Mu Opioid Splice Variant MOR-1K Contributes to the Development of Opioid-Induced Hyperalgesia

A subset of the population receiving opioids for the treatment of acute and chronic clinical pain develops a paradoxical increase in pain sensitivity known as opioid-induced hyperalgesia. Given that opioid analgesics are one of few treatments available against clinical pain, it is critical to determ...

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Veröffentlicht in:	PloS one 2015-08, Vol.10 (8), p.e0135711
Hauptverfasser:	Oladosu, Folabomi A, Conrad, Matthew S, O'Buckley, Sandra C, Rashid, Naim U, Slade, Gary D, Nackley, Andrea G
Format:	Artikel
Sprache:	eng
Schlagworte:	Alternative Splicing Analgesia Analgesics Analgesics, Opioid - administration & dosage Analgesics, Opioid - adverse effects Analgesics, Opioid - pharmacology Anesthesiology Animals Correlation analysis Disease Models, Animal Female Gene expression Gene Expression Regulation - drug effects Genetic Variation House mouse Humans Hyperalgesia Hyperalgesia - chemically induced Hyperalgesia - genetics Kinases Male Mice Molecular chains Molecular modelling Morphine Morphine - administration & dosage Morphine - adverse effects Morphine - pharmacology Narcotics Opioid receptors (type mu) Pain Pain perception Pain sensitivity Proteins Receptors, Opioid, mu - genetics Rodents Signaling siRNA Studies Thermal stimuli
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description	A subset of the population receiving opioids for the treatment of acute and chronic clinical pain develops a paradoxical increase in pain sensitivity known as opioid-induced hyperalgesia. Given that opioid analgesics are one of few treatments available against clinical pain, it is critical to determine the key molecular mechanisms that drive opioid-induced hyperalgesia in order to reduce its prevalence. Recent evidence implicates a splice variant of the mu opioid receptor known as MOR-1K in the emergence of opioid-induced hyperalgesia. Results from human genetic association and cell signaling studies demonstrate that MOR-1K contributes to decreased opioid analgesic responses and produces increased cellular activity via Gs signaling. Here, we conducted the first study to directly test the role of MOR-1K in opioid-induced hyperalgesia. In order to examine the role of MOR-1K in opioid-induced hyperalgesia, we first assessed pain responses to mechanical and thermal stimuli prior to, during, and following chronic morphine administration. Results show that genetically diverse mouse strains (C57BL/6J, 129S6, and CXB7/ByJ) exhibited different morphine response profiles with corresponding changes in MOR-1K gene expression patterns. The 129S6 mice exhibited an analgesic response correlating to a measured decrease in MOR-1K gene expression levels, while CXB7/ByJ mice exhibited a hyperalgesic response correlating to a measured increase in MOR-1K gene expression levels. Furthermore, knockdown of MOR-1K in CXB7/ByJ mice via chronic intrathecal siRNA administration not only prevented the development of opioid-induced hyperalgesia, but also unmasked morphine analgesia. These findings suggest that MOR-1K is likely a necessary contributor to the development of opioid-induced hyperalgesia. With further research, MOR-1K could be exploited as a target for antagonists that reduce or prevent opioid-induced hyperalgesia.
doi_str_mv	10.1371/journal.pone.0135711
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Given that opioid analgesics are one of few treatments available against clinical pain, it is critical to determine the key molecular mechanisms that drive opioid-induced hyperalgesia in order to reduce its prevalence. Recent evidence implicates a splice variant of the mu opioid receptor known as MOR-1K in the emergence of opioid-induced hyperalgesia. Results from human genetic association and cell signaling studies demonstrate that MOR-1K contributes to decreased opioid analgesic responses and produces increased cellular activity via Gs signaling. Here, we conducted the first study to directly test the role of MOR-1K in opioid-induced hyperalgesia. In order to examine the role of MOR-1K in opioid-induced hyperalgesia, we first assessed pain responses to mechanical and thermal stimuli prior to, during, and following chronic morphine administration. Results show that genetically diverse mouse strains (C57BL/6J, 129S6, and CXB7/ByJ) exhibited different morphine response profiles with corresponding changes in MOR-1K gene expression patterns. The 129S6 mice exhibited an analgesic response correlating to a measured decrease in MOR-1K gene expression levels, while CXB7/ByJ mice exhibited a hyperalgesic response correlating to a measured increase in MOR-1K gene expression levels. Furthermore, knockdown of MOR-1K in CXB7/ByJ mice via chronic intrathecal siRNA administration not only prevented the development of opioid-induced hyperalgesia, but also unmasked morphine analgesia. These findings suggest that MOR-1K is likely a necessary contributor to the development of opioid-induced hyperalgesia. 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Given that opioid analgesics are one of few treatments available against clinical pain, it is critical to determine the key molecular mechanisms that drive opioid-induced hyperalgesia in order to reduce its prevalence. Recent evidence implicates a splice variant of the mu opioid receptor known as MOR-1K in the emergence of opioid-induced hyperalgesia. Results from human genetic association and cell signaling studies demonstrate that MOR-1K contributes to decreased opioid analgesic responses and produces increased cellular activity via Gs signaling. Here, we conducted the first study to directly test the role of MOR-1K in opioid-induced hyperalgesia. In order to examine the role of MOR-1K in opioid-induced hyperalgesia, we first assessed pain responses to mechanical and thermal stimuli prior to, during, and following chronic morphine administration. Results show that genetically diverse mouse strains (C57BL/6J, 129S6, and CXB7/ByJ) exhibited different morphine response profiles with corresponding changes in MOR-1K gene expression patterns. The 129S6 mice exhibited an analgesic response correlating to a measured decrease in MOR-1K gene expression levels, while CXB7/ByJ mice exhibited a hyperalgesic response correlating to a measured increase in MOR-1K gene expression levels. Furthermore, knockdown of MOR-1K in CXB7/ByJ mice via chronic intrathecal siRNA administration not only prevented the development of opioid-induced hyperalgesia, but also unmasked morphine analgesia. These findings suggest that MOR-1K is likely a necessary contributor to the development of opioid-induced hyperalgesia. With further research, MOR-1K could be exploited as a target for antagonists that reduce or prevent opioid-induced hyperalgesia.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>26270813</pmid><doi>10.1371/journal.pone.0135711</doi><oa>free_for_read</oa></addata></record>
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subjects	Alternative Splicing Analgesia Analgesics Analgesics, Opioid - administration & dosage Analgesics, Opioid - adverse effects Analgesics, Opioid - pharmacology Anesthesiology Animals Correlation analysis Disease Models, Animal Female Gene expression Gene Expression Regulation - drug effects Genetic Variation House mouse Humans Hyperalgesia Hyperalgesia - chemically induced Hyperalgesia - genetics Kinases Male Mice Molecular chains Molecular modelling Morphine Morphine - administration & dosage Morphine - adverse effects Morphine - pharmacology Narcotics Opioid receptors (type mu) Pain Pain perception Pain sensitivity Proteins Receptors, Opioid, mu - genetics Rodents Signaling siRNA Studies Thermal stimuli
title	Mu Opioid Splice Variant MOR-1K Contributes to the Development of Opioid-Induced Hyperalgesia
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