• Title/Summary/Keyword: opioid receptors

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Electrophysiological Responses of ${\delta}-Opioid$ Receptor Expressed on HEK293 Cells

  • Kim, Jin-Hyuk;Koh, Young-Ik;Chin, He-Min;Lee, Yong-Sung;Cho, Yeul-Hee;Kim, Kee-Soon
    • The Korean Journal of Physiology
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    • v.29 no.2
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    • pp.301-307
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    • 1995
  • To explore electrophysiological properties of the ${\delta}-Opioid$ receptors artificially expressed in the mammalian cell, effect of an opioid agonist DPDPE $(1\;{\mu}M)$ on the voltage-sensitive outward currents was examined in the HEK293 (human embryonic kidney) cells transfected with ${\delta}-Opioid$ receptor cDNA cloned from NG-108-15 $(neuroblastoma\;{\times}\;glioma\;hybrid)$ cDNA library. Also studied were effects of 8-bromo-cyclic AMP and naloxone on DPDPE-induced changes in the voltage sensitive outward current. The voltage sensitive outward currents were recorded using perforated patch technique at room temperature. In the non-transformed HEK293 cells, DPDPE did not alter voltage sensitive outward current, indicating that no native ${\delta}-Opioid$ receptor had been developed. However, $(1\;{\mu}M)$ DPDPE remarkably increased the voltage sensitive outward current in the transformed HEK293 cells. The increment in voltage sensitive outward current peaked in $7{\sim}10\;minutes$ after DPDPE application, and the maximum DPDPE-activated outward current $(313.1{\pm}12.3\;pA)$ was recorded when the membrane potential was depolarized to +70mv. Following pretreatment of the transformed HEK293 cells with 1 mM 8-bromo-cyclic AMP, DPDPE failed to increase the voltage sensitive outward currents. On the other hand, naloxone completely abolished DPDPE-activated voltage sensitive outward current in the transformed HEK293 cells. The results of present study suggest that in the transformed HEK293 cells an activation of the ${\delta}-Opioid$ receptors by an opioid agonist DPDPE increases the voltage-sensitive potassium current as a result of decrement in cyclic AMP level.

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Neurochemical Alterations in Physical Dependence on Butorphanol

  • Ho, I. K.;Fan, Lir-Wan;Kim, Seong-Youl;Ma, Tangeng;Rockhold, Robin W.
    • Biomolecules & Therapeutics
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    • v.12 no.4
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    • pp.198-201
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    • 2004
  • This review focuses on finding neurochemical changes in physical dependence on butorphanol, a relatively potent mixed agonist-antagonist opioid analgesic agent that is five times more potent than morphine in antinociceptive effects. The chronic administration of butorphanol induces physical dependence. Withdrawal from such dependence can be reliably precipitated by administration of a narcotic antagonist, e.g., naloxone. Evidence for critical involvement of excitatory aminoacid (glutamate), opioid receptors, and phosphorylation of proteins in these phenomena is summarized.

Preparation of ${\delt}-Opioid$ Receptor-Sepcific Antibodies Using Molecular Cloned Genes

  • Kim, Ae-Young;Lee, Shee-Yong;Kim, Kyeon-Min
    • Archives of Pharmacal Research
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    • v.18 no.2
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    • pp.113-117
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    • 1995
  • We re-cloned mouse ${\delt}-Opioid$receptor from NG108-15 cells using RT-PCR, and confirmed it by restriction analysis and by sequencing the beginning and end part of the amplified DNA. When transiently expressed in COS-7 cells, cloned ${\delt}-Opioid$ receptor showed saturable and specific binding to $[^3H]$naloxone with very similar binding parameters to originally reported ones. To make antibodies specific for the ${\delt}-Opioid$ receptor, the carboxy tail of the receptor, which is unique to the ${\delt}-Opioid$ receptor compared with other opioid receptors, was expressed in bacteria as a ufsion proteinwith glutathione S-transferase. Purified fusion protein selective for ${\delt}-Opioid$ receptor when tested by western blotting using membrane proteins prepared from transfected COS-7 cells. Cloned ${\delt}-Opioid$ receptor andl antibodies specific for ${\delt}-Opioid$ receptor are going to be valuable tools for studying pharmacological actions of the ${\delt}-Opioid$ receptor and morphine dependence.

