Cardiovascular effects of naloxone,naltrexone and morphine in the squirrel monkey

Heart rate (HR) and mean arterial blood pressure (BP) were recorded from conscious, chair-restrained squirrel monkeys surgically prepared with chronically indwelling arterial and venous catheters to determine the effects of acute intravenous injections of two opiate antagonists and an agonist. Naloxone (0.3–10.0 mg/kg) or naltrexone (0.3–10.0 mg/kg) had little effect on HR or BP during a 30-minute post-injection period. Morphine (3.0–5.6 mg/kg) produced biphasic effects comprising an initial decrease followed by an increase in HR, and an increase followed by a decrease in BP. Lower morphine doses had lesser effects during a 100-minute post-injection period. Pre-treatment with 0.03 mg/kg naloxone attenuated the depressive effect of morphine on HR and BP, but increases in HR and BP due to morphine were enhanced. Pretreatment with 0.3 mg/kg naloxone prevented morphine-induced decreases in HR and BP, yet increases in HR and BP persisted. In previous behavioral studies, morphine in combination with naloxone similarly increased rates of responding in the squirrel monkey. Together, these data suggest an effect of naloxone that goes beyond mere pharmacological antagonism of the effects of morphine.     

Effects of yohimbine and naltrexone in counteraction of the morphine straub tail and the amphetamine-potentiated morphine straub tail in mice

The alpha-adrenergic blocking agent, yohimbine, prevented the production of the morphine Straub tail reaction in mice, although on a mg dose basis it was only about $\text{1}\text{400}$ as potent as the narcotic antagonist naltrexone by subcutaneous injection. Likewise, yohimbine prevented the potentiation of the morphine Straub tail reaction by amphetamine, being about $\text{1}\text{170}$ as active as naltrexone. Preliminary studies with another alpha-adrenergic blocking agent, phentolamine, indicated that it also inhibited the production of the Straub tail reaction by morphine, although it appeared to be somewhat weaker than yohimbine in this respect. These results suggest the involvement of alpha-adrenergic mechanisms in the production of the morphine Straub tail reaction and in the potentiation of the morphine Straub tail reaction by amphetamine.     

青藤碱对吗啡依赖与戒断小鼠脑组织nNOS活性的影响

目的:观察青藤碱对吗啡依赖与戒断小鼠中枢神经系统中大脑皮层、小脑、脑干的nNOS活性变化的影响。方法:剂量递增法建立小鼠吗啡依赖模型,青藤碱治疗前后用纳洛酮催瘾,观察戒断症状;化学比色法测各脑组织匀浆的nNOS活性。结果:青藤碱可扭转成瘾小鼠的体重下降趋势,减轻戒断症状;使由吗啡依赖与戒断引起异常变化的nNOS活性水平恢复到最终接近对照组水平。结论:青藤碱能显著减轻吗啡依赖小鼠的戒断征状,其机制可能与青藤碱影响各脑组织nNOS活性相关。     

Apparent pA2 value of naltrexone is not changed in rats following continuous exposure to morphine or naloxone.

Chronic opioid antagonist administration increases opioid binding sites and potentiates behavioral responses to morphine. Conversely, chronic opioid agonist administration attenuates behavioral responses to morphine, though this is not necessarily accompanied by a parallel loss of binding sites. We examined the possibility that the in vivo affinity of the mu receptors might be altered as a consequence of the continuous administration of either naloxone or morphine. Rats were implanted sc with naloxone- or morphine-filled osmotic pumps; control animals were implanted with sham pumps. One week later, 24 hr after removing the osmotic pumps, cumulative dose-response curves for fentanyl analgesia were generated in the presence of 0.0, 0.03, 0.1, or 0.3 mg/kg naltrexone, using a tail-flick procedure. The analgesic ED50 (with 95% C. L.) of fentanyl in sham implanted animals, following saline pretreatment was 0.027 mg/kg (0.019, 0.039). The potency of fentanyl was decreased in rats infused with morphine, ED50 = 0.051 mg/kg (0.028, 0.093), and increased in rats that received naloxone, ED50 = 0.018 mg/kg (0.015, 0.022). The mean apparent pA2 value for naltrexone (with 95% C.L.) in the control group was 7.7 (7.5, 7.9). No differences were detected in animals that had received either naloxone or morphine for 7 days, pA2 = 7.8 (7.5, 8.1) and 7.4 (7.3, 7.6), respectively. Our results indicate that there is no change in the apparent affinity of the mu-receptor following continuous exposure to either an opioid agonist or antagonist, at a time when the analgesic potency of the agonist is decreased or increased, respectively.     

