Your search keyword '"Schmidhammer, H."' showing total 9 results

1. @m-Opioid receptor specific antagonist cyprodime: characterization by in vitro radioligand and [^3^5S]GTP@cS binding assays

Author

Marki, A., Monory, K., Otvos, F., Toth, G., Krassnig, R., Schmidhammer, H., Traynor, J.R., Roques, B.P., Maldonado, R., and Borsodi, A.

Published

1999

2. Use of selective antagonists and antisense oligonucleotides to evaluate the mechanisms of BUBU antinociception

Author

Hutcheson, D.M., Sanchez-Blazquez, P., Rodriguez-Diaz, M., Garzon, J., Schmidhammer, H., Borsodi, A., Roques, B.P., and Maldonado, R.

Published

1999

3. Inverse agonism by Dmt-Tic analogues and HS 378, a naltrindole analogue

Author

Labarre, M., Butterworth, J., St-Onge, S., Payza, K., Schmidhammer, H., Salvadori, S., Balboni, G., Guerrini, R., Bryant, S. D., and Lazarus, L. H.

Published

2000

4. Highly potent novel opioid receptor agonist in the 14-alkoxymetopon series

Author

Fuerst, Z., Buzas, B., Friedmann, T., and Schmidhammer, H.

Published

1993

5. Local peripheral antinociceptive effects of 14-O-methyloxymorphone derivatives in inflammatory and neuropathic pain in the rat.

Author

Obara I, Makuch W, Spetea M, Schütz J, Schmidhammer H, Przewlocki R, and Przewlocka B

Subjects

Animals, Dose-Response Relationship, Drug, Hyperalgesia drug therapy, Inflammation drug therapy, Inflammation physiopathology, Male, Morphine pharmacology, Naloxone pharmacology, Neuralgia drug therapy, Oxymorphone pharmacology, Rats, Rats, Wistar, Structure-Activity Relationship, Analgesics, Opioid pharmacology, Oxymorphone analogs & derivatives, Pain drug therapy

Abstract

Antinociception achieved after peripheral administration of opioids has opened a new approach to the treatment of severe and chronic pain. Additionally, opioid analgesics with restricted access to the central nervous system could improve safety of opioid drugs used in clinical practice. In the present study, peripheral components of antinociceptive actions of 6-amino acid-substituted derivatives of 14-O-methyloxymorphone were investigated after local intraplantar (i.pl.) administration in rat models of inflammatory and neuropathic pain. Their antinociceptive activities were compared with those of morphine, the classical mu-opioid receptor agonist. Intraplantar administration of morphine and the 6-amino acid derivatives produced dose-dependent reduction of formalin-induced flinching of the inflamed paw, without significant effect on the paw edema. Local i.pl. administration of the new derivatives in rats with neuropathic pain induced by sciatic nerve ligation produced antiallodynic and antihyperalgesic effects; however, the antinociceptive activity was lower than that observed in inflammatory pain. In both models, the 6-amino acid derivatives and morphine at doses that produced analgesia after i.pl. administration were systemically (s.c.) much less active indicating that the antinociceptive action is due to a local effect. Moreover, the local opioid antinociceptive effects were significantly attenuated by naloxone methiodide, a peripherally acting opioid receptor antagonist, demonstrating that the effect was mediated by peripheral opioid receptors. The present data indicate that the peripherally restricted 6-amino acid conjugates of 14-O-methyloxymorphone elicit antinociception after local administration, being more potent in inflammatory than in neuropathic pain. Opioid drugs with peripheral site of action can be an important target for the treatment of long lasting pain.

