The role of nitric oxide in the development of morphine tolerance in rat hippocampal slices

In the present study, we investigated the effects of a nitric oxide (NO) precursor, l-arginine, on the effect of different drugs, [ trans-3,4-dichloro- N-methyl- N-[2-(1-pyrrolidinyl)-cyclohexyl]-benzeneacetamide hydrochloride] (U-50,488, a κ-opioid receptor agonist); dPTyr(Me)AVP (a vasopressin rec...

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Bibliographic Details
Published in:European journal of pharmacology 1999-10, Vol.383 (2), p.129-135
Main Authors: Lue, Wei-Ming, Su, Mei-Tsu, Lin, Wei-Bin, Tao, Pao-Luh
Format: Article
Language:English
Subjects:
3,4-Dichloro-N-methyl-N-(2-(1-pyrrolidinyl)-cyclohexyl)-benzeneacetamide, (trans)-Isomer - pharmacology
3-Br-7-Nitroindazole
Animals
Antidiuretic Hormone Receptor Antagonists
Arginine - pharmacology
Arginine Vasopressin - analogs & derivatives
Arginine Vasopressin - pharmacology
Biological and medical sciences
Dizocilpine Maleate - pharmacology
Drug addictions
Drug Tolerance
Electrophysiology
Enzyme Inhibitors - pharmacology
Excitatory Amino Acid Antagonists - pharmacology
Hippocampus - drug effects
Hippocampus - metabolism
Male
Medical sciences
MK-801
Morphine
Morphine - pharmacology
N-methyl- d-aspartate (NMDA)
Narcotics - pharmacology
Nitric oxide (NO)
Nitric Oxide - metabolism
Nitric Oxide - physiology
Nitric Oxide Synthase - antagonists & inhibitors
Rats
Rats, Sprague-Dawley
Receptors, N-Methyl-D-Aspartate - antagonists & inhibitors
Receptors, Opioid, kappa - agonists
Receptors, Opioid, mu - agonists
Tolerance
Toxicology
U-50,488
Vasopressin
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Summary:In the present study, we investigated the effects of a nitric oxide (NO) precursor, l-arginine, on the effect of different drugs, [ trans-3,4-dichloro- N-methyl- N-[2-(1-pyrrolidinyl)-cyclohexyl]-benzeneacetamide hydrochloride] (U-50,488, a κ-opioid receptor agonist); dPTyr(Me)AVP (a vasopressin receptor antagonist); dizocilpine (MK-801, a N-methyl- d-aspartate (NMDA) receptor antagonist), to block the development of morphine tolerance or NO release in Sprague–Dawley rat hippocampal slices (450 μm). Slices were continuously superfused with artificial cerebrospinal fluid (ACSF) or drugs at 1 ml/min. Nichrome wire electrodes were placed in the Schaffer-collateral pathway and used to deliver biphasic 0.2-ms pulses of 5–30 V (0.033 Hz). A glass microelectrode was placed in the CA1 area to record population spikes. The amount of NO released in the superfusate was measured as nitrite formation. When the slices were superfused with 10 μM morphine, the amplitude of population spikes increased 200%–300% in 30–40 min. However, this effect of morphine decreased, i.e., tolerance developed, after continuous superfusion of morphine for 2–6 h. On the other hand, the nitrite level was increased about 250% of the control level through 6 h of morphine superfusion. Co-superfusion of l-arginine with morphine could further increase the nitrite level and also facilitate the development of morphine tolerance. On the other hand, 3-Br-7-nitroindazole (a neuronal NO synthase inhibitor) decreased the nitrite level significantly and blocked the development of morphine tolerance. When either U-50,488 (200 nM) or dPTyr(Me)AVP (500 pM) or MK-801 (500 pM) was co-superfused with morphine (10 μM), the development of morphine tolerance was blocked significantly and the nitrite level decreased to 100%–150% of the control level. l-arginine (500 nM) significantly reversed the effect of these drugs to block the development of morphine tolerance or to decrease the nitrite level through 6 h of superfusion. These data suggest that NO may play a key role in the development of morphine tolerance. Drugs which suppress the synthesis or release of NO would be expected to block the development of morphine tolerance.
ISSN:0014-2999
1879-0712
DOI:10.1016/S0014-2999(99)00561-0