Reversal of morphine, methadone and heroin induced effects in mice by naloxone methiodide

Opioid overdose, which is commonly associated with opioid induced respiratory depression, is a problem with both therapeutic and illicit opioid use. While the central mechanisms involved in the effects of opioids are well described, it has also been suggested that a peripheral component may contribute to the effects observed. This study aimed to further characterise the effects of the peripherally acting naloxone methiodide on the respiratory, analgesic and withdrawal effects produced by various opioid agonists. A comparison of the respiratory and analgesic effects of morphine, methadone and heroin in male Swiss-Albino mice was conducted and respiratory depressive ED(80) doses of each opioid determined. These doses (morphine 9 mg/kg i.p., methadone 7 mg/kg i.p., and heroin 17 mg/kg i.p.) were then used to show that both naloxone (3 mg/kg i.p.) and naloxone methiodide (30-100 mg/kg i.p.) could reverse the respiratory and analgesic effects of these opioid agonists, but only naloxone precipitated withdrawal. Further investigation in female C57BL/6J mice using barometric plethysmography found that both opioid antagonists could reverse methadone induced decreases in respiratory rate and increases in tidal volume. Its effects do not appear to be strain or sex dependent. It was concluded that naloxone methiodide can reverse the respiratory and analgesic actions of a variety of opioid agonists, without inducing opioid withdrawal.     

Analeptic and antianaleptic effects of naloxone and naltrexone in rabbits.

Naloxone (5 mg/kg), but not naltrexone, shortened the duration of anaesthesia in rabbits pretreated with pentobarbital. This analeptic effect was blocked by atropine, but not by methylatropine; it thus appears that a central cholinergic mechanism is involved. In contrast, smaller doses of both naloxone and naltrexone attenuated the arousal property of thyrotropin releasing hormone (TRH). Naloxone, but not naltrexone, also antagonized the analeptic property of d-amphetamine. In conscious animals naloxone potentiated, whereas naltrexone attenuated, the excitatory effects of TRH and d-amphetamine.     

Changes in succinic dehydrogenase activity in the central nervous system of mice during morphine dependence development, withdrawal and naloxone treatment

The possible role of succinic dehydrogenase (SD) in producing physical dependence to morphine by affecting tissue respiration was investigated in Swiss albino mice during the development of morphine tolerance through a period of addiction and naloxone withdrawal therapy. Tolerance and physical dependence were induced by injecting the mice with morphine sulfate subcutaneously at 8-hour intervals, increasing the dose from 10 mg/kg BW every 24 h for 15 days. The animals were considered to be addicted when they were able to tolerate an otherwise lethal dose of 150 mg/kg 3 times a day. Results indicated that succinic dehydrogenase was inhibited throughout the 15-day period of morphine administration and that this effect was greatest in tolerant animals. Increasing the dose and duration of treatment did not cause further decreases in enzyme activity; instead, after 15 days levels of enzyme activity increased in addicted animals compared with tolerant mice. Furthermore, morphine abstinence for 2 days, markedly increased the levels of SD activity, while 6 days of abstinence had little effect. Naloxone withdrawal at each stage was associated with increased SD activity, but the increase was significant only in tolerant mice.     

Cooperative erythropoietic assay of several steroid metabolites in polycythemic mice

A blinded cooperative assay of several androstane and pregnane steroid metabolites has been carried out in order to determine whether 5β-H derivatives are as active as testosterone in stimulating in vivo erythropoiesis. The steroids tested were: testosterone, 5-dihvdrotestosterone, 5β-dihydrotestosterone, 5β-pregnane-3,20-dione, 3-dihydroxy-5β-pregnàne-11,20-dione and 3β-hydroxy-5β-pregnan-20-one. The incorporation of radioactive iron into newly formed red cells in exhypoxic polycythemic mice was used to compare the effects of the steroids. Testosterone and 5-dihydrotestosterone both produced significant increases in ⁵⁹Fe incorporation. 5β-dihydrotestosterone, 5β-pregnane-3,20-dione, 3-hydroxy-5β-pregnane-11,20-dione and 3β-hydroxy-5β-pregnan-20-one were all devoid of significant erythropoietic activity in polycythemic mice in almost all instances. Thus, under the conditions chosen, this study failed to demonstrate that 5β-steroids increase radioactive iron incorporation in red cells of exhypoxic polycythemic mice.     

Effects of naloxone and acetylcholine on medial thalamic and cortical units in naive and morphine dependent rats.

The administration of 0.5 mg of testosterone propionate (TP) for 3 days to castrated male rats caused ³H-leucine incorporation into pineal proteins to increase significantly by 79%. TP effects depended on time of administration; rats receiving TP at 06.00 h exhibited a significant 150% increase in pineal protein synthesis 24 h later whereas rats injected at 14.00 h only showed a 54% increase in ³H-leucine incorporation into proteins. Superior cervical ganglionectomy decreased pineal testosterone uptake $\text{in vitro}$ by 21% and pineal protein synthesis by 27%; in addition it blocked the stimulatory effects of TP on protein synthesis. Ganglionectomy also modified the $\text{in vitro}$ metabolism of testosterone by pineal cells; it increased the amounts of ³H-androstenedione and decreased ³H-5∝-androstanedione extracted from pineal glands incubated with ³H-testosterone. These results indicate that the sympathetic nervous input reaching the pineal via the superior cervical ganglia is important to modulate the early steps of androgen action on the pinealocytes.     

