Changes in ribonuclease in the central nervous system of mice during morphine dependence development, withdrawal and naloxone administration

Ribonuclease has been studied in the whole brain homogenate of mice after a single dose of morphine (10 mg/kg), during the development of tolerance and dependence, during the course of withdrawal and naloxone administration. The enzyme increased dose dependently following the administration of morphine. Withdrawal caused a sudden fall in the enzyme with partial recovery by the 6th day of abstinence. Naloxone injections in normal, tolerant, dependent and deprived animals caused a reduction in the enzyme level. The morphine-induced increase in enzyme activity is suggested to be in direct correlation with a reduction in protein synthesis which can be ascribed to a disturbance of the translation processes.     

Fluctuations of acetylcholinesterase in the mouse spinal cord and in vivo sodium effect during the development of morphine tolerance,dependence, and withdrawal

Tolerance to and physical dependence on morphine were produced and assessed in Swiss inbred albino mice by giving morphine sulphate (s.c.) three times a day for a period of 15 days in an increasing dose of 10 mg/kg every 24 hours. Physical dependence was assessed taking naloxone induced jumping as well as weight loss during normal withdrawal into consideration. The effect of sodium ions in the potency of naloxone in antagonizing morphine's effect was also analyzed. The spinal cord was assayed for acetylcholinesterase employing both biochemical and histochemical parameters. It was found that the amount of the enzyme increased with the development of tolerance but the amount decreased as the animals became physically dependent. However, the values were significantly above the control. Administration of naloxone brought about a sudden and significant fall in the level of the enzyme. Normal withdrawal too was characterized by a weak activity of the enzyme. It has been found that sodium ions can influence naloxone antagonism in an in vivo system.     

Inhibition of the morphine withdrawal syndrome by a nitric oxide synthase inhibitor,NG-nitro-L-arginine methyl ester

The hypothesis that an arginine-nitric oxide (NO) synthase-NO system mediates the morphine abstinence syndrome was tested in adult male rats implanted subcutaneosly for 3 days with one morphine (75 mg) pellet followed by naloxone-precipitated withdrawal (0.5 mg/kg). Injection with a NO synthase inhibitor, N^G-nitro-L-arginine methyl ester (NAME, 100 mg/kg subcutaneous), shortly before naloxone-induced withdrawal significantly inhibited abstinence signs by 25–80%. Continuous infusion of NAME via subcutaneous osmotic pumps during the development of morphine physical dependence and during naloxone-precipitated withdrawal also inhibited morphine abstinence signs. In addition, treatment with isosorbide dinitrate, a NO donor, induced a quasi morphine-abstinence syndrome (QMAS) that was significantly suppressed by implantation of a morphine pellet 3 days before isosorbide dinitrate treatment. These results indicate that NO mediates part of the expression of the morphine abstinence syndrome.     

Morphine dependence is associated with changes in neuropeptide S receptor expression and function in rat brain

Neuropeptide S (NPS) is a newly identified ligand for the previously discovered G-protein coupled receptor 154 now named NPSR. Recently, it has been found that NPSR gene expression is altered during ethanol withdrawal. In this study we tried to elucidate if NPSR gene expression is modified in response to morphine withdrawal and its protracted abstinence. To induce opioid dependence Wistar rats were treated for 7 days with morphine. Twelve hours and 7 days after the last morphine administration brains were removed and the expression of NPSR mRNA was analyzed by in situ hybridization (ISH). Successful induction of opioid dependence was confirmed by the naloxone-precipitated withdrawal test 2 h after the last morphine administration. Moreover, 7 days after the last morphine dose animals were checked for signs of anxiety and for intracerebroventricular (ICV) NPS (0.3 and 1.0 nmol) induced anxiolytic effects by elevated plus maze (EPM). Results showed that in morphine treated rats strong somatic signs of naloxone-precipitated withdrawal occurred. ISH data revealed changes in NPSR gene expression in the ventral tegmental area as well as in the basolateral amygdaloid and bed nucleus of stria terminalis at 12 h and 7 days into abstinence, respectively. At 7 days into abstinence post dependent animals showed higher levels of anxiety than controls which were significantly attenuated by NPS. These results demonstrated that morphine dependence induction led to (i) changes in NPSR mRNA expression; (ii) increased anxiety; and (iii) more potent anxiolytic-like effect of NPS.     

