Mechanisms mediating the thermal response to morphine withdrawal in rats

Studies were undertaken to evaluate the role of peripheral adrenergic mechanisms and the adrenal gland in the thermal responses which accompany morphine withdrawal in the rat. Ovariectomized rats were addicted to morphine and subsequently withdrawn by administration of naloxone. This treatment resulted in a significant rise (5-6 degrees C) in tail skin temperature (TST) and fall in colonic temperature (2-4 degrees C). Systemic administration of clonidine (0.5 mg/kg) completely suppressed this surge in TST and significantly attenuated the fall in core temperature. Similar results were observed following the systemic administration of ST-91, another alpha 2-adrenergic agonist which does not cross the blood-brain barrier. Central administration of ST-91 (50 micrograms/5 microliters, icv) was also successful in attenuating these temperature changes in the morphine-dependent rat. Adrenalectomy and peripheral administration of propranolol (10 mg/kg sc) both resulted in a significant attenuation of the surge in TST and the fall in core temperature in the morphine-dependent rat which suggest some peripherally mediated event is necessary to produce the full skin temperature surge. Collectively, the data suggest a role for the adrenal gland and adrenergic receptors in producing the surge in TST in morphine-dependent rats. It also suggests that the blocking effects of the alpha 2-adrenergic agonist can be mediated both centrally and peripherally.     

Orphanin FQ/nociceptin inhibits morphine withdrawal

The influence of orphanin FQ/nociceptin (OFQ/N) on the morphine-withdrawal symptom was investigated. Withdrawal syndrome was induced in the morphine-dependent rats by an intraperitoneal (i.p.) injection of 2 mg/kg naloxone hydrochloride--an opioid receptors antagonist. Wet-dog shakes were used as a measure of the abstinence syndrome. Intraventricular injections of OFQ/N (5-20 microg/animal) caused significant inhibition of the withdrawal signs at doses between 15-20 microg, in the morphine-dependent rats. OFQ/N alone did not change behavior of the morphine-dependent animals. The obtained results indicate that OFQ/N can inhibit the morphine withdrawal symptoms induced by naloxone.     

Glucoprivic regulation of estrous cycles in the rat

Previous research has shown that glucoprivation induced by chronic 2-deoxy-D-glucose (2DG) treatment extends estrous cycle length and disrupts reproductive behaviors in female hamsters, similar to food deprivation. Such treatment also suppresses food intake, which is reversed in male rats by reducing brain histamine levels prior to 2DG treatment. We, therefore, determined if 2DG extends estrous cycles in the female rat and if this is due to elevated brain histamine levels. We measured estrous cycle length during 2DG-induced glucoprivation, in the presence and absence of alpha-fluoromethylhistidine (FMH), a treatment that reduces brain histamine levels. Adult female rats were treated for 72 h with either saline (n = 8), 2DG (200 mg/kg S.C. every 6 h; n = 9), or FMH (100 mg/kg i.p. daily) + 2DG (200 mg/kg; n = 7). An additional group was treated with FMH (100 mg/kg i.p.; n = 5) alone. To determine if 2DG extends estrous cycles due to glucoprivation or to decreased caloric intake, a group of rats (n = 7) received a reduced diet equal to the mean daily food intake of rats receiving 2DG alone. 2DG induced more long estrous cycles compared to rats receiving saline, FMH + 2DG, or FMH alone. In rats treated with FMH + 2DG, the percentage of 4-5-day cycles was similar to that of saline-treated rats, and a high percentage of 4-5-day cycles was also observed in rats receiving a reduced diet. These data suggest that 2DG does not suppress estrous cycles through a decrease in total calorie intake, but rather by inducing glucoprivation. In addition, during 2DG-induced glucoprivation, elevated brain histamine levels contribute to the mechanism that suppresses reproductive function.     

Role of the adrenal gland in the thermal response to morphine withdrawal in rats.