Brain levels of morphine in mice following removal of a morphine pellet and naloxone challenge: no evidence for displacement

Male ICR mice were rendered tolerant to and dependent on morphine by subcutaneous implantation of a 75 mg morphine pellet for 72 hours. At 2, 4, and 6 hours after pellet removal groups of 7–10 mice were challenged with ip saline or naloxone and their brain concentrations of morphine estimated by radioimmunoassay (RIA). The brains were prepared for RIA by either organic or inorganic (0.01 N HC1) extraction and in most experiments the two methods were shown to be equivalent with respect to the final concentration of morphine. There was no difference in brain morphine between saline and naloxone (10 mg/kg) treated groups when they were challenged 4 hours after pellet removal and sacrificed 1, 5, 10, 15, 20, 30, 45, and 60 minutes later. In contrast, when the challenge was administered 6 hours after pellet removal the naloxone treated groups has higher concentrations of brain morphine than the saline controls. Brain levels in mice that received 0.10, 1.0, 10, 100 mg/kg naloxone did not differ consistently from saline controls. We found no consistent evidence that naloxone decreases the concentration of morphine in brain homogenates obtained from mice during the initial 6 hours after pellet removal.     

Mutagenicity and DNA-damaging activity for several pesticides tested with Bacillus subtilis mutants

The active pure compounds of 4 pesticides were tested for DNA-damaging and mutagenic activity in Bacillus subtilis and Salmonella typhimurium tester strains. Included were zinc ethylenebisdithiocarbamate (dithane), 1,2-dihydropyridazine-3,6-dione (maleic hydrazide), O,O-dimethylphosphorodithioate (malathion), and 1,2-dibromoethane (fumazone). These agents gave either weak or negative mutagenic responses with the Salmonella/microsome tests for mutagenicity, but were all positive when the tester was B. subtilis strain TKJ6321. Of the 4 chemicals, only fumazone required metabolic activation with rat-liver S9 mix. Upon activation, it produced a volatile mutagenic product. Dithane, maleic hydrazide, and malathion were all mutagenic and did not require metabolic activation. Among these agents, dithane was strongly mutagenic while fumazone, maleic hydrazide and malathion were moderately mutagenic. Only dithane gave significant DNA-damaging activity when applied to a battery of repair-deficient B. subtilis mutants. For the chemicals reported, it is concluded that B. subtilis is superior to S. typhimurium in the detection of mutagenic activity. We strongly recommend its use for prescreening procedures in combination with the S. typhimurium testers.     

Footshock induced analgesia in mice: its reversal by naloxone and cross tolerance with morphine

Using the abdominal constriction response as the criterion for analgesia, mice tested immediately after a period of footshock showed a significant analgesic response compared with non-footshocked controls. Footshock induced analgesia could not be elicited in mice that had been made tolerant to morphine or in mice that had been pretreated with the narcotic antagonist naloxone. It is concluded that footshock induced analgesia in the mouse is due to the release of endogenous opioid peptides.     

Evidence for sedative effects of low doses of morphine in mice involving receptors insensitive to naloxone

Low doses of morphine (0.30–2.5 mg/kg) decrease in a dose-dependent manner spontaneous climbing behaviour in mice. This effect is not modified by administration of naloxone at doses up to 1.25 mg/kg. These morphine doses do not modify the locomotor activity but, when they are associated with naloxone (0.5 mg/kg), an obvious inhibition occurs. In rats, a hyperactivity follows the akinesia produced by a morphine administration (10 mg/kg). This hyperactivity is changed into a significant hypokinesia when the animals are treated with naloxone (0.05 mg/kg). These results might reveal a dual effect of low doses of morphine, the excitatory effect of morphine being antagonized by naloxone whereas no action on the sedative effect is observed.     

吗啡依赖小鼠前脑皮质神经元神经营养因子-3的表达

目的:探讨吗啡依赖小鼠前脑皮质神经元神经营养因子-3(neurotrophin-3,NT-3)的表达.方法:采用免疫组织化学法显示吗啡依赖小鼠前脑皮质神经元NT-3的表达.结果:吗啡依赖组和纳洛酮诱发戒断组小鼠前脑皮质NT-3密度均明显增加(P＜0 01).结论:NT-3参与了吗啡依赖对前脑皮质神经元损害的保护作用.     

Prevention of cocaine-induced hyperactivity by a naloxone isomer with no opiate antagonist activity

Dextro-naloxone [(+)-naloxone], an isomer with almost no opiate antagonist activity and no effect on spontaneous locomotor activity, can reduce cocaine-induced hyperactivity in mice. The classical opiate antagonist,levo-naloxone [(−)-naloxone], is known to counteract the excitatory motor effects of amphetamine and cocaine, but it has been tacitly assumed that this action oflevo-naloxone is dependent on its ability to antagonize endogenous opioids. Our finding that a naloxone isomer with little or no opioid antagonist activity is also able to inhibit the cocaine effect on spontaneous motility, calls for a reconsideration of this assumption.