The role of T-type calcium channels in morphine analgesia,development of antinociceptive tolerance and dependence to morphine,and morphine abstinence syndrome

Involvement of T-type voltage dependent Ca2+ channels (VDCCs) on morphine antinociception, in the development of tolerance and dependence to morphine, and naloxone-precipitated abstinence syndrome in morphine dependent mice was examined by using mibefradil, a T-type VDCCs blocker. Mice were rendered tolerant and dependent on morphine by subcutaneous (s.c.) implantation of a morphine pellet containing 75 mg of morphine base for 72 hr. The tail-flick test was used to assess the nociceptive threshold. Coadministration of acute mibefradil (10 mg/kg, i.p.) with morphine enhanced the antinociceptive effects of acute morphine. Repeated mibefradil administration (10 mg/kg, i.p., just before, 24 and 48 hr after morphine pellet implantation) completely blocked the development of tolerance to the antinociceptive effect of morphine and even by this effect reached supersensitivity to morphine. However, repeated mibefradil treatment did not alter the development of dependence to morphine assessed by the A(50) values of naloxone (s.c.) required to precipitate withdrawal jumping 72 hr after morphine pellet. But, acute mibefradil (10, 30, and 50 mg/kg, i.p.) dose dependently decreased the expression of morphine abstinence syndrome when given directly 30 min prior to naloxone (0,05 mg/kg, s.c.) 72 hr after morphine pellet. These results indicate a critical role of T-type VDCCs in morphine antinociception, the development of tolerance to the antinociceptive effects of morphine and in morphine abstinence syndrome.     

Ethanol suppression of naloxone-induced withdrawal in morphine-dependent rats

The technique of morphine pellet implantation was used to produce physical dependence on morphine in male rats. The number of “wet dog” shakes occurring within a period of 30 minutes during naloxone-precipitated (1.0 mg/kg, s.c.) withdrawal in four-day morphine implanted rats was determined after either acute or chronic treatment with ethanol. An acute dose of ethanol administered prior to withdrawal had no significant effect on the withdrawal response whereas chronic administration of ethanol during the development of dependence on morphine significantly suppressed the naloxone-precipitated withdrawal response to 44–57 percent of the control response. Analysis of brain and plasma for morphine concentration four days following dependence development showed no significant differences between morphine controls and those animals treated with both morphine and ethanol. Pentobarbital, another central nervous system depressant, demonstrated no effect on the withdrawal response, whether administered acutely or chronically during the development of dependence.     

Finasteride, a 5alpha-reductase inhibitor, potentiates antinociceptive effects of morphine, prevents the development of morphine tolerance and attenuates abstinence behavior in the rat

It has been shown that morphine increases 5alpha-reductase enzyme activity in the rat central nervous system; however importance of this finding on morphine analgesia, tolerance and dependence has not been reported. In the present study, we investigated inhibition of 5alpha-reductase enzyme on morphine effects using finasteride. To determine whether the 5alpha-reductase enzyme interact with morphine analgesia, finasteride (5 mg/kg, i.p.) was administrated with morphine (5 and 7 mg/kg, i.p.). The tail-flick test was used to assess the nociceptive threshold, before and 15, 30, 45, 60 and 90 min after drug administration. In tolerance experiments, morphine 20 mg/kg was injected i.p., twice daily for 4 days. The development and expression of dependence were assessed in the naloxone precipitation test 5 days after the morphine (20-30 mg/kg, i.p.) administration. We found that finasteride could potentiate the antinociceptive effect of morphine. In addition, chronic finasteride administration effectively blocked development of tolerance and dependence to morphine. Following chronic morphine administration, single dose injection of finasteride failed to reverse tolerance but prevented naloxone precipitate withdrawal syndrome. Therefore, it was concluded that there is a functional relationship between 5alpha-reductase enzyme and morphine.     