Administration of naloxone to morphine-dependent rats results in an elevation of tail skin temperature and a fall in core temperature. Previous studies have demonstrated a role of the adrenal gland in the thermal responses that accompany morphine withdrawal in the rat. In the present study, experiments were designed to determine if the duration of adrenalectomy significantly influenced the thermal response observed in morphine withdrawal. In addition we evaluated the influence of the adrenal medulla and glucocorticoid replacement in adrenalectomized rats in mediating the thermal responses of the morphine-dependent rat. Ovariectomized rats were addicted to morphine and subsequently withdrawn by administration of naloxone. This treatment results in a significant rise in tail skin temperature and subsequent fall in colonic temperature. These thermal responses were not observed in morphine-naive rats. Adrenalectomy resulted in a significant attenuation of the rise in tail skin temperature associated with withdrawal. This reduced tail skin temperature response was not different among animals adrenalectomized for 1, 7, 14, 21, or 28 days. Likewise, the moderate increase in core temperature associated with morphine treatment was not observed in the adrenalectomized rats. Serum corticosteroid determinations confirmed the loss of the adrenal steroids in the adrenalectomized rats. In a subsequent experiment it was determined that adrenal demedullation did not reduce the tail skin temperature response during morphine withdrawal, and corticosteroids restored the naloxone-induced surge in tail skin temperature in morphine-dependent, adrenalectomized rats.(ABSTRACT TRUNCATED AT 250 WORDS)     

Does naloxone have functional significant activity on medial thalamic neurons? microiontophoretical study

Local administration (microiontophoretically) of naloxone was tested in 57 parafascicularis thalamic (PF) neurons of morphine-naive and morphine-dependent rats. In morphine-naive rats microiontophoretic applications of naloxone induced changes in 52% of the PF neurons. Reduction in neuronal activity was observed in the majority of them; this reduction phenomena exhibited dose response characteristics, i.e., each incremental naloxone dose caused further decrease of the neuronal discharges. In morphine-dependent animals, 64% of the PF neurons were affected. The changes seen after naloxone were mainly increases of electrical discharges (i.e. the opposite effects obtained in morphine-naive animals).     

两种吗啡依赖大鼠模型脑内单胺神经递质水平的比较

目的通过对吗啡诱导的躯体依赖与精神依赖两种大鼠模型脑内单胺类递质水平的比较,探讨其在吗啡依赖形成中的作用。方法采用剂量递增法复制吗啡依赖大鼠模型,然后用纳洛酮催促,引起躯体戒断症状。连续给予吗啡（5mg／kg,ip）6d,引起大鼠产生显著的条件性位置偏爱效应。脑组织去甲肾上腺素（NE）、5-羟色胺（5-HT）和多巴胺（DA）含量采用荧光分光光度法测定。结果吗啡依赖大鼠催促戒断后脑内NE和5-HT水平明显升高,DA水平下降。吗啡在引起大鼠明显位置偏爱的同时,使大鼠脑内DA和5-HT水平显著升高,NE无明显改变。结论吗啡依赖的形成和戒断与脑内单胺神经递质有密切关系,吗啡依赖的躯体戒断症状与NE升高有关,而吗啡诱导的精神依赖则与脑内DA水平升高有关。     

Factors affecting angiotensin II-induced hypothermia in rats

Systemic administration of angiotensin II (AII) to the rat has previously been shown to induce a dose-dependent, hypothermic response manifested by a fall in colonic temperature (CT), a decrease in heat production and an increase in tail skin temperature (TST). The factors mediating AII-induced hypothermia and their site of action were the subjects of the present investigation. To this end, intracerebroventricular administration of 1 microgram of AII induced a 0.4 degrees C reduction in CT and a 2.4 degrees C increase in TST. In contrast, SC administration of 200 micrograms angiotensin III/kg induced a slight increase in CT but had no affect on TST. Pretreatment with the AII-receptor antagonist, saralasin, at either 1 or 10 micrograms/kg, SC did not affect either the fall in CT or the increase in TST induced by administration of 200 micrograms AII/kg, SC. However, the administration of 100 micrograms saralasin/kg, SC attenuated both the fall in CT and the increase in TST induced by either 100 or 200 micrograms AII/kg. Since both the presynaptic alpha adrenoceptor agonist, clonidine, and the opioid antagonist, naloxone, modulate the pressor and dipsogenic responses to AII, their effects on AII-induced hypothermia were tested. Both clonidine (25 micrograms/kg, SC) and naloxone (1 mg/kg, IP) enhanced the fall in CT. Clonidine lengthened the duration of the increase in TST while naloxone had no effect. Pretreatment with the presynaptic adrenoceptor antagonist, yohimbine (300 micrograms/kg, SC), did not alter the hypothermic response to administration of AII. To determine whether vasodilation of the tail of the rat was mediated by AII-induced prostaglandin release, indomethacin (4 and 6 mg/kg) was administered.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of 2-deoxy-D-glucose on gonadotropins,prolactin and serum glucose concentrations in the mare

