation in the brain areas under assay. The 5-HT specific uptake inhibitor fluoxetine (20 mg/kg i.p.) shows the same influence on 5-HT turnover as tramadol. The results indicate that tramadol enhances DA turnover via an opioid mechanism. The interaction with the noradrenergic and serotonergic neurotransmission is clearly different from that of an opioid receptor agonist and closely resembles that of NA and 5-HT uptake inhibitors.

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Several heterocyclic bicyclo[3.3.1]nonan-9-ones were found to have a high affinity to kappa opioid receptors, 3,7-Diazabicyclononanones with 2,4-dipyridyl side chains were the most potent agonists whereas the corresponding 3-oxa-7-azabicyclo[3.3.1]nonan-9-one and compounds with phenyl substituents in 2 and 4 position are almost inactive. The purpose of this study was to unravel the active conformation of the bicyclononanones using well-known kappa-selective agonists such as ketocyclazocine, arylacetamides, several isoquinolines, CI-977, and four stereoisomers of EMD-61753 for comparison. In order to determine the geometry of the diazabicycles in solution pH-dependent NMR measurements of the bicycles were recorded and the results were related to the geometries of the aforementioned kappa agonists obtained from semiempirical PM3 calculations. A chair-boat conformation and a protonation at the N7 nitrogen atom of the diazabicyclononanones were found to be the pharmacophoric conformation. Comparison of the spatial arrangements, electrostatic, hydrophobic, and hydrogen bonding potentials of all kappa-selective agonists led to a model of structure-activity relationships of ligands of the kappa receptor. The arrangement of the pharmacophoric elements is characterized by an almost parallel orientation of a carbonyl and a protonated NH function in conjunction with at least one aromatic ring. Ketocyclazocine is only able to adopt this parallel orientation when the nitrogen is inverted relative to the X-ray structure. Furthermore, two binding sites for the aromatic rings are discussed. The pharmacological results of all considered bicyclononanone derivatives as well as of the four enantiomers of EMD-61753 can be understood and consistently explained in this way.

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Only small amounts of leukotrienes could be detected by reverse-phase HPLC analysis after stimulation of human polymorphonuclear leukocytes (PMN) by the receptor agonist N-formyl-methionyl-leucyl-phenylalanine (fMLP). Preincubation of the cells with the organomercury compound thimerosal prior to fMLP-addition, however, resulted in the formation of significant amounts of 5-lipoxygenase derived metabolites. This effect was dose-dependent with respect both to fMLP and thimerosal. Thimerosal alone did neither lead to the formation of HPLC-detectable leukotrienes nor to the release of arachidonic acid in [1-14C]arachidonic acid prelabelled cells. The formation of leukotrienes by fMLP/thimerosal required extracellular Ca2+. Measurements of intracellular Ca2(+)-levels revealed that (i) thimerosal alone is able to release Ca2+ from internal stores and (ii) thimerosal causes a persistent accumulation of Ca2+ within the cells after stimulation by fMLP. We conclude that by the synergistic action of fMLP and thimerosal the Ca2(+)-levels exceed the threshold for phospholipase A2 activation resulting in the liberation of arachidonic acid and subsequently in the formation of 5-lipoxygenase products. Our results suggest that thimerosal may provide a model for leukotriene formation under pathophysiological conditions when SH-group oxidation leads to increased intracellular Ca2(+)-levels.