Expression of BDNF and TrkB Phosphorylation in the Rat Frontal Cortex During Morphine Withdrawal are NO Dependent

Nitric oxide (NO) mediates pharmacological effects of opiates including dependence and abstinence. Modulation of NO synthesis during the induction phase of morphine dependence affects manifestations of morphine withdrawal syndrome, though little is known about mechanisms underlying this phenomenon. Neurotrophic and growth factors are involved in neuronal adaptation during opiate dependence. NO-dependent modulation of morphine dependence may be mediated by changes in expression and activity of neurotrophic and/or growth factors in the brain. Here, we studied the effects of NO synthesis inhibition during the induction phase of morphine dependence on the expression of brain-derived neurotrophic factor (BDNF), glial-derived neurotrophic factor (GDNF), nerve growth factor (NGF), and insulin-like growth factor 1 (IGF1) as well as their receptors in rat brain regions after spontaneous morphine withdrawal in dependent animals. Morphine dependence in rats was induced within 6 days by 12 injections of morphine in increasing doses (10–100 mg/kg), and NO synthase inhibitor L-N^G-nitroarginine methyl ester (L-NAME) (10 mg/kg) was given 1 h before each morphine injection. The expression of the BDNF, GDNF, NGF, IGF1, and their receptors in the frontal cortex, striatum, hippocampus, and midbrain was assessed 40 h after morphine withdrawal. L-NAME treatment during morphine intoxication resulted in an aggravation of the spontaneous morphine withdrawal severity. Morphine withdrawal was accompanied by upregulation of BDNF, IGF1, and their receptors TrkB and IGF1R, respectively, on the mRNA level in the frontal cortex, and only BDNF in hippocampus and midbrain. L-NAME administration during morphine intoxication decreased abstinence-induced upregulation of these mRNAs in the frontal cortex, hippocampus and midbrain. L-NAME prevented from abstinence-induced elevation of mature but not pro-form of BDNF polypeptide in the frontal cortex. While morphine abstinence did not affect TrkB protein levels as well as its phosphorylation status, inhibition of NO synthesis decreased levels of phosphorylated TrkB after withdrawal. Thus, NO signaling during induction of dependence may be involved in the mechanisms of BDNF expression and processing at abstinence, thereby affecting signaling through TrkB in the frontal cortex.     

Kratom Alkaloids,Natural and Semi-Synthetic,Show Less Physical Dependence and Ameliorate Opioid Withdrawal

Chronic administration of opioids produces physical dependence and opioid-induced hyperalgesia. Users claim the Thai traditional tea “kratom” and component alkaloid mitragynine ameliorate opioid withdrawal without increased sensitivity to pain. Testing these claims, we assessed the combined kratom alkaloid extract (KAE) and two individual alkaloids, mitragynine (MG) and the analog mitragynine pseudoindoxyl (MP), evaluating their ability to produce physical dependence and induce hyperalgesia after chronic administration, and as treatments for withdrawal in morphine-dependent subjects. C57BL/6J mice (n?=?10/drug) were administered repeated saline, or graded, escalating doses of morphine (intraperitoneal; i.p.), kratom alkaloid extract (orally, p.o.), mitragynine (p.o.), or MP (subcutaneously, s.c.) for 5 days. Mice treated chronically with morphine, KAE, or mitragynine demonstrated significant drug-induced hyperalgesia by day 5 in a 48 °C warm-water tail-withdrawal test. Mice were then administered naloxone (10 mg/kg, s.c.) and tested for opioid withdrawal signs. Kratom alkaloid extract and the two individual alkaloids demonstrated significantly fewer naloxone-precipitated withdrawal signs than morphine-treated mice. Additional C57BL/6J mice made physically dependent on morphine were then used to test the therapeutic potential of combined KAE, mitragynine, or MP given twice daily over the next 3 days at either a fixed dose or in graded, tapering descending doses. When administered naloxone, mice treated with KAE, mitragynine, or MP under either regimen demonstrated significantly fewer signs of precipitated withdrawal than control mice that continued to receive morphine. In conclusion, while retaining some liabilities, kratom, mitragynine, and mitragynine pseudoindoxyl produced significantly less physical dependence and ameliorated precipitated withdrawal in morphine-dependent animals, suggesting some clinical value.