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Regulation of $[^3H]Norepinephrine$ Release by Opioids in Human Cerebral Cortex

  • Woo, Ran-Sook;Shin, Byoung-Soo;Kim, Chul-Jin;Shin, Min-Soo;Jeong, Min-Suk;Zhao, Rong-Jie;Kim, Kee-Won
    • The Korean Journal of Physiology and Pharmacology
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    • v.7 no.1
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    • pp.1-3
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    • 2003
  • To investigate the receptors mediating the regulation of norepinephrine (NE) release in human cerebral cortex slices, we examined the effects of opioid agonists for ${\mu}$-, ${\delta}$-, and ${\kappa}$-receptors on the high potassium (15 mM)-evoked release of [$^3H$]NE. [$^3H$]NE release induced by high potassium was calcium-dependent and tetrodotoxin-sensitive. [$D-Pen^2$, $D-Pen^5$]enkephalin (DPDPE) and deltorphin II (Delt II) inhibited the stimulated release of norepinephrine in a dose-dependent manner. However, Tyr-D-Ala-Gly-(Me)Phe-Gly-ol and U69,593 did not influence the NE release. Inhibitory effect of DPDPE and Delt-II was antagonized by naloxone, naltrindole, 7-benzylidenaltrexone and naltriben. These results suggest that both ${\delta}_1$ and ${\delta}_2$ receptors are involved in regulation of NE release in human cerebral cortex.

Pharmacological Action of Panax Ginseng on the Behavioral Toxicities Induced by Psychotropic Agents

  • Kim Hyoung-Chun;Shin Eun-Joo;Jang Choon-Gon;Lee Myung-Koo;Eun Jae-Soon;Hong Jin-Tae;Oh Ki-Wan
    • Archives of Pharmacal Research
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    • v.28 no.9
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    • pp.995-1001
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    • 2005
  • Morphine-induced analgesia has been shown to be antagonized by ginseng total saponins (GTS), which also inhibit the development of analgesic tolerance to and physical dependence on morphine. GTS is involved in both of these processes by inhibiting morphine-6-dehydrogenase, which catalyzes the synthesis of morphinone from morphine, and by increasing the level of hepatic glutathione, which participates in the toxicity response. Thus, the dual actions of ginseng are associated with the detoxification of morphine. In addition, the inhibitory or facilitated effects of GTS on electrically evoked contractions in guinea pig ileum (I-L-receptors) and mouse vas deferens $(\delta-receptors)$ are not mediated through opioid receptors, suggesting the involvement of non-opioid mechanisms. GTS also attenuates hyperactivity, reverse tolerance (behavioral sensitization), and conditioned place preference induced by psychotropic agents, such as methamphetamine, cocaine, and morphine. These effects of GTS may be attributed to complex pharmacological actions between dopamine receptors and a serotonergic/adenosine $A_{2A}1\delta-opioid$ receptor complex. Ginsenosides also attenuate the morphine-induced cAMP signaling pathway. Together, the results suggest that GTS may be useful in the prevention and therapy of the behavioral side effects induced by psychotropic agents.

