Effects of Systemic Nicotine,Alcohol or Their Combination on Cholinergic Markers in the Frontal Cortex and Hippocampus of Rat

Acute alcohol (Alc) intoxication has been shown to decrease choline acetyltransferase (ChAT) in the rat brain. The present study extends that finding by examining the effects of nicotine (Nic), Alc, and their combination on ChAT and acetylcholinesterase (AChE) in the frontal cortex and hippocampus of rat. The samples were collected at 30 and 120 min after intraperitoneal administration of saline (0.9%, control), Nic (1 mg/kg), Alc (1 g/kg), and Nic + Alc and analyzed by RT-PCR, Western blot and colorimetry. Alc alone considerably reduced ChAT mRNA expression, whereas Nic alone decreased AChE mRNA expression. In contrast, Nic + Alc exposure had resulted in no significant change in the parameters. These findings are consistent with the results of the Western blot and AChE activity analysis. The results, therefore, indicate that Nic and Alc alone may interact with the central cholinergic system. This interactive effect may contribute to a frequent association of tobacco and Alc consumption.     

Acamprosate Modulates Alcohol-Induced Hippocampal NMDA Receptors and Brain Microsomal Ca2+-ATPase but Induces Oxidative Stress in Rat

We investigated the effects of acamprosate on alcohol-induced oxidative toxicity, microsomal membrane Ca²⁺-ATPase (MMCA) activity and N-methyl-d-aspartate receptor (NMDAR) subunits in rat brain. Forty male rats were equally divided into four groups. The first group was used as control, and the second group received ethanol. Acamprosate and acamprosate plus ethanol each day were administered to rats constituting the third and fourth groups for 21 days, respectively. Brain cortical and hippocampal samples were taken from the four groups after 21 days. Brain cortical lipid peroxidation (LP) levels and MMCA activity were higher in the alcohol group than in control, although glutathione peroxidase (GSH-Px), vitamin C, vitamin E and β-carotene values were lower in the alcohol group than in control. LP levels were further increased in the acamprosate and alcohol + acamprosate groups compared with the alcohol group. GSH-Px, vitamin A, vitamin C, vitamin E and β-carotene in the acamprosate and alcohol + acamprosate groups were further decreased compared with the alcohol group. Hippocampal NMDAR 2A and 2B subunit concentrations were lower in the alcohol group than in control, although they were increased by acamprosate and alcohol + acamprosate. Brain cortical MMCA activity was higher in the acamprosate group than in the alcohol-treated rats, although its activity was lower in the alcohol + acamprosate group than in the acamprosate group. Brain cortical reduced glutathione levels were not found to be statistically different in any of the groups. Oxidative stress has been proposed to explain the biological side effects of experimental alcohol intake. Acamprosate and alcohol-induced oxidative stress decreased brain antioxidant vitamins in the alcoholic rats.     

Acamprosate-responsive brain sites for suppression of ethanol intake and preference

Acamprosate suppresses alcohol intake and craving in recovering alcoholics; however, the central sites of its action are unclear. To approach this question, brain regions responsive to acamprosate were mapped using acamprosate microimplants targeted to brain reward and circadian areas implicated in alcohol dependence. mPer2 mutant mice with nonfunctional mPer2, a circadian clock gene that gates endogenous timekeeping, were included, owing to their high levels of ethanol intake and preference. Male wild-type (WT) and mPer2 mutant mice received free-choice (15%) ethanol/water for 3 wk. The ethanol was withdrawn for 3