     

Pharmacological manipulation of gamma-aminobutyric acid (GABA) in morphine analgesia,tolerance and physical dependence

The findings from our laboratory indicated that pharmacological manipulations of GABA system modified morphine analgesia, tolerance and physical dependence. Elevating brain levels of GABA by slowing its destruction with aminooxyacetic acid not only antagonized the analgesic action of morphine in both non-tolerant and tolerant mice, but also enhanced the development of tolerance and physical dependence. On the other hand, blockade of postsynaptic sites of GABA receptors by bicuculline resulted in an inhibition of tolerance and dependence development. Administration of 2,4-diaminobutyric acid, an inhibitor of GABA uptake in the neurons, antagonized morphine analgesia in both non-tolerant and tolerant mice. However, it did not modify naloxone precipitated withdrawal jumping. On the contrary, β-alanine, an inhibitor of the GABA uptake process in glial cells, potentiated naloxone precipitated withdrawal jumping in morphine dependent mice, but it had no effect on morphine antinociception in both non-tolerant and tolerant mice.     

Reduced tolerance to morphine thermoregulatory effects in senescent rats

Age-related differences in the thermoregulatory response to morphine have been shown in rats. To determine if these age-related differences would be reflected in the acquisition of tolerance, we studied morphine tolerance induced by either a single morphine dose or implantation of a morphine pellet. precipitated withdrawal was also analyzed by inducing withdrawal with naloxone in morphine-pelleted rats. Senescent (26 or 27 month old), mature (10 or 11 month old) and young (3 or 4 month old) male Fischer 344 rats were restrained and changes in rectal temperature were monitored for six hours after morphine administration. Only mature and young rats exhibited increased hyperthermic responses to a second low dose of morphine (5 mg/kg s.c.). Only young rats became tolerant after a single higher morphine dose (25 mg/kg s.c.). All age groups showed tolerance three days after morphine pellet implantation. Hypothermia was equivalent in all age groups when withdrawal was induced by naloxone in morphine-pelleted rats. These results indicate that older rats were more resistant to the acquisition of tolerance to the thermic effects of morphine; however; with continued morphine treatment, rats became tolerant regardless of age.     

Suppression of GABA-induced abstinence behaviour in naive rats by morphine and bicuculline.

Intraperitoneal administration of n-dipropylacetate (DPA) to naive rats produced abstinence behaviour including shaking, digging, hunchback posture, piloerection and ptosis during 15 min and increased motor activity considerably. Treatment with a subconvulsive dose of the GABA antagonist bicuculline suppressed this DPA-induced abstinence behaviour, indicating that GABA was increased at receptor sites. Also morphine in a low dose of 1 mg/kg suppressed this behaviour, while administration of naloxone after morphine treatment could release the abstinence behaviour. Simultaneous treatment with morphine and naloxone or naloxone alone were without effect. The administration to DPA treated rats of doses higher than 1 mg/kg morphine resulted in a severe depression of motor activity. It is concluded that an increased availability of GABA at its receptor sites plays an important role in the behaviour observed after DPA administration. The experiments with morphine and naloxone suggest that morphine receptors are involved in DPA-induced abstinence behaviour.     