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Human polymorphonuclear leukocytes (PMN) were isolated from freshly drawn venous blood by Dextran sedimentation and discontinuous Percoll gradient centrifugation. The effects of several putative triggers of the leukotriene formation such as C5a, PAF, FMLP, C3a, PMA, LTC4, LTD4, LTB4 or arachidonate were studied by RP-HPLC analysis. 280 nM C5a, 100 nM FMLP, 1 microM PAF or 20 microM arachidonate induced a marginal formation of 1.5-18 ng of LTB4 plus LTB4 metabolites/2 x 10(7) PMN. 560 nM C3a, 100 nM PMA, 1 microM LTC4, 1 microM LTD4 and 1 microM LTB4 each failed to induce any formation of 5-lipoxygenase products. Pretreatment of the cells with 40 microM ethylmercurithiosalicylate (merthiolate) enhanced the leukotriene formation by 100 nM FMLP about 40-fold, by 280 nM C3a about 120-fold and by 1 microM PAF about 14-fold. Merthiolate itself induced no leukotriene formation from human PMN and reduced the leukotriene formation by 20 microM arachidonate. The FMLP/merthiolate-induced activation of the PMN was concentration-dependent in respect to both FMLP and merthiolate. 1 microM LTC4, 1 microM LTD4 or 1 microM LTB4 also failed to trigger any LTB4 formation of merthiolate-treated PMN. 560 nM C3a or 100 nM PMA in combination with 40 microM merthiolate induced a slight formation of 28 ng and 10 ng of LTB4 plus LTB4 metabolites, respectively. The FMLP/merthiolate-induced leukotriene formation was modulated by prostanoids. PGE2, PGE1, PGD2 and 6-keto-PGE1 each evoked a concentration-dependent inhibition of the leukotriene formation with IC50 values of 0.07 microM, 0.18 microM, 0.27 microM and 6 microM respectively. In addition, significant inhibitory effects by PGI2, Iloprost (a carbacyclin analogue of prostacyclin), PGF2a or 6-keto-PGF1a were achieved; the corresponding IC50 values, however, amounted to 19-59 microM. Thus these compounds were about 500-fold less potent in comparison with PGE2 in inhibiting LTB4 formation by human PMN.

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Arachidonate 5-lipoxygenase of a 10,000 x g supernatant from RBL-1 cell homogenate was studied by a continuous assay measuring enzyme-catalysed oxygen consumption. Parallel HPLC and TLC analysis of arachidonic acid metabolites revealed that the oxygen consumption measured is solely due to 5-lipoxygenation of arachidonic acid. Oxygen consumption by this lipoxygenase was strictly dependent upon Ca2+, ATP and 5-HPETE. Removal of any of these three cofactors caused a complete inhibition of enzyme activity. Addition of the missing cofactor instantly restored the 5-lipoxygenase-dependent consumption of oxygen which remained linear for 10-20 s. Later on the velocity of the reaction decreased and after 2-3 min the enzyme became inactivated. Kinetic data were obtained from the initial velocity of the reaction using constant and saturating concentrations of CaCl2 and ATP. From Lineweaver-Burk plots substrate inhibition is evident for arachidonic acid concentrations greater than 45-50 microM. Km(app) for arachidonic acid is 182 +/- 16 microM (mean +/- SD, n = 5) and Vmax(app) is 425 +/- 140 nmol O2/(min x mg protein) (mean +/- SD, n = 5).

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Homogeneous thromboxane synthase from human platelets converted prostaglandin H2 (PGH2) to thromboxane A2 (measured as thromboxane B2, TxB2), 12(L)-hydroxy-5,8,10-heptadecatrienoic acid (HHT), and malondialdehyde (MDA) in equimolar amounts under a variety of experimental conditions. PGG2 was transformed to MDA and corresponding 15- and 12-hydroperoxy products. PGH1 was enzymatically transformed into 12(L)-hydroxy-8,10-heptadecadienoic acid (HHD) and PGH3 into TxB3 and 12(L)-hydroxy-5,8,10,14-heptadecatetraenoic acid (delta 14-HHT) as earlier reported for solubilized and partially purified thromboxane synthase preparations. The ratio of thromboxane to C17 hydroxy fatty acid formation was 1:1 with PGG2, PGH2, and PGH3 as substrates. These results confirm and extend earlier observations with partially purified enzyme that the three products are formed in a common enzymatic pathway (Diczfalusy, U., Falardeau, P., and Hammarström, S. (1977) FEBS Lett. 84, 271-274). A convenient spectrophotometric assay for thromboxane synthase activity measuring the ultraviolet light absorption of the C17 hydroxy acid formed (e.g., HHT) was developed. The validity of the assay was determined employing specific inhibitors for thromboxane synthase. The substrate specificity of thromboxane synthase was determined using this assay. PGG2 and PGH3 showed Vmax and KM values similar to those of PGH2. The KM value of PGH1 was also identical to that of PGH2 but the Vmax value PGH1 was more than twice as high as that of PGH2.

