The role of mu1 receptor in physical dependence on morphine using the mu receptor deficient CXBK mouse.

It is known that the CXBK inbred strain of mouse is deficient in mu1 opioid receptors, whereas the strain has a delta opioid receptor population that is less consistently altered. In the present study, we compared physical dependence on morphine between CXBK and C57BL/6 mice. Both strains of mice were treated with morphine-admixed food for 5 days. During the treatment, the two strains of mice showed no signs of toxicity. There was no significant difference in morphine intake during the treatment between CXBK and C57BL/6 mice. After the treatment, the withdrawal was precipitated by injecting naloxone (0.01-30 mg/kg, s.c.). CXBK mice showed weight loss, diarrhea and ptosis, but not jumping and body shakes after low dose of naloxone. Whereas, C57BL/6 mice showed weight loss, diarrhea, ptosis, body shakes and jumping. These results suggest that naloxone-precipitated weight loss, diarrhea and ptosis may be mediated by mu2 and/or delta opioid receptor, while naloxone-precipitated jumping and body shakes may be mediated by mu1 opioid receptors.     

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.     

C57BL/6J-bgJ (beige) mice: differential sensitivity in the tail flick test to centrally administered mu- and delta-opioid receptor agonists

The antinociceptive effects of two mu-opioid receptor agonists, morphine and [D-Ala2, MePhe4, Gly-ol5]enkephalin (DAGO), and a selective delta-receptor agonist, [D-Pen2, L-Pen5]enkephalin (DPLPE), were determined in C57BL/6J-bgJ (beige) and control mice (CRS-CDl and C57BL/6By) using a standard tail-flick assay. The antinociceptive response of C57BL/6J-bgJ mice to intracerebro-ventricularly administered morphine and DAGO was significantly reduced compared to controls, but there was no difference in the antinociceptive response to DPLPE. These results suggest that there is a genetic deficit of mu-opioid receptor number or a genetically-induced alteration in receptor function in regions of C57BL/6J-bgJ brains involved in antinociception, that delta-opioid receptors can mediate antinociception in mice, and that the C57BL/6J-bgJ strain may offer a practical new animal model for studying the function of opioid receptor subtypes.     

Morphine-modulated mast cell migration and proliferation during early stages of zymosan-induced peritonitis in CBA mice

We have previously shown that supplementation of inflammation-inducing zymosan with a high dose ofmorphine inhibits peritoneal influx ofleukocytes in Swiss, C57C3H, Balb/c, and C57BL/6 strains but not in CBA mice. We have also reported that the different pattern of the response to morphine treatment might be, at least partially, due to the inter-strain differences in the peritoneal mast cell (P-MC) number (high in CBA mice versus other strains) and P-MC specific features (high sensitivity to degranulation upon morphine treatment in CBA mice). The aim of the present study was to investigate the mechanism of morphine action on P-MC in CBA mice. In particular, the effects of morphine on the proliferation and migration of P-MC in CBA mice with ongoing zymosan-induced peritonitis modulated by morphine were studied. Morphine alone acted as a strong chemoattractant for P-MC of CBA mice and this effect was opioid receptor-independent. Moreover, flow cytometric analysis showed that i.p. morphine injection induced significant proliferation of P-MC in CBA mice. Therefore, we conclude that the lack of anti-inflammatory effects of morphine during peritonitis in CBA mice might result not only from a unique sensitivity of CBA mast cells to morphine-induced degranulation but also from the fact that mast cell numbers increase at the inflammatory focus. The latter might be due to morphine-induced mast cell proliferation and/or migration.     

Difference in the development of tolerance to morphine and d-ala2-methionine-enkephalin in C57 BL/6J and DBA/2J mice

The analgesic effect elicited by intracerebroventricular (icv) administration of either morphine or d-ala²-methionine-enkephalin (d-ala²-met-enk) was studied during the onset and offset of morphine tolerance in DBA/2_J (DBA) and C₅₇ BL/6_J (C₅₇) strains of mice. DBA mice become tolerant to the analgesic effect of morphine icv injected after receiving 8 subcutaneous (sc) injections (2 injections daily × 4 days) of the ED₅₀ of morphine for analgesia. In c₅₇ mice tolerance to morphine icv-administered is evident after only a single sc injection of morphine ED₅₀. On the contrary the development of cross-tolerance to the analgesic effect of d-ala²-met-enk is similar in both strains of mice. With respect to the offset period, the recovery of the analgesic effect of morphine and d-ala²-met-enk is slower in C₅₇ than in DBA mice; in C₅₇ mice tolerance to both morphine and d-ala²-met-enk is still present 10 days after morphine withdrawal. These results suggest the existence of a strain dependent rate in the onset of tolerance to the analgesic effect of morphine. C₅₇ mice represent an interesting tool to investigate tolerance to opiates and opioid peptides.     