In a variety of species, glucoprivation results in the suppression of the reproductive axis. Two experiments were performed to test the hypothesis that blockade of glucose metabolism via administration of the glucose inhibitor 2-deoxy-D-glucose (2DG) to mares would cause a modification in gonadotropin and prolactin secretion. Long-term ovariectomized mares (Experiment 1, n=4) or ovary-intact mares during the follicular phase of a synchronized estrous cycle (Experiment 2, n=4 per dose) were treated with 2DG. The dose of 2DG used in Experiment 1 was 100mg 2DG/kg BW, but because severe behavioral responses occurred, lower doses (50, 25, and 12.5mg 2DG/kg BW) were used for Experiment 2. In addition to the effects of 2DG, the pituitary responsiveness after glucoprivation was determined by an injection of gonadotropin-releasing hormone (100 microg) 6h post-treatment. In both experiments, treatment with 2DG was unaccompanied by changes in gonadotropin secretion or pituitary responsiveness. Mares treated with 100 mg 2DG/kg BW exhibited a significant increase in prolactin and mares treated with 100mg 2DG or 50mg 2DG/kg BW exhibited a significant increase in serum glucose concentrations, suggesting that glucoprivation was detected at these doses. Lower doses of 2DG did not cause significant alterations in prolactin or glucose levels. These results indicate that 2DG inhibits glucose utilization, but short-term glucoprivation via this metabolic inhibitor does not alter gonadotropin secretion in the mare. This lack of response to glucoprivation may reflect species differences in the response to glucoprivation or may be due to metabolic responses to the inhibition of glucose availability.     

Orexin A-induced feeding is augmented by caloric challenge

Orexin neurons are stimulated by conditions that are glucoprivic, suggesting that orexin signaling may be increased during nutritional duress. We have previously shown that injection of orexin A (OxA) into the rostral lateral hypothalamic area (rLHa) robustly and dose-dependently increases feeding behavior. Thus we hypothesized that exogenous administration of orexin A would induce a greater feeding response after acute food deprivation or perceived caloric duress achieved through 2-deoxyglucose (2DG) administration. To test our hypothesis, male Sprague-Dawley rats implanted with internal guide cannulas directed to the rLHa were exposed to varying degrees of food deprivation (0, 3, 12, 24 h) and 2DG (200 mg/kg) before intra-rLHa OxA (500 pmol) infusion. We also performed a dose-response study using graded doses of OxA (0, 31.25, 125, and 500 pmol) in fed and 24-h fasted rats. OxA administration in conjunction with the highest level of prior food deprivation (24 h) resulted in the greatest feeding response (above baseline means; 0 h deprivation: 1.9 +/- 0.6; 24 h deprivation: 4.4 +/- 0.8; P = 0.0034) and showed a dose-dependent enhancement of feeding. Additionally, 2DG administration before OxA administration resulted in a significantly higher feeding response (above baseline means: 2DG = 1.8 +/- 0.5; OxA = 1.8 +/- 0.4; 2DG + OxA = 5.1 +/- 0.6; P < 0.0001). These data support the hypothesis that orexin signaling may be important in modulating the feeding network under times of nutritional duress.     

M受体对吗啡戒断大鼠脊髓和脑干NMDA受体基因表达及中脑导水管周围灰质中谷氨酸释放的调节

应用鞘内注射反义寡脱氧核苷酸技术和RT—PCR反应,观察毒蕈碱型乙酰胆碱受体(muscarinic acetylcholine receptor,M)对吗啡依赖大鼠脊髓和脑干NMDA受体NR1A和NR2A mRNA表达和中脑导水管周围灰质区(periaqueductal grey,PAG)中谷氨酸释放的影响。结果显示,吗啡依赖大鼠脊髓NR1A和NR2A mRNA表达明显升高,而脑干中NR1A和NR2A mRNA表达没有显著变化;注射纳洛酮后1h,吗啡戒断大鼠脊髓和脑干中NR1A和NR2A表达显著高于依赖组,经NMDA受体拮抗剂MK801(0．125mg／kg,i．p．)、M受体拮抗剂东莨菪碱(0．5mg／kg,i．p．)、M1受体拮抗剂呱伦西平(10mg/kg,i．p．)和NOS抑制剂L-NAME(10mg／kg,i．p．)处理后,脊髓和脑干中NR1A和NR2A基因表达都较戒断组明显减少。在纳洛酮激发前24h鞘内注射NR1A和M2受体的反义寡脱氧核苷酸(4μg／只),戒断症状评分值及脊髓和脑干的NR1A mRNA的表达均较对照组明显减少。吗啡依赖大鼠在纳洛酮注射前24h鞘内注射M2受体反义寡脱氧核苷酸(4μg/只),可以明显减少PAG内透析液中谷氨酸含量。上述结果提示：NMDA受体的基因表达和谷氨酸释放参与吗啡戒断过程,而这种表达受到M受体的调节。     