Effects of Ginseng Total Saponin on [3H]DAGO Bindings of Opioid μ-Receptors

  • Oh, Ki-Wan;Lim, Hwa-Kyung;Park, Cheol-Beum;Shin, Im-Chul;Hong, Jin-Tae
    • Journal of Ginseng Research
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    • v.26 no.4
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    • pp.187-190
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    • 2002
  • Crude synaptic membrane fractions from the frontal cortex, striatum, brain stem and whole brain of rat were prepared to assay the effects of ginseng total saponin (GTS) on [$^3$H]DAGO bindings of the opioid $\mu$-receptors. Scatchard plots analysis binding data demonstrated that GTS (0.1 mg/ml) decreased the affinity of specific [$^3$H]DAGO bindings without changes in B$\_$max/ in the frontal cortex and striatum. On the other hand, GTS did not affect the [$^3$H]DAGO bindings iii the brain stem and whole brain. These results suggest that the regulation of [$^3$H]DAGO bindings by GTS may play roles in the change of the pharmacological responses of $\mu$-opioids.

Differential actions of intracerebroventricular (ICV) opioid receptor agonists on the activity of dorsal horn neurons (DHN) in the cat spinal cord

  • 오우택;문태상;하태길;고광호
    • Proceedings of the Korean Society of Applied Pharmacology
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    • 1994.04a
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    • pp.303-303
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    • 1994
  • ICV infusion of morphine (MOR) produces strong analgesia in man and animals. The analgesic effect is thought to be mediated by the centrifugal inhibtory control, But neural mechanisms of the analgesic effect of ICV morphine are not well understood. For example, in the previous studies, ICV morphine does not inhibit nociceptive transmission in the spinal cord. On the contrary, ICV MOR often excites activity of dorsal horn neuron in the spinal cord. In the present study, we found that ICV MOR had dust actions on activity of dorsal horn neuron that it produced both inhibition and excitation of dorsal horn neurons. Since MOR exerts i Is action via three different types of opioid receptors, we further sought to investigate if there are differential effects of opioid receptor agonists on dorsal horn neurons when administered ICV.

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DELTA OPIOID ANALGESICS

  • Burks, Thomas F.
    • Proceedings of the Korean Society of Applied Pharmacology
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    • 1994.04a
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    • pp.50-62
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    • 1994
  • Opium, morphine and rotated natural and synthetic opiates have been used since antiquity, and to the present, for the relief of moderate and severe pain. Morphine and pharmacologically related drugs, however, produced an array of undesired or dangerous side effect that limit their use as analgesics. Prominent among the limiting side effects are constipation, respiratory depression, release of prolactin, and liability for the production of drug dependence. It was our aim to develop, if possible, a drug or class of drugs with analgesic activity similar to that of morphine, but without the serious side effects associated with morphine. Our overall strategy was to take advantage of advancing knowledge concerning multiple types of opioid receptors, to develop ligands selective for the delta type receptors, to determine whether delta receptor agonists offer advantages over mu agonists, then to design compounds with pharmacokinetic properties compatible with practical therapeutic application. All but the last of these objectives have been realized.

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Effects of Opioid Pure Agonists on the Excitibility of Frog Sciatic Nerve Fibers

  • Lee, Jong-Hwa;Frank, George-B.
    • Archives of Pharmacal Research
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    • v.16 no.2
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    • pp.83-88
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    • 1993
  • opioid pure agonists, morphine, meperidine and methadone, were used to investigate the effect on the opioid receptor of fron sciatic nerve fibers using sucrose gap apparatus. When applied extracellularly by perfusion, morphine, methadone and meperidine significantly depressed the amplitude of the action potential in frog sciatic nerve fibers as a dose-dependent $(10^{-10}\;M-10^{-2}\;M)$ manner. The depression with morphine or methadone was partially antagonized by the simultaueous treatment with a lower $(10^{-10}\;M-10^{-8}\;M)$ concentration of naloxone, but that of meperidine was not blocked. When the three opioid agonists were applied intracellularly by placing it in a compartment with a cut end of the sciatic nerve fibers, all of themn depressed the amplitude of the action potentials by similar potency, and these reductions significantly blocked by pretreatment of lower concentration $(10^{-10}\;M-10^{-8}M)$ of naloxone. These results support the previous findings by other workers that the stereospecific opioid receptors of this preparation are located on or near the intracellular opening of the sodium channels which are sensitive to naloxone.

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