Published

2007

6. In vitro opioid activity profiles of 6-amino acid substituted derivatives of 14-O-methyloxymorphone.

Author

Spetea M, Friedmann T, Riba P, Schütz J, Wunder G, Langer T, Schmidhammer H, and Fürst S

Subjects

Analgesics, Opioid metabolism, Animals, Dose-Response Relationship, Drug, In Vitro Techniques, Male, Mice, Narcotic Antagonists metabolism, Narcotic Antagonists pharmacology, Oxymorphone metabolism, Protein Binding drug effects, Protein Binding physiology, Rats, Rats, Sprague-Dawley, Vas Deferens drug effects, Vas Deferens metabolism, Analgesics, Opioid chemistry, Analgesics, Opioid pharmacology, Oxymorphone chemistry, Oxymorphone pharmacology

Abstract

A series of 6-amino acid conjugates (glycine, alanine and phenylalanine) of the highly potent opioid analgesic 14-O-methyloxymorphone was developed in an effort to obtain agonists that would have potentially limited ability to cross the blood-brain barrier. Binding studies revealed that all derivatives displayed high affinities (0.77-2.58 nM) at the mu-opioid receptor in rat brain membranes. They were potent agonists in mouse vas deferens preparation (IC(50)=5.52-26.8 nM). While the alpha-amino acid epimers are favoured by mu-opioid receptors, the beta-epimers proved to have increased interaction with delta-sites. Only the beta-phenylalanine conjugate showed some preference for delta- over mu-opioid receptors and delta-opioid receptor agonist activity. The relatively high delta-opioid receptor affinity of this analogue was also predicted by molecular modelling studies. The newly developed ionizable derivatives could find clinical applications as potent analgesics without the adverse actions of centrally acting opioids.

Published

2004

7. 14-Methoxymetopon, a very potent mu-opioid receptor-selective analgesic with an unusual pharmacological profile.

Author

King MA, Su W, Nielan CL, Chang AH, Schütz J, Schmidhammer H, and Pasternak GW

Subjects

Animals, Dose-Response Relationship, Drug, Injections, Intraventricular, Male, Mice, Mice, Inbred ICR, Pain Measurement methods, Receptors, Opioid, mu agonists, Receptors, Opioid, mu antagonists & inhibitors, Analgesics pharmacology, Morphine Derivatives pharmacology, Pain Measurement drug effects, Receptors, Opioid, mu metabolism

Abstract

14-Methoxymetopon is a potent opioid analgesic. When given systemically, it is approximately 500-fold more active than morphine. However, this enhanced potency is markedly increased with either spinal or supraspinal administration, where its analgesic activity is more than a million-fold greater than morphine. It was mu-opioid receptor selective in binding assays and its analgesia was blocked only by mu-opioid receptor-selective antagonists. Yet, it had a different selectivity profile than either morphine or morphine-6beta-glucuronide. Unlike morphine, 14-methoxymetopon was antagonized by 3-O-methylnaltrexone, it was sensitive to antisense probes targeting exons 1, 2 and 8 of the opioid receptor gene and was inactive both spinally and supraspinally in CXBK mice. Although it retarded gastrointestinal transit, it displayed a ceiling effect with no dose lowering transit by more than 65%, in contrast to the complete inhibition of transit by morphine. These finding demonstrate that 14-methoxymetopon is a highly potent mu-opioid with a pharmacological profile distinct from that of the traditional mu-opioid morphine.

Published

2003

8. Mu-opioid receptor specific antagonist cyprodime: characterization by in vitro radioligand and [35S]GTPgammaS binding assays.

Author

Márki A, Monory K, Otvös F, Tóth G, Krassnig R, Schmidhammer H, Traynor JR, Roques BP, Maldonado R, and Borsodi A

Subjects

Animals, Binding, Competitive drug effects, Brain Chemistry drug effects, Guinea Pigs, In Vitro Techniques, Ligands, Membranes metabolism, Morphine pharmacology, Narcotics pharmacology, Radioligand Assay, Radiopharmaceuticals, Rats, Rats, Wistar, Sulfur Radioisotopes, Guanosine 5'-O-(3-Thiotriphosphate) pharmacology, Morphinans pharmacology, Narcotic Antagonists pharmacology, Receptors, Opioid, mu antagonists & inhibitors