Effect of opioid agonist-antagonist interaction on morphine dependence in rats

Morphine dependence was induced by treatment with morphine-admixed food (0.25mg/g of food) for 7 days. Withdrawal was precipitated by injecting naloxone (0.5mg/kg, s.c.). Rats treated with morphine exhibited body weight loss upon the naloxone injection. When morphine-dependent rats were injected subcutaneously with morphine, codeine, meperidine and pentazocine 30 min before the naloxone injection, these drugs significantly suppressed the naloxone-precipitated loss of body weight in a dose-dependent manner. However, body weight loss induced through coadministration of naloxone and Mr-2266 BS were not suppressed by morphine pretreatment. These results suggest that opioids protect against naloxone-precipitated loss of body weight, and that mu and kappa opiate receptors play an important role in the protection against naloxone-precipitated withdrawal.     

Inhibition of abstinence syndrome in opiate defendent mice by cyclo (His-Pro)

Intracerebral administration of cyclo (His-Pro), the postulated metabolite of thyroliberin (TRH, pGlu-His-Pro-NH₂) inhibited the naloxone induced withdrawal responses in morphine dependent mice. Mice were rendered dependent on morphine by the subcutaneous implantation of a pellet (containing 75 mg of morphine free base) for three days. Six hours after pellet removal, the naloxone ED₅₀ for the jumping response was found to be higher in mice injected with cyclo (His-Pro) compared with that of vehicle controls. Similarly, the hypothermic response observed following 50 μg/kg of naloxone given given 6 h after pellet removal or that seen with 100 μg/kg of naloxone given 24 h after pellet removal from morphine-dependent mice was inhibited by cyclo (His-Pro). Previously, we have shown similar results with TRH on the morphine abstinence syndrome. It appears, therefore, that cyclo (His-Pro) may be the active metabolite of TRH and analogs of cyclo (His-Pro) may be useful in blocking the symptoms of the opiate abstinence syndrome.     

脊髓水平细胞外信号调节激酶激活参与吗啡依赖的形成及戒断反应的表达

在大鼠吗啡依赖和戒断模型上,采用行为学、免疫组织化学和Western blot方法观察吗啡依赖及戒断大鼠脊髓神经元磷酸化细胞外信号调节激酶（phospho-extracellular signal-regulated kinase,pERK）表达的变化,及鞘内注射促分裂原活化蛋白激酶激酶（mitogen-activated protein kinase kinase,MEK）抑制剂U0126或ERK反义寡核苷酸对吗啡依赖大鼠纳洛酮催促戒断反应、触诱发痛及脊髓神经元pERK表达的影响,探讨脊髓水平pERK在介导吗啡依赖和戒断过程中的作用。结果显示：（1）在吗啡依赖形成过程中,大鼠脊髓胞浆与胞核非磷酸化ERK表达没有改变,但pERK表达逐渐增加,纳洛酮催促戒断后,仍有进一步增加的趋势,戒断1h后,其表达量明显下降,但仍高于对照组。（2）鞘内预先注射MEK抑制剂U0126或ERK反义寡核苷酸能明显抑制吗啡戒断反应和戒断引起的痛觉异常;与行为学结果一致,脊髓背角pERK阳性神经元表达与脊髓胞浆和胞核pERK表达也明显降低。上述结果提示,脊髓水平ERK激活和核转位参与吗啡依赖的形成及戒断反应的表达。     

Strain-dependent differences in responses to chronic administration of morphine: lack of relationship to brain catecholamine levels in mice.

When measured for weight loss, mortality and degree of physical dependence, 4 strains of mice exhibited widely differing sensitivities to chronically administered morphine. However, no obvious relationship existed between the pharmacological responses to morphine and the steady-state levels of either norepinephrine or dopamine in brain striatal sections of the strains tested. In addition, the injection of naloxone into morphine-dependent mice, which elicits withdrawal jumping, brought about an increase in dopamine levels in the striatal sections of only 1 of the 3 strains tested. Thus, the naloxone-precipitated withdrawal jumping response may not be associated with an elevation of brain dopamine levels.     

Similarities between morphine withdrawal in the rat and the menopausal hot flush

Skin temperature, cardiovascular and neuroendocrine responses to morphine withdrawal in the rat were evaluated in an effort to develop a potential animal model for the menopausal hot flush in women. Morphine dependency was produced by s.c. implantation of pellets containing morphine alkaloid. In response to precipitous, naloxone-induced withdrawal, rats showed surges in tail skin temperature (TST) which were similar in magnitude (4.8 to 7.2 degrees C) and duration (60 to 90 min.) to peripheral skin temperature increases reported during menopausal hot flushes. Additionally, a brief period of accelerated heart rate (59%) and a 9-fold hypersecretion of luteinizing hormone (LH) preceded the TST response to morphine withdrawal. These cardiovascular and neuroendocrine responses are observed to precede or coincide with the menopausal hot flush. Additionally, protracted morphine withdrawal subsequent to abstention, resulted in TST instability characterized by spontaneous, high amplitude TST fluctuations. Thus, the alteration in skin temperature, heart rate and LH secretion during precipitated morphine withdrawal in the rat are similar in magnitude, duration and in their temporal relationship to those observed during the hot flush. These data suggest a possible opioid etiology in this vasomotor disturbance. Acute withdrawal in the morphine addicted rats may serve as an animal model by which to study the neural mechanism underlying the menopausal hot flush.     

Dansyl-PQRamide, a possible neuropeptide FF receptor antagonist, induces conditioned place preference

Neuropeptide FF (NPFF) is an endogenous anti-opioid peptide. NPFF could potentiate the naloxone-precipitated morphine withdrawal syndromes in morphine-dependent rats, indicating the possible involvement of the endogenous NPFF system in opioid analgesia and dependence. The present study was performed to examine the effects of dansyl-PQRamide (dns-PQRa), a putative NPFF antagonist, on conditioned place preference (CPP), in addition, its interaction with the opioid system. Two CPP experiments were conducted. First, rats were treated with dns-PQRa (4-13 mg/kg, i.p.) and paired with the non-preferred compartment while the vehicle was paired with the preferred compartment. Second, similar to experiment 1 except naloxone (1 mg/kg, i.p.) was given 10 min prior to each dns-PQRa administration. The post-drug place preference was examined after 4 alternative pairings. Another group of animals after repetitive dns-PQRa treatments were analyzed for levels of neurotransmitters in discrete brain areas. Dns-PQRa (4-13 mg/kg, i.p.) induced a significant dose-dependent CPP. The dns-PQRa-induced CPP was completely blocked by pretreatment with 1 mg/kg i.p. naloxone, while naloxone alone did not induce any place aversion. The chronic dns-PQRa-treated (13 mg/kg, i.p., b.i.d.) rats caused a significant increase in 3,4-dihydroxyphenylacetic acid and 5-hydroxyindoleacetic acid in the olfactory tubercle compared to the vehicle-treated controls. There was also an increase in the turnover of serotonin in the olfactory tubercle, nucleus accumbens and medial prefrontal cortex. These results suggest that blockade of the NPFF system produces rewarding, possibly via an inhibition of the anti-opioid action of NPFF. These results also reveal a close relationship between NPFF, drug rewarding and the dopaminergic and serotoninergic neurons in the mesolimbic system.     

Participation of lymphoid cells in the withdrawal syndrome of opiate dependent rats

Treatment of rats with 500 Rads whole-body ionizing irradiation prior to chronic administration of morphine reduced the severity of the naloxone induced withdrawal signs. In contrast, adoptive transfer of 2-6 X 10(8) lymphoid cells to irradiated rats prior to chronic morphine treatment completely restored the ability to manifest the withdrawal signs precipitated by naloxone. These observations offer the possibility that the immune system participates in opiate addiction.     

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。