Pharmacological investigations of N-substituent variation in morphine and oxymorphone: opioid receptor binding, signaling and antinociceptive activity

Morphine and structurally related derivatives are highly effective analgesics, and the mainstay in the medical management of moderate to severe pain. Pharmacological actions of opioid analgesics are primarily mediated through agonism at the µ opioid peptide (MOP) receptor, a G protein-coupled recept...

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Veröffentlicht in:	PloS one 2014-06, Vol.9 (6), p.e99231-e99231
Hauptverfasser:	Ben Haddou, Tanila, Béni, Szabolcs, Hosztafi, Sándor, Malfacini, Davide, Calo, Girolamo, Schmidhammer, Helmut, Spetea, Mariana
Format:	Artikel
Sprache:	eng
Schlagworte:	Affinity Analgesics Analgesics - chemistry Analgesics - pharmacology Animals Biological properties Biology and Life Sciences Brain - drug effects Brain - metabolism Calcium Calcium (intracellular) Carbonyl groups Carbonyls Central nervous system depressants Chemical properties Chemistry Coupling (molecular) Derivatives Drug development Drugs G proteins Guinea Pigs Hydroxides Hydroxyl groups In Vitro Techniques Investigations Medicine and Health Sciences Membrane proteins Mice Mode of action Morphine Morphine - chemistry Morphine - pharmacology Narcotics Neurosciences Nitrogen Opioid receptors Oxymorphone - chemistry Oxymorphone - pharmacology Pain Pain perception Peptides Pharmaceuticals Pharmacology Pharmacy Proteins Radioligand Assay Rats Rats, Sprague-Dawley Receptors, Opioid - drug effects Signal Transduction - drug effects Signaling Structure-activity relationships Studies Variation
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description	Morphine and structurally related derivatives are highly effective analgesics, and the mainstay in the medical management of moderate to severe pain. Pharmacological actions of opioid analgesics are primarily mediated through agonism at the µ opioid peptide (MOP) receptor, a G protein-coupled receptor. Position 17 in morphine has been one of the most manipulated sites on the scaffold and intensive research has focused on replacements of the 17-methyl group with other substituents. Structural variations at the N-17 of the morphinan skeleton led to a diversity of molecules appraised as valuable and potential therapeutics and important research probes. Discovery of therapeutically useful morphine-like drugs has also targeted the C-6 hydroxyl group, with oxymorphone as one of the clinically relevant opioid analgesics, where a carbonyl instead of a hydroxyl group is present at position 6. Herein, we describe the effect of N-substituent variation in morphine and oxymorphone on in vitro and in vivo biological properties and the emerging structure-activity relationships. We show that the presence of a N-phenethyl group in position 17 is highly favorable in terms of improved affinity and selectivity at the MOP receptor, potent agonism and antinociceptive efficacy. The N-phenethyl derivatives of morphine and oxymorphone were very potent in stimulating G protein coupling and intracellular calcium release through the MOP receptor. In vivo, they were highly effective against acute thermal nociception in mice with marked increased antinociceptive potency compared to the lead molecules. It was also demonstrated that a carbonyl group at position 6 is preferable to a hydroxyl function in these N-phenethyl derivatives, enhancing MOP receptor affinity and agonist potency in vitro and in vivo. These results expand the understanding of the impact of different moieties at the morphinan nitrogen on ligand-receptor interaction, molecular mode of action and signaling, and may be instrumental to the development of new opioid therapeutics.
doi_str_mv	10.1371/journal.pone.0099231
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Pharmacological actions of opioid analgesics are primarily mediated through agonism at the µ opioid peptide (MOP) receptor, a G protein-coupled receptor. Position 17 in morphine has been one of the most manipulated sites on the scaffold and intensive research has focused on replacements of the 17-methyl group with other substituents. Structural variations at the N-17 of the morphinan skeleton led to a diversity of molecules appraised as valuable and potential therapeutics and important research probes. Discovery of therapeutically useful morphine-like drugs has also targeted the C-6 hydroxyl group, with oxymorphone as one of the clinically relevant opioid analgesics, where a carbonyl instead of a hydroxyl group is present at position 6. Herein, we describe the effect of N-substituent variation in morphine and oxymorphone on in vitro and in vivo biological properties and the emerging structure-activity relationships. We show that the presence of a N-phenethyl group in position 17 is highly favorable in terms of improved affinity and selectivity at the MOP receptor, potent agonism and antinociceptive efficacy. The N-phenethyl derivatives of morphine and oxymorphone were very potent in stimulating G protein coupling and intracellular calcium release through the MOP receptor. In vivo, they were highly effective against acute thermal nociception in mice with marked increased antinociceptive potency compared to the lead molecules. It was also demonstrated that a carbonyl group at position 6 is preferable to a hydroxyl function in these N-phenethyl derivatives, enhancing MOP receptor affinity and agonist potency in vitro and in vivo. These results expand the understanding of the impact of different moieties at the morphinan nitrogen on ligand-receptor interaction, molecular mode of action and signaling, and may be instrumental to the development of new opioid therapeutics.