Abstract

The use of compounds with high selectivity for each opioid receptor (mu, delta and kappa) is crucial for understanding the mechanisms of opioid actions. Until recently non-peptide mu-opioid receptor selective antagonists were not available. However, N-cyclopropylmethyl-4,14-dimethoxy-morphinan-6-one (cyprodime) has shown a very high selectivity for mu-opioid receptor in in vivo bioassays. This compound also exhibited a higher affinity for mu-opioid receptor than for delta- and kappa-opioid receptors in binding assays in brain membranes, although the degree of selectivity was lower than in in vitro bioassays. Cyprodime has recently been radiolabelled with tritium resulting in high specific radioactivity (36.1 Ci/mmol). We found in in vitro binding experiments that this radioligand bound with high affinity (K(d) 3. 8+/-0.18 nM) to membranes of rat brain affording a B(max) of 87. 1+/-4.83 fmol/mg. Competition studies using mu, delta and kappa tritiated specific ligands confirmed the selective labelling of cyprodime to a mu-opioid receptor population. The mu-opioid receptor selective agonist [D-Ala(2),N-MePhe(4),Gly(5)-ol]enkephalin (DAMGO) was readily displaced by cyprodime (K(i) values in the low nanomolar range) while the competition for delta- ([D-Pen(2), D-Pen(5)]enkephalin (DPDPE)) and kappa- (5alpha,7alpha, 8beta-(-)-N-methyl-N-[7-(1-pyrrolidinyl)-1-oxaspiro(4, 5)dec-8-yl]-benzene-acetamide (U69,593)) opioid receptor selective compounds was several orders of magnitude less. We also found that cyprodime inhibits morphine-stimulated [35S]GTPgammaS binding. The EC(50) value of morphine increased about 500-fold in the presence of 10 microM cyprodime. These findings clearly indicate that cyprodime is a useful selective antagonist for mu-opioid receptor characterization.

Published

1999

9. Highly potent novel opioid receptor agonist in the 14-alkoxymetopon series.

Author

Fürst Z, Búzás B, Friedmann T, Schmidhammer H, and Borsodi A

Subjects

Analgesics metabolism, Animals, Behavior, Animal drug effects, Binding Sites, Enkephalin, Ala(2)-MePhe(4)-Gly(5)-, Enkephalins metabolism, Enkephalins pharmacology, Female, Guinea Pigs, Male, Mice, Morphine Derivatives metabolism, Naloxone antagonists & inhibitors, Oxymorphone analogs & derivatives, Rats, Rats, Sprague-Dawley, Receptors, Opioid metabolism, Species Specificity, Substance-Related Disorders, Analgesics pharmacology, Morphine Derivatives pharmacology, Receptors, Opioid drug effects

Abstract

The newly synthesized 14-alkoxymetopon derivatives, 14-methoxymetopon, 14-ethoxymetopon, 14-methoxy-5-methyl-morphinone, exhibit high affinity for the naloxone binding sites in rat brain. A substantial decrease in affinity was observed, in the presence of NaCl indicating a high degree of agonist activity. All three 14-alkoxymetopon derivatives displayed high affinity for [3H][D-Ala2,(Me)Phe4,Gly-ol5]enkephalin ([3H]DAMGO) binding sites, much less potency toward delta sites and were the least effective at kappa sites. Isolated tissue studies using the guinea pig ileum preparation confirmed their high agonist potency. Following administration the new compounds produced naloxone reversible antinociceptive effects and were 130-300 times more potent than morphine in the acetic acid induced abdominal constriction model in the mouse, and the hot plate and tail flick tests in the rat. The compounds also produced dose-dependent muscle rigidity, and potentiated barbiturate-induced narcosis. The in vivo apparent pA2 values for naloxone against 14-ethoxymetopon and morphine were similar in analgesia, suggesting an interaction with the same (mu) receptor site. The dependence liability of 14-alkoxymetopon derivatives in the withdrawal jumping test was less pronounced than that of morphine in either rats or mice, similar to tolerance to the their analgesic action. It is concluded that the 14-alkoxymetopon derivatives studied are selective and potent agonists at mu opioid receptors, with reduced dependence liability.

Published

1993