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Thromboxane A2 synthase is a cytochrome P450-type enzyme and its interaction with imidazole or pyridine-based inhibitors could be studied by absolute and difference spectroscopy with the solubilized as well as the purified enzyme. Nitrogenous bases shift the 418-nm Soret absorption by 4-6 nm to the red and among them the best inhibitors of enzyme activity showed a stoichiometric binding to the enzyme. The structural and energetic prerequisites for such high binding affinities were primarily the liganding of the basic nitrogen to the hemin but also the attachment of a hydrophobic carboxylic side chain to the active site at an about 1 nm distance from the nitrogen. In addition, the side chain seemed to be oriented almost parallel to the plane of the heme. If this geometry was changed, a decrease in affinity was observed and if the ligand binding was sterically hindered, a spectral shift to a five-coordinated complex absorbing at 390 nm occurred. This is best explained by the displacement of an endogenous oxygen ligand, presumably water, from the sixth coordination position of the heme. From these results it can be concluded that the inhibitors mimic the binding of prostaglandin H2 (PGH2) with its carboxylic group at the carboxyl side chain and the endoperoxide oxygen atom at C9 as previously reported. The methyl side chain of PGH2 does not seem to play a role in the formation of the enzyme-substrate complex.

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Thromboxane synthase from human platelets was purified to apparent homogeneity by conventional chromatographic techniques. A 423-fold enrichment over the specific content in the 100,000 X g sediment from platelet homogenates was obtained. The enzyme gave a single band on sodium dodecyl sulfate-gel electrophoresis corresponding to a monomeric molecular weight of 58,800. One heme per polypeptide chain was present, and by optical and EPR spectroscopy a close analogy to the group of cytochrome P-450 proteins was established. From its substrate prostaglandin H2, the stable end product thromboxane B2 is formed with a specific activity of 24.1 mumol min-1 mg of protein-1 which corresponds to a molecular activity of 1628 min-1. The enzyme formed 12L-hydroxy-5,8,10-heptadecatrienoic acid together with thromboxane B2 in a 1:1 ratio. Both products were identified by gas chromatography-mass spectrometry analysis. As reported previously for platelet microsomes (Ullrich, V., and Haurand, M. (1983) Adv. Prostaglandin Thromboxane Leukotriene Res. 11, 105-110), the pure hemoprotein spectrally interacts with pyridine- or imidazole-based inhibitors and for the potent inhibitor imidazo-(1,5-a)pyridine-5-hexanoic acid a stoichiometric binding to the heme was shown. Substrate analogs with a methylene group replacing the oxygen in either the 9- or 11-position caused difference spectra showing spectral shifts towards 387 and 407 nm, respectively. The identification of thromboxane synthase as a P-450 protein suggests that the heme-thiolate group of the enzyme is required to split and activate the endoperoxide bond of prostaglandin H2.

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The fibrinogen distribution in platelet organelles after ADP-stimulation was investigated with anti-human fibrinogen using protein A-gold applied to serial sections. Fibrinogen was detected in the so-called alpha-granules of platelets and also in granule protrusions which were observed after ADP-stimulation. The ends of these protrusions were formed as coated membranes and the tips were often in apposition to the surface connected membranes or the plasmalemma. At such places fusion events and hence signs of an exocytosis could be demonstrated by means of cryofixation and cryosubstitution. Examination of serial sections revealed fibrinogen on all these granule profiles. Surface connected membranes, free surfaces and the characteristic structure of the contact zones of aggregated platelets were also labelled by gold particles but less than anticipated. On the platelet surfaces and surface connected membranes fibrinogen was rarely demonstrable with ferritin-labelled anti-human fibrinogen on washed or thrombin-stimulated, almost fibrinogen free platelets. After addition of human fibrinogen to the thrombin stimulated and disaggregated platelets a part of the platelets aggregated spontaneously and formed characteristic contact zones. Anti-human fibrinogen was observed on the free surfaces, in filamentous bridges between the contact spaces and in a tubular surface connected membrane system with involvement of coated membranes at the central ends of these structures. The results indicate the following: all alpha-granules contain fibrinogen; after ADP-stimulation secretion takes place with involvement of coated membranes; during aggregation fibrinogen binds to platelet surfaces and forms contact spaces; fibrinogen is taken up by the surface connected system with involvement of coated membranes.

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