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0099231</identifier><identifier>PMID: 24919067</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Affinity ; Analgesics ; Analgesics - chemistry ; Analgesics - pharmacology ; Animals ; Biological properties ; Biology and Life Sciences ; Brain - drug effects ; Brain - metabolism ; Calcium ; Calcium (intracellular) ; Carbonyl groups ; Carbonyls ; Central nervous system depressants ; Chemical properties ; Chemistry ; Coupling (molecular) ; Derivatives ; Drug development ; Drugs ; G proteins ; Guinea Pigs ; Hydroxides ; Hydroxyl groups ; In Vitro Techniques ; Investigations ; Medicine and Health Sciences ; Membrane proteins ; Mice ; Mode of action ; Morphine ; Morphine - chemistry ; Morphine - pharmacology ; Narcotics ; Neurosciences ; Nitrogen ; Opioid receptors ; Oxymorphone - chemistry ; Oxymorphone - pharmacology ; Pain ; Pain perception ; Peptides ; Pharmaceuticals ; Pharmacology ; Pharmacy ; Proteins ; Radioligand Assay ; Rats ; Rats, Sprague-Dawley ; Receptors, Opioid - drug effects ; Signal Transduction - drug effects ; Signaling ; Structure-activity relationships ; Studies ; Variation</subject><ispartof>PloS one, 2014-06, Vol.9 (6), p.e99231-e99231</ispartof><rights>COPYRIGHT 2014 Public Library of Science</rights><rights>2014 Ben Haddou et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 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We show that the presence of a N-phenethyl group in position 17 is highly favorable in terms of improved affinity and selectivity at the MOP receptor, potent agonism and antinociceptive efficacy. The N-phenethyl derivatives of morphine and oxymorphone were very potent in stimulating G protein coupling and intracellular calcium release through the MOP receptor. In vivo, they were highly effective against acute thermal nociception in mice with marked increased antinociceptive potency compared to the lead molecules. It was also demonstrated that a carbonyl group at position 6 is preferable to a hydroxyl function in these N-phenethyl derivatives, enhancing MOP receptor affinity and agonist potency in vitro and in vivo. 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Academic</collection><collection>PubMed Central (Full Participant titles)</collection><collection>DOAJ Directory of Open Access Journals</collection><jtitle>PloS one</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Ben Haddou, Tanila</au><au>Béni, Szabolcs</au><au>Hosztafi, Sándor</au><au>Malfacini, Davide</au><au>Calo, Girolamo</au><au>Schmidhammer, Helmut</au><au>Spetea, Mariana</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Pharmacological investigations of N-substituent variation in morphine and oxymorphone: opioid receptor binding, signaling and antinociceptive activity</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2014-06-11</date><risdate>2014</risdate><volume>9</volume><issue>6</issue><spage>e99231</spage><epage>e99231</epage><pages>e99231-e99231</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Morphine and structurally related derivatives are highly effective analgesics, and the mainstay in the medical management of moderate to severe pain. Pharmacological actions of opioid analgesics are primarily mediated through agonism at the µ opioid peptide (MOP) receptor, a G protein-coupled receptor. Position 17 in morphine has been one of the most manipulated sites on the scaffold and intensive research has focused on replacements of the 17-methyl group with other substituents. Structural variations at the N-17 of the morphinan skeleton led to a diversity of molecules appraised as valuable and potential therapeutics and important research probes. Discovery of therapeutically useful morphine-like drugs has also targeted the C-6 hydroxyl group, with oxymorphone as one of the clinically relevant opioid analgesics, where a carbonyl instead of a hydroxyl group is present at position 6. Herein, we describe the effect of N-substituent variation in morphine and oxymorphone on in vitro and in vivo biological properties and the emerging structure-activity relationships. We show that the presence of a N-phenethyl group in position 17 is highly favorable in terms of improved affinity and selectivity at the MOP receptor, potent agonism and antinociceptive efficacy. The N-phenethyl derivatives of morphine and oxymorphone were very potent in stimulating G protein coupling and intracellular calcium release through the MOP receptor. In vivo, they were highly effective against acute thermal nociception in mice with marked increased antinociceptive potency compared to the lead molecules. It was also demonstrated that a carbonyl group at position 6 is preferable to a hydroxyl function in these N-phenethyl derivatives, enhancing MOP receptor affinity and agonist potency in vitro and in vivo. These results expand the understanding of the impact of different moieties at the morphinan nitrogen on ligand-receptor interaction, molecular mode of action and signaling, and may be instrumental to the development of new opioid therapeutics.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>24919067</pmid><doi>10.1371/journal.pone.0099231</doi><oa>free_for_read</oa></addata></record>
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identifier	ISSN: 1932-6203
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subjects	Affinity Analgesics Analgesics - chemistry Analgesics - pharmacology Animals Biological properties Biology and Life Sciences Brain - drug effects Brain - metabolism Calcium Calcium (intracellular) Carbonyl groups Carbonyls Central nervous system depressants Chemical properties Chemistry Coupling (molecular) Derivatives Drug development Drugs G proteins Guinea Pigs Hydroxides Hydroxyl groups In Vitro Techniques Investigations Medicine and Health Sciences Membrane proteins Mice Mode of action Morphine Morphine - chemistry Morphine - pharmacology Narcotics Neurosciences Nitrogen Opioid receptors Oxymorphone - chemistry Oxymorphone - pharmacology Pain Pain perception Peptides Pharmaceuticals Pharmacology Pharmacy Proteins Radioligand Assay Rats Rats, Sprague-Dawley Receptors, Opioid - drug effects Signal Transduction - drug effects Signaling Structure-activity relationships Studies Variation
title	Pharmacological investigations of N-substituent variation in morphine and oxymorphone: opioid receptor binding, signaling and antinociceptive activity
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