Nitrous oxide (N 2 O) gas is a widely used anesthetic adjunct in dentistry and medicine that is also commonly abused. Studies have shown that N 2 O alters the function of the N-methyl-Daspartate (NMDA), GABA A , opioid, and serotonin receptors among others. However, the receptors systems underlying the abuserelated central nervous system effects of N 2 O are unclear. The present study explores the receptor systems responsible for producing the discriminative stimulus effects of N 2 O. B6SJLF1/J male mice trained to discriminate 10 minutes of exposure to 60% N 2 O 1 40% oxygen versus 100% oxygen served as subjects. Both the high-affinity NMDA receptor channel blocker (1)
The abuse-related behavioral effects produced by nitrous oxide (N2O) gas have been suggested to be unique amongst abused inhalants. The drug discrimination paradigm in animals can be used to study subjective effects of drugs in humans and can be used to test this hypothesis. The goals of the present experiment were to establish a nitrous oxide discrimination in mice and compare its discriminative stimulus effects to those of abused volatile vapors and vapor anesthetics. Sixteen B6SJLF1/J mice were trained to discriminate 10 min of exposure to 60% N2O + 40% oxygen from 100% oxygen. The time course of N2O discrimination was examined followed by cross-substitution testing with abused vapors, volatile anesthetics, ethanol, D-amphetamine and 2-butanol. Mice acquired the N2O versus O2 discrimination in 40 days. N2O fully substituted for 10 min of exposure to 60% N2O in a concentration-dependent manner. Full substitution required 7 min of 60% N2O exposure but the offset of stimulus effects following the cessation of exposure was more rapid. The aromatic hydrocarbon toluene almost fully substituted for N2O. 1,1,1- trichloroethane (TCE), methoxyflurane, isoflurane and ethanol exhibited lesser degrees of substitution, and D-amphetamine and the odorant 2-butanol did not substitute at all for N2O. Given the varying degrees of incomplete substitution by test compounds, the discriminative stimulus properties of N2O and, perhaps, its subjective effects in humans are probably not unique. As none of the inhalants tested fully mimicked N2O, its overall effects may include one or more novel stimulus components.
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