Effects of in vivo morphine treatment on antibody responses in C57BL/6 bgJ/bgJ (beige) mice

C57BL/6J bg^J/bg^J (beige) mice are less sensitive than other strains to the analgesic effects of morphine, although they have normal numbers of μ receptors. In the present study, beige mice and their normal littermates (beige⁺) were treated in vivo with morphine or the opioid antagonist, naltrexone and their primary in vitro antibody responses were assessed. Morphine treatment caused splenic atrophy and suppressed the primary in vitro antibody response in beige and beige⁺ mice. However, these effects were not blocked by naltrexone co-treatment. In these mouse strains, naltrexone decreased spleen size and antibody responses by itself, which may mask its ability to antagonize morphine. In beige mice, placebo pellet implantation suppressed the primary in vitro antibody response. Morphine did not cause a further suppression of the antibody response in beige mice compared to placebo. Because of this anomalous response to placebo treatment, the immunosuppressive effects of morphine on the antibody response/10⁷ cells can not be attributed to a specific drug effect in this strain. However, when antibody responses were expressed on a per spleen basis, the overall capacity to respond to antigenic challenge was suppressed by morphine treatment.     

Atypical endogenous opioid systems in mice in relation to an auto-addiction opioid model of anorexia nervosa

We have proposed that the atypical opioid system in the mouse may be representative of that in the anorexia nervosa patient and may account for a biological predisposition to the disorder. This is in the context of our auto-addiction model of anorexia nervosa in which endogenous opioids play a critical role in its etiology. Morphine activation of the endogenous opioid systems increases food intake and causes sedation in most species, including normal humans and rats. In contrast in BALB/C mice, morphine causes anorexia and hyperactivity, which we suggest may be true in the anorexia nervosa patient. A variety of atypical opioid systems have been demonstrated in different mouse strains, based on other responses. The present study examines these strains with reference to the responses relevant to our anorexia nervosa model. Three patterns are described--anorexia with hyperactivity (BALB/C and C57BL/6J mice), anorexia without hyperactivity (DBA/J mice), and a biphasic curve with hyperphagia at low doses and anorexia and hyperactivity at higher doses (CF-1 mice). Only female mice were used. These atypical opioid systems may reflect a spectrum of biological predispositions to the disorder. These strain differences may also provide useful correlations of the genetic determinants of various opiate responses and provide useful comparisons in characterizing the essential features responsible for the atypical responses.     

Metabolic responses to leptin in obese db/db mice are strain dependent

Obese, diabetic C57BL/Ks db/db mice that lack the long-form leptin receptor exhibit no decrease in body weight or food intake when treated with leptin. Here we compared responses to leptin in two strains of db/db mice: C57BL/6J mice that are hyperglycemic and hyperinsulinemic and C57BL/Ks that are hyperglycemic and normo- or hypoinsulinemic. Chronic intraperitoneal infusion of 10 microgram leptin/day partially reversed hyperglycemia in C57BL/6J male mice but exaggerated the diabetic state of female mice. Bolus intraperitoneal injections of 40 microgram leptin/day did not effect glucose in either strain of male db/db mice, whereas chronic intraperitoneal infusion of 20 microgram leptin/day significantly reduced fasting blood glucose in male mice from both strains, especially C57BL/6J mice. Food intake, body weight, rectal temperature, and body fat did not change. Chronic intraperitoneal infusion of 10 microgram leptin/day significantly reduced body fat in lean db/+ C57BL/6J but not in C57BL/Ks mice. Thus peripherally administered leptin is active in mice that have only short-form leptin receptors, and the response is dependent on the method of leptin administration and the background strain.     