Effect of withdrawal of diazepam or morphine treatment on gastric motility (charcoal meal test) in mice: possible role of different central and peripheral receptors

Increased gastrointestinal motility in mice as one of the withdrawal symptoms of commonly abused drugs like diazepam or morphine and its possible mechanism of action was studied. Male Laka mice (20-25 g) were made addict to either diazepam (20 mg/kg, ip for 7 days) or morphine (10 mg/kg, sc for 9 days). Withdrawal symptoms were noted 24 hr after the last injection of diazepam or morphine. The animals were injected with Ro 15-1788 (flumazenil) (1 mg/kg, ip) or naloxone (2 mg/kg, ip) in the respective group to precipitate the withdrawal symptoms. Gastrointestinal motility was assessed by charcoal-meal test. Animals developed tolerance to acute sedative effect of diazepam, and similarly to the acute nociceptive action of morphine. On abrupt cessation of these drugs after chronic treatment the animals showed hyperlocomotion and hyperreactivity in diazepam withdrawal group and hyperalgesia on hot plate in morphine withdrawal groups, respectively. Increase in gastrointestinal motility was observed in all the drug withdrawal groups. Treatment with respective antagonists, Ro 15-1788 (flumazenil) and naloxone precipitated the withdrawal symptoms. The results suggest the involvement of both central and peripheral receptors of benzodiazepines and opioid (mu) receptors in the withdrawal symptoms of the benzodiazepines and morphine, respectively.     

慢性吗啡处理及戒断后大鼠杏仁核中Parvalbumin的表达变化

目的:观察慢性吗啡处理及戒断后大鼠杏仁核中Parvalbumin(PV)的表达变化,为其功能的研究提供形态学依据。方法:将30只健康雄性SD大鼠随机分为吗啡依赖组和生理盐水对照组。吗啡依赖组大鼠腹膜腔注射吗啡,2次/d,起始剂量为5 mg/kg,逐日递增5mg,至第10d为50mg/kg;对照组注射同体积的生理盐水。于末次注射后动物分别存活3h、3 d和14d。用免疫组化方法和相对平均灰度值检测杏仁核内PV的表达。结果:在生理盐水处理组各存活时间点,杏仁核内PV的表达相同。和生理盐水对照组相比,3h时杏仁核内PV的表达明显增加(P<0.05)。第3d时,杏仁核内PV的表达减少,明显低于第3 h组(P<0.05)。至第14d时,PV的表达又开始增加,明显高于第3 d组(P<0.05)。结论:本结果提示慢性吗啡处理及戒断后杏仁核PV的表达具有时相特异性;这种变化在戒断早期可能主要与躯体依赖相关,而戒断晚期主要与精神依赖相关。     

Serotonin mediates beneficial effects of Hypericum perforatum on nicotine withdrawal signs.

Antidepressants may be effective treatment for smoking cessation and new evidence on relationship between smoking and depression is emerging. Extracts of the plant Hypericum perforatum possess antidepressant activity in humans and reduce nicotine withdrawal signs in mice. Both nicotine and H. perforatum administration elicit changes in serotonin (5-HT) formation in the brain. On this basis, we investigated the possible involvement of 5-HT in the beneficial effects of H. perforatum on nicotine withdrawal signs. With the aim to induce nicotine dependence, nicotine (2 mg/kg, four intraperitoneal injections daily) was administered for 14 days to mice (NM). Saline (controls, M) or H. perforatum extract (Ph 50, 500 mg/kg) were orally administered immediately after the last nicotine injection for 30 days after nicotine withdrawal. Another group of animals treated with nicotine (14 days) and successively with H. perforatum extract was intraperitoneally co-administered with selective 5-HT receptorial antagonist WAY 100635 (WAY) (1 mg/kg). All animals were evaluated for locomotor activity and abstinence signs, 24 after nicotine withdrawal. Brain 5-HT metabolism was evaluated in the cortex of mice sacrificed 30 days after nicotine withdrawal through evaluation of 5-HT, 5-hydroxyindoleacetic acid (5-HIAA) and 5-HIAA/5-HT ratio. After nicotine withdrawal measurement of 5-HT metabolism in the cortex showed a reduction of 5-HT content while animals treated only with Hypericum extract showed a significant reduction of total abstinence score compared to controls. WAY inhibited the reduction of total abstinence score induced by H. perforatum. Moreover, 5-HT1A expression has been evaluated 30 days after nicotine withdrawal. Our results, show a significant increase of cortical 5-HT content in NM treated with H. perforatum, with a concomitant significant increase of 5-HT1A receptor. So, it is possible to suggest an involvement of 5-HT in beneficial effects of H. perforatum on suffering produced by nicotine withdrawal in dependent mice.     

Effects of U-50,488H and U-50,488H withdrawal on catecholaminergic neurons of the rat hypothalamus

Previous report from our laboratory showed that morphine produces a stimulatory effect of hypothalamic noradrenaline (NA) turnover concurrently with enhanced pituitary-adrenal response after its acute injection and during withdrawal. In the present work we have studied the effects of acute and chronic administration of the kappa agonist U-50,488H as well as the influence of U-50,488H withdrawal on the activity of hypothalamic NA and dopamine (DA) neurons and on the activity of hypothalamic-pituitary-adrenal (HPA) axis. A single dose of U-50,488H (15 mg/kg i.p.) significantly increased hypothalamic NA and decreased DA turnover at the time of an enhanced corticosterone release. Rats rendered tolerant to the kappa agonist by administration of U-50,488H twice a day for 4 days showed no changes in corticosterone secretion. Additionally, a decrease in both hypothalamic MHPG (the cerebral NA metabolite) production and NA turnover was observed, whereas DOPAC concentration and DA turnover were enhanced, which indicate the development of tolerance towards the neuronal and endocrine actions of U-50,488H. After naloxone (3 mg/kg s.c.) administration to U-50,488H-tolerant rats, we found neither behavioural signs of physical dependence nor changes in hypothalamic catecholaminergic neurotransmission. In addition, corticosterone secretion was not altered in U-50,488H withdrawn rats. Present data clearly indicate that tolerance develops towards the NA turnover accelerating and DA turnover decreasing effect of U-50,488H. Importantly and by contrast to mu agonists, present results demonstrate that U-50,488H withdrawal produce no changes in hypothalamic catecholamines turnover or in corticosterone release (an index of the hypothalamus-pituitary-adrenal activity), which indicate the absence of neuroendocrine dependence on the kappa agonist. As has been proposed, this would suggest that the mu and the kappa receptor be regulated through different cellular mechanisms, as kappa agonists have a lower proclivity to induce dependence.     

Behavioral effects of MK-801 in morphine-dependent and non-dependent mice

The behavioral effects of MK-801 were compared in morphine-dependent and non-dependent mice. The dose of MK-801 selected for these studies was previously demonstrated to attenuate some of the morphine withdrawal signs. Subjects were repeatedly exposed to morphine (8 days, b.i.d., 10–100 mg/kg, s.c.). Twenty-four hours after last morphine injection mice received naloxone (0.1 mg/kg, s.c.) and the observation was commenced. Animals were pretreated with either MK-801 (0.1 mg/kg, i.p.) or saline 30 min prior to testing. It was found that the behavioral effects of MK-801 (decreased sociability and increased rate of transitions between behavioral elements, locomotion, grooming) were less pronounced in morphine-dependent compared to non-dependent subjects. However, the intensified almost stereotypic eating possibly reflected increased psychotomimetic potency of MK-801 in morphine-withdrawn animals.     

脊髓水平iNOS在吗啡依赖大鼠戒断反应中的作用

目的:探讨脊髓水平诱导型一氧化氮合酶在吗啡依赖大鼠戒断反应中的作用。方法:健康雄性SD大鼠72只,体重200~250 g,吗啡剂量每次10 mg/kg,每日2次,隔日每次增加10 mg/kg,至第6天末次注射50 mg/kg,大鼠腹腔注射纳洛酮4 mg/kg建立吗啡依赖及戒断模型,在纳洛酮激发戒断前30 min鞘内注射iNOS特异性抑制剂氨基胍(AG)150μg。分为正常对照组、吗啡依赖组、吗啡戒断组、AG组。采用行为学(n=8)、免疫组织化学(n=6)和Western blot(n=4)方法观察鞘内应用iNOS特异性抑制剂氨基胍对吗啡依赖大鼠纳洛酮催促戒断反应和脊髓神经元iNOS表达的影响。结果:AG组戒断症状评分和戒断组促诱发痛评分均低于戒断组(P<0.05)。免疫组织化学和Western blot显示戒断组大鼠脊髓iNOS阳性神经元的数目和蛋白的表达增高,而AG组大鼠脊髓iNOS阳性神经元的数目和iNOS蛋白的表达低于戒断组(P<0.05)。结论:脊髓水平iNOS表达上调可能参与介导吗啡戒断反应。     

Effect of methamphetamine on the development of acute morphine tolerance and dependence in mice

The effect of methamphetamine on morphine analgesia (tail-flick assay) was studied in non-tolerant mice and in mice made acutely tolerant to morphine following a single injection of 100 mg/kg morphine. The analgesic potency of morphine was increased in non-tolerant and tolerant mice to the same extent by 3.2 mg/kg methamphetamine (3.3 and 4.4 fold increases, respectively). In contrast, the ED50's for morphine analgesia and naloxone-precipitated jumping in mice pretreated with either 100 mg/kg morphine or both morphine and 3.2 mg/kg methamphetamine were not significantly different, indicating that methamphetamine had no effect on the development of acute morphine tolerance and dependence. Although methamphetamine had no effect on the development of acute tolerance to morphine, 4-day pretreatment with methamphetamine produced cross-tolerance to morphine analgesia. However, cross-tolerance to morphine was not accompanied by enchanced sensitivity to naloxone.     

Acute inhibition of microsomal drug metabolism by propoxyphene in narcotic tolerant/dependent mice

Propoxyphene (Darvon) was compared to SKF 525-A, a prototypical inhibitor of hepatic microsomal mixed function oxidases, to assess propoxyphene's potential to inhibit drug metabolism in morphine tolerant/dependent mice. $\text{In vitro}$, both propoxyphene (K_i = 3.5 × 10^?5M) and SKF 525-A (K_i = 4.3 × 10^?6M) inhibited the activity of aminopyrine N-demethylase competitively in hepatic microsomes from tolerant/dependent animals. Propoxyphene and SKF 525-A were weaker, noncompetitive inhibitors of aniline hydroxylase activity. $\text{In vivo}$, equimolar doses (0.24 mmoles/kg, i.p.) of each compound inhibited both of the above monooxygenases in the 10,000$\text{g}$ supernatant fractions of livers from the tolerant/ dependent animals. Propoxyphene was 40–50% as potent an inhibitor of these activities as SKF 525-A. A dose (300 mg/kg) of propoxyphene napsylate, shown to prevent narcotic abstinence signs with no observable toxicity in withdrawing mice, significantly prolonged the blood levels of injected pentobarbital and tripled pentobarbital sleeping time in these animals. When administered at 300 mg/kg chronically, propoxyphene napsylate acted as an inducer of its own metabolism. Propoxyphene napsylate, then, given acutely to narcotic tolerant/dependent mice, is a potent inhibitor of microsomal drug metabolizing capacity. Given chronically, it enhances this capability.