Morphine preconditions Purkinje cells against cell death under in vitro simulated ischemia-reperfusion conditions

Morphine pretreatment via activation of delta1-opioid receptors induces cardioprotection. In this study, the authors determined whether morphine preconditioning induces ischemic tolerance in neurons. Cerebellar brain slices from adult Sprague-Dawley rats were incubated with morphine at 0.1-10 microM...

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Veröffentlicht in:	Anesthesiology (Philadelphia) 2004-03, Vol.100 (3), p.562-568
Hauptverfasser:	Lim, Young Jin, Zheng, Shuqiu, Zuo, Zhiyi
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Sprache:	eng
Schlagworte:	Anesthesia Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Animals Biological and medical sciences Cell Death - drug effects Cerebellum - pathology Dose-Response Relationship, Drug Electron Transport - drug effects Glucose - physiology Hypoxia - pathology In Vitro Techniques Ischemic Preconditioning Male Medical sciences Membrane Proteins - drug effects Membrane Proteins - metabolism Mitochondria - metabolism Morphine - pharmacology Narcotic Antagonists - pharmacology Narcotics - pharmacology Neuroprotective Agents Potassium Channels Purkinje Cells - drug effects Rats Rats, Sprague-Dawley Receptors, Opioid, delta - drug effects Reperfusion Injury - pathology
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description	Morphine pretreatment via activation of delta1-opioid receptors induces cardioprotection. In this study, the authors determined whether morphine preconditioning induces ischemic tolerance in neurons. Cerebellar brain slices from adult Sprague-Dawley rats were incubated with morphine at 0.1-10 microM in the presence or absence of various antagonists for 30 min. They were then kept in morphine- and antagonist-free buffer for 30 min before they were subjected to simulated ischemia (oxygen-glucose deprivation) for 20 min. After being recovered in oxygenated artificial cerebrospinal fluid for 5 h, they were fixed for morphologic examination to determine the percentage of undamaged Purkinje cells. The survival rate of Purkinje cells was significantly higher in slices preconditioned with morphine (> or = 0.3 microM) before the oxygen-glucose deprivation (57 +/- 4% at 0.3 microM morphine) than that of the oxygen-glucose deprivation alone (39 +/- 3%, P < 0.05). This morphine preconditioning-induced neuroprotection was abolished by naloxone, a non-type-selective opioid receptor antagonist, by naltrindole, a selective delta-opioid receptor antagonist, or by 7-benzylidenenaltrexone, a selective delta1-opioid receptor antagonist. However, the effects were not blocked by the mu-, kappa-, or delta2-opioid receptor antagonists, beta-funaltrexamine, nor-binaltorphimine, or naltriben, respectively. Morphine preconditioning-induced neuroprotection was partially blocked by the selective mitochondrial adenosine triphosphate-sensitive potassium channel antagonist, 5-hydroxydecanoate, or the mitochondrial electron transport inhibitor, myxothiazol. None of the inhibitors used in this study alone affected the simulated ischemia-induced neuronal death. These data suggest that morphine preconditioning is neuroprotective. This neuroprotection may be delta1-opioid receptor dependent and may involve mitochondrial adenosine triphosphate-sensitive potassium channel activation and free radical production. Because morphine is a commonly used analgesic, morphine preconditioning may be explored further for potential clinical use to reduce ischemic brain injury.
doi_str_mv	10.1097/00000542-200403000-00015
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In this study, the authors determined whether morphine preconditioning induces ischemic tolerance in neurons. Cerebellar brain slices from adult Sprague-Dawley rats were incubated with morphine at 0.1-10 microM in the presence or absence of various antagonists for 30 min. They were then kept in morphine- and antagonist-free buffer for 30 min before they were subjected to simulated ischemia (oxygen-glucose deprivation) for 20 min. After being recovered in oxygenated artificial cerebrospinal fluid for 5 h, they were fixed for morphologic examination to determine the percentage of undamaged Purkinje cells. The survival rate of Purkinje cells was significantly higher in slices preconditioned with morphine (> or = 0.3 microM) before the oxygen-glucose deprivation (57 +/- 4% at 0.3 microM morphine) than that of the oxygen-glucose deprivation alone (39 +/- 3%, P < 0.05). This morphine preconditioning-induced neuroprotection was abolished by naloxone, a non-type-selective opioid receptor antagonist, by naltrindole, a selective delta-opioid receptor antagonist, or by 7-benzylidenenaltrexone, a selective delta1-opioid receptor antagonist. However, the effects were not blocked by the mu-, kappa-, or delta2-opioid receptor antagonists, beta-funaltrexamine, nor-binaltorphimine, or naltriben, respectively. Morphine preconditioning-induced neuroprotection was partially blocked by the selective mitochondrial adenosine triphosphate-sensitive potassium channel antagonist, 5-hydroxydecanoate, or the mitochondrial electron transport inhibitor, myxothiazol. None of the inhibitors used in this study alone affected the simulated ischemia-induced neuronal death. These data suggest that morphine preconditioning is neuroprotective. This neuroprotection may be delta1-opioid receptor dependent and may involve mitochondrial adenosine triphosphate-sensitive potassium channel activation and free radical production. Because morphine is a commonly used analgesic, morphine preconditioning may be explored further for potential clinical use to reduce ischemic brain injury.