Itch-scratch responses induced by opioids through central Mu opioid receptors in mice

We examined scratch-inducing effects of intracisternal, intrathecal and intradermal injections of morphine and some opioid agonists in mice. Intracisternal injection of morphine (3 nmol/animal) and the mu-receptor agonist [D-Ala(2), N-Me-Phe(4), Gly(5)-ol]enkephalin (DAMGO; 0.2 nmol/animal) elicited scratching of the face, with little effect on scratching of the trunk. Intracisternal injection of the delta-receptor agonist [D-Pen(2,5)]enkephalin (DPDPE) and the kappa-receptor agonist U50488 were without effects. Intrathecal injection of morphine (0.1-3 nmol/animal) produced a dose-dependent increase in body scratching, with little effects on face scratching. Face scratching induced by intrathecal morphine (3 nmol/animal) was almost abolished by subcutaneous pretreatment with naloxone (1 mg/kg). Intradermal injections of morphine (3-100 nmol/site), DAMGO (1-100 nmol/site), DPDPE (10 and 100 nmol/site) and U50488 (10-100 nmol/site) did not elicit scratching of the site of injection. Intradermal injection of histamine (100 nmol/site) induced the scratching in ICR, but not ddY, mice and serotonin (30 and 50 nmol/site) elicited the scratching in either strain of mice. The results suggest that opioids induce scratching, and probably itching, through central mu-opioid receptors in the mouse.     

Effects of opioid antagonists and their quaternary analogs on temperature changes in morphine-dependent rats

Subcutaneous administration of three opioid antagonists; naloxone, naltrexone and nalmefene, produced a significant rise in tail skin temperature and a subsequent fall in rectal temperature in morphine dependent rats. However, subcutaneous administration of equimolar concentrations of the quaternary derivatives of these opioid antagonists (naloxone methobromide, naltrexone methobromide and n-methylnalmefenium iodide) failed to produce any significant alterations in either tail skin or rectal temperatures in the morphine dependent rat. At doses of naloxone methobromide 6 to 9 times greater than naloxone, there was a slight reduction of rectal temperatures with no significant elevation of skin temperature. However, the fall in rectal temperature was still significantly less than that achieved with administration of naloxone. When each of these six agents were administered centrally (20 micrograms/5 microliter, icv) in the morphine dependent rat, similar increases in tail skin temperature and decreases in rectal temperature were observed. These temperature changes were similar to those observed following systemic administration of the opioid antagonist. Previously, we have suggested that acute withdrawal in the morphine-dependent rat may serve as an animal model for the mechanism of the menopausal hot flush. Collectively, these results suggest that the temperature changes associated with morphine-withdrawal in our rat model for studying the mechanisms of the menopausal hot flush are centrally mediated.     

Development of tolerance to opiates and opioid peptides in organotypic cultures of mouse spinal cord

Following chronic exposure of organotypic explants of mouse spinal cord with attached dorsal root ganglia (DRG) to low levels of morphine (1 μM) for 2–3 days (at 35°C), the initial opiate-depressant effects on sensory-evoked dorsal-horn network responses disappeared and characteristic dorsal cord responses could then be evoked by DRG stimuli in the presence of morphine — even after acute increases in concentration (up to 100-fold). Similar tolerance developed after chronic exposure of cord-DRG explants to low concentrations (10 nM) of an enkephalin analog (Sandoz FK 33-824). The latter cultures showed cross-tolerance to met-enkephalin and opiates; dorsal cord responses could still be evoked even after acute exposure to high levels of morphine. Morphine-tolerant cultures also showed cross-tolerance to met-enkephalin and to the Sandoz opioid peptide (FK 33-824). The tolerant state did not develop if the cultures were incubated at lower temperature, ca. 20°C, during exposure to 1 μM morphine for as long as 7 days. The data indicate that a temperature-dependent metabolic change occurs in these neurons after chronic exposure to morphine at 35°C leading to a sustained decrease in sensitivity to opiate-depressant effects. Enhanced dorsal-horn responses in tolerant cultures suggested development of “dependence” as well as tolerance to opiates in these isolated cord-DRG tissues.     