</description><identifier>ISSN: 0003-3022</identifier><identifier>DOI: 10.1097/00000542-200403000-00015</identifier><identifier>PMID: 15108969</identifier><identifier>CODEN: ANESAV</identifier><language>eng</language><publisher>Hagerstown, MD: Lippincott</publisher><subject>Anesthesia ; Anesthesia. Intensive care medicine. Transfusions. 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In this study, the authors determined whether morphine preconditioning induces ischemic tolerance in neurons. Cerebellar brain slices from adult Sprague-Dawley rats were incubated with morphine at 0.1-10 microM in the presence or absence of various antagonists for 30 min. They were then kept in morphine- and antagonist-free buffer for 30 min before they were subjected to simulated ischemia (oxygen-glucose deprivation) for 20 min. After being recovered in oxygenated artificial cerebrospinal fluid for 5 h, they were fixed for morphologic examination to determine the percentage of undamaged Purkinje cells. The survival rate of Purkinje cells was significantly higher in slices preconditioned with morphine (> or = 0.3 microM) before the oxygen-glucose deprivation (57 +/- 4% at 0.3 microM morphine) than that of the oxygen-glucose deprivation alone (39 +/- 3%, P < 0.05). This morphine preconditioning-induced neuroprotection was abolished by naloxone, a non-type-selective opioid receptor antagonist, by naltrindole, a selective delta-opioid receptor antagonist, or by 7-benzylidenenaltrexone, a selective delta1-opioid receptor antagonist. However, the effects were not blocked by the mu-, kappa-, or delta2-opioid receptor antagonists, beta-funaltrexamine, nor-binaltorphimine, or naltriben, respectively. Morphine preconditioning-induced neuroprotection was partially blocked by the selective mitochondrial adenosine triphosphate-sensitive potassium channel antagonist, 5-hydroxydecanoate, or the mitochondrial electron transport inhibitor, myxothiazol. None of the inhibitors used in this study alone affected the simulated ischemia-induced neuronal death. These data suggest that morphine preconditioning is neuroprotective. This neuroprotection may be delta1-opioid receptor dependent and may involve mitochondrial adenosine triphosphate-sensitive potassium channel activation and free radical production. Because morphine is a commonly used analgesic, morphine preconditioning may be explored further for potential clinical use to reduce ischemic brain injury.</description><subject>Anesthesia</subject><subject>Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy</subject><subject>Animals</subject><subject>Biological and medical sciences</subject><subject>Cell Death - drug effects</subject><subject>Cerebellum - pathology</subject><subject>Dose-Response Relationship, Drug</subject><subject>Electron Transport - drug effects</subject><subject>Glucose - physiology</subject><subject>Hypoxia - pathology</subject><subject>In Vitro Techniques</subject><subject>Ischemic Preconditioning</subject><subject>Male</subject><subject>Medical sciences</subject><subject>Membrane Proteins - drug effects</subject><subject>Membrane Proteins - metabolism</subject><subject>Mitochondria - metabolism</subject><subject>Morphine - pharmacology</subject><subject>Narcotic Antagonists - pharmacology</subject><subject>Narcotics - pharmacology</subject><subject>Neuroprotective Agents</subject><subject>Potassium Channels</subject><subject>Purkinje Cells - drug effects</subject><subject>Rats</subject><subject>Rats, Sprague-Dawley</subject><subject>Receptors, Opioid, delta - drug effects</subject><subject>Reperfusion Injury - pathology</subject><issn>0003-3022</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2004</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpNkMtOwzAQRb0A0VL4BeQN7AJ2HMfOElW8pCJYwDpy7Al1SZzUTpD4e9wHlJFGoyuduTO6CGFKrikpxA3ZFM_SJCUkIyyKJDblR2gaJ0sYSdMJOg1hFaXgTJ6gCeWUyCIvpmj93Pl-aR3g3oPunLGD7VzAr6P_tG4FWEPTBKw-lHVh2CpsQA1LPDoDHluHv-zgOxxsOzZqAINt0EtorUo89ODrMURDfLA-Q8e1agKc7-cMvd_fvc0fk8XLw9P8dpHoTOZDAkQKk9e15rVOJa80cJYVomCgU14ZqTJBtTGQGSMUkVlWQM4FryjNq5pAwWboaufb-249QhjKNn4W_1cOujGUgsqcUSEiKHeg9l0IHuqy97ZV_rukpNxEXP5GXP5FXG4jjqsX-xtj1YI5LO7zjcDlHlBBq6b2ymkb_nE5Z6IQ7AcKrojp</recordid><startdate>20040301</startdate><enddate>20040301</enddate><creator>Lim, Young Jin</creator><creator>Zheng, Shuqiu</creator><creator>Zuo, Zhiyi</creator><general>Lippincott</general><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20040301</creationdate><title>Morphine preconditions Purkinje cells against cell death under in vitro simulated ischemia-reperfusion conditions</title><author>Lim, Young Jin ; Zheng, Shuqiu ; Zuo, Zhiyi</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c486t-e087d6ffc5fc285bce5349793ec25bd8a471cdde4dd7a08449e6575b116bf0e93</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2004</creationdate><topic>Anesthesia</topic><topic>Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy</topic><topic>Animals</topic><topic>Biological and medical sciences</topic><topic>Cell Death - drug effects</topic><topic>Cerebellum - pathology</topic><topic>Dose-Response Relationship, Drug</topic><topic>Electron Transport - drug effects</topic><topic>Glucose - physiology</topic><topic>Hypoxia - pathology</topic><topic>In Vitro Techniques</topic><topic>Ischemic Preconditioning</topic><topic>Male</topic><topic>Medical sciences</topic><topic>Membrane Proteins - drug effects</topic><topic>Membrane Proteins - metabolism</topic><topic>Mitochondria - metabolism</topic><topic>Morphine - pharmacology</topic><topic>Narcotic Antagonists - pharmacology</topic><topic>Narcotics - pharmacology</topic><topic>Neuroprotective Agents</topic><topic>Potassium Channels</topic><topic>Purkinje Cells - drug effects</topic><topic>Rats</topic><topic>Rats, Sprague-Dawley</topic><topic>Receptors, Opioid, delta - drug effects</topic><topic>Reperfusion Injury - pathology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Lim, Young Jin</creatorcontrib><creatorcontrib>Zheng, Shuqiu</creatorcontrib><creatorcontrib>Zuo, Zhiyi</creatorcontrib><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Anesthesiology (Philadelphia)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Lim, Young Jin</au><au>Zheng, Shuqiu</au><au>Zuo, Zhiyi</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Morphine preconditions Purkinje cells against cell death under in vitro simulated ischemia-reperfusion conditions</atitle><jtitle>Anesthesiology (Philadelphia)</jtitle><addtitle>Anesthesiology</addtitle><date>2004-03-01</date><risdate>2004</risdate><volume>100</volume><issue>3</issue><spage>562</spage><epage>568</epage><pages>562-568</pages><issn>0003-3022</issn><coden>ANESAV</coden><abstract>Morphine pretreatment via activation of delta1-opioid receptors induces cardioprotection. In this study, the authors determined whether morphine preconditioning induces ischemic tolerance in neurons. Cerebellar brain slices from adult Sprague-Dawley rats were incubated with morphine at 0.1-10 microM in the presence or absence of various antagonists for 30 min. They were then kept in morphine- and antagonist-free buffer for 30 min before they were subjected to simulated ischemia (oxygen-glucose deprivation) for 20 min. After being recovered in oxygenated artificial cerebrospinal fluid for 5 h, they were fixed for morphologic examination to determine the percentage of undamaged Purkinje cells. The survival rate of Purkinje cells was significantly higher in slices preconditioned with morphine (> or = 0.3 microM) before the oxygen-glucose deprivation (57 +/- 4% at 0.3 microM morphine) than that of the oxygen-glucose deprivation alone (39 +/- 3%, P < 0.05). This morphine preconditioning-induced neuroprotection was abolished by naloxone, a non-type-selective opioid receptor antagonist, by naltrindole, a selective delta-opioid receptor antagonist, or by 7-benzylidenenaltrexone, a selective delta1-opioid receptor antagonist. However, the effects were not blocked by the mu-, kappa-, or delta2-opioid receptor antagonists, beta-funaltrexamine, nor-binaltorphimine, or naltriben, respectively. Morphine preconditioning-induced neuroprotection was partially blocked by the selective mitochondrial adenosine triphosphate-sensitive potassium channel antagonist, 5-hydroxydecanoate, or the mitochondrial electron transport inhibitor, myxothiazol. None of the inhibitors used in this study alone affected the simulated ischemia-induced neuronal death. These data suggest that morphine preconditioning is neuroprotective. This neuroprotection may be delta1-opioid receptor dependent and may involve mitochondrial adenosine triphosphate-sensitive potassium channel activation and free radical production. Because morphine is a commonly used analgesic, morphine preconditioning may be explored further for potential clinical use to reduce ischemic brain injury.</abstract><cop>Hagerstown, MD</cop><pub>Lippincott</pub><pmid>15108969</pmid><doi>10.1097/00000542-200403000-00015</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Anesthesia Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Animals Biological and medical sciences Cell Death - drug effects Cerebellum - pathology Dose-Response Relationship, Drug Electron Transport - drug effects Glucose - physiology Hypoxia - pathology In Vitro Techniques Ischemic Preconditioning Male Medical sciences Membrane Proteins - drug effects Membrane Proteins - metabolism Mitochondria - metabolism Morphine - pharmacology Narcotic Antagonists - pharmacology Narcotics - pharmacology Neuroprotective Agents Potassium Channels Purkinje Cells - drug effects Rats Rats, Sprague-Dawley Receptors, Opioid, delta - drug effects Reperfusion Injury - pathology
title	Morphine preconditions Purkinje cells against cell death under in vitro simulated ischemia-reperfusion conditions
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