Deltorphin, a naturally occurring peptide with high selectivity for delta opioid receptors, improves memory consolidation in two inbred strains of mice

Deltorphin, a heptapeptide that selectively binds to delta receptors, was intracerebroventricularly administered to mice belonging to the strains C57BL/6 and DBA/2 immediately after training in a one-trial inhibitory avoidance task. The retention performance of both strains was improved by the peptide administration, with DBA mice being more sensitive to this effect. The results show different effects of delta and mu receptor agonists on memory consolidation and of strain differences in number and/or distribution of delta opioid receptors in the brain.     

Strain difference of mouse in susceptibility to Japanese encephalitis virus infection

Eight strains of mice were examined for their susceptibilities to intraperitoneal infection with AS-6 strain of Japanese encephalitis virus (JEV). 1) C3H/He mice suffered from a high mortality as well as infection rate. 2) C57BL/6, RR, NC and KK mice showed approximately the same infection rates as C3H/He, while these strains showed significantly lower mortalities than C3H/He. 3) AA, BALB/c and ddY mice showed no death and had the lowest infection rates among the eight strains. There was no difference in the virus recovery from six visceral organs (except the brain) between C3H/He, C57BL/6 and AA. Despite the equal degree of preceding viremia, the incidence of encephalitis was much lower in C57BL/6 than in C3H/He. The same strain difference as the above was also observed in C3H/He and C57BL/6 by intravenous inoculation with JEV. However, there was no difference in mortality between C3H/He and C57BL/6 mice when intracerebrally inoculated with JEV. The incubation period and survival time in the intracerebral inoculation were shorter than in the intraperitoneal and intravenous inoculations. The three types of strains were characterized: the first (C3H/He) was highly susceptible to both visceral phase infection (VI) and nervous phase infection (NI): the second (C57BL/6) was susceptible to VI but resistant to NI, and the third (AA) was probably resistant to VI and highly resistant to NI.     

Cardiovascular responses to opioid agonists injected into the nucleus of tractus solitarius of anesthetized cats

It has been proposed that various opiate receptor subtypes mediate different cardiovascular responses to centrally administered opioids. We evaluated this hypothesis in chloralose-urethane anesthetized cats by monitoring the cardiovascular and respiratory responses to relative mu [morphine, morphiceptin, D-Ala2, MePhe4, Gly-ol5 enkephalin (DAGO)] and delta [D-Ala2, D-Leu5enkephalin (DADL)] agonists microinjected (0.5 ul/kg) into the caudal region of the Nucleus of Tractus Solitarius (NTS). Dynorphin (1-13), an endogenous opioid which exhibits selective affinity towards the kappa receptor, was also tested. Dynorphin at a dose of 50 nMol/kg did not alter cardiovascular or respiratory variables. Morphine (10-54 nMol/kg) and DAGO (50 nMol/kg) had no effect on blood pressure, heart rate or respiratory rate; morphiceptin (100-320 nMol/kg) caused tachycardia only at the highest dose. DADL (10-100 nMol/kg) elicited a dose-dependent depression of blood pressure. High doses of DADL depressed heart rate and respiratory rate. The depressor effects of DADL were reversed by low doses of naloxone (0.1 mg/kg). This dose of naloxone also elicited pressor responses in cats treated with the other opioids and reversed the morphiceptin-induced tachycardia. These data indicate that opioid agonists differ with regard to their cardiovascular and respiratory effects following microinjection into the NTS of anesthetized cats, with the delta agonist DADL showing greatest activity.     

Nigrostriatal effects of morphine in two mouse strains

The effects of morphine on nigrostriatal neurons (substantia nigra and caudate nucleus) were examined in mice of two strains (C58 and DBA), which differ in their locomotor response to morphine. The results did not support the hypothesis that the differences in locomotor response to morphine between the two strains are paralleled by differences in the response of nigrostriatal neurons to the same drug. The general effect of morphine on nigrostrial neurons, irrespective of strain, was to markedly depress their firing rate. Some nigrostriatal neurons initially speeded up but this effect was strain independent. This same general pattern was observed in some neurons recorded within the reticular formation. The results are discussed in relationship to the current concepts of morphine action on dopaminergic systems and the role of the nigrostriatal system in locomotor control.     

A comparison of morphine-induced locomotor activity and mesolimbic dopamine release in C57BL6, 129Sv and DBA2 mice

Inbred mouse strains show marked variations in morphine-induced locomotion and reward behaviors. As increases in mesolimbic dopamine release and locomotion have been implicated as being critical aspects of drug-seeking and reward-related behaviors, the present study sought to determine the relationship between morphine-induced changes in locomotion and mesolimbic dopamine release. Freely moving microdialysis of the ventral striatum was performed in mouse strains chosen on the basis of their documented differences in locomotor and reward response to morphine (C57BL6 and DBA2) and use in the production of genetically modified mice (129Sv). Both C57BL6 and 129Sv mice showed significant increases in locomotion and ventral striatal extracellular dopamine levels following subcutaneous morphine administration (3 mg/kg), with the former strain showing the largest increase in both parameters. Ventral striatal extracellular DA levels increased in DBA2 mice to a similar extent as 129Sv mice following morphine administration, despite this strain showing no locomotor response. Intra-strain analysis found no correlation between morphine-induced locomotion and mesolimbic dopamine release in any of the strains studied. Thus, no universal relationship between morphine-induced mesolimbic dopamine release and locomotion exists between, and particularly within, inbred mouse strains. Furthermore, morphine-induced increases in mesolimbic activity correlate negatively with the rewarding potential of morphine described in previously reported conditioned place preference studies.     

Influence of interleukin-2 and interferon-gamma in murine schistosomiasis

Schistosoma mansoni-infected mice were administered at the time of parasite residency in the lung with recombinant murine interleukin (IL)-2 or interferon-gamma (IFN-gamma), to evaluate the impact of cytokines in host responses to primary schistosomiasis. S. mansoni lung-stage schistosomula did not affect plasma lipids levels in BALB/c, while elicited significant (p<0.05) increase in free fatty acids (FA) and decrease in cholesterol plasma levels in C57BL/6 and CD1 mice, and stimulated expression of mRNA for Th2 cytokines in BALB/c and Th1 cytokines in C57BL/6 and CD1 mice. Production of specific antibodies was negligible in the 3 strains. Interleukin-2 treatment elicited significant (p<0.001) decrease in triglycerides (TG) in CD1, and decrease in TG and cholesterol plasma levels and down-regulation of TNF-alpha mRNA expression in C57BL/6 mice. Induction of type 2 cytokines and/or IFN-gamma mRNA expression did not lead to increase in percentage of specific antibody responders in any mouse strain. Exogenous IL-2-related reduction in cholesterol plasma levels and TNF-alpha mRNA expression in C57BL/6 mice was associated with significant (p<0.05) decrease in adult worm recovery and egg count. Treatment with IFN-gamma elicited significant (p<0.05) free FA plasma levels increase in BALB/c and C57BL/6 and decrease in CD1 mice. Expression of type 2 cytokines mRNA was stimulated in BALB/c and CD1 mice, yet was not accompanied with increase in humoral responses. Exogenous IFN-gamma-related reduction in free FA plasma levels and IFN-gamma mRNA response, and up-regulation of TNF-alpha mRNA expression in CD1 mice were associated with significant increase in adult worm burden and egg load. The data were discussed in an attempt to define host factors predictive of resistance to schistosome infection.     

Chronic Morphine Reduces Surface Expression of δ-Opioid Receptors in Subregions of Rostral Striatum

The delta opioid receptor (DOPr), whilst not the primary target of clinically used opioids, is involved in development of opioid tolerance and addiction. There is growing evidence that DOPr trafficking is involved in drug addiction, e.g., a range of studies have shown increased plasma membrane DOPr insertion during chronic treatment with opioids. The present study used a transgenic mouse model in which the C-terminal of the DOPr is tagged with enhanced-green fluorescence protein to examine the effects of chronic morphine treatment on surface membrane expression in striatal cholinergic interneurons that are implicated in motivated learning following both chronic morphine and morphine sensitization treatment schedules in male mice. A sex difference was noted throughout the anterior striatum, which was most prominent in the nucleus accumbens core region. Incontrast with previous studies in other neurons, chronic exposure to a high dose of morphine for 6 days had no effect, or slightly decreased (anterior dorsolateral striatum) surface DOPr expression. A morphine sensitization schedule produced similar results with a significant decrease in surface DOPr expression in nucleus accumbens shell. These results suggest that chronic morphine and morphine sensitisation treatment may have effects on instrumental reward-seeking behaviours and learning processes related to drug addiction, via effects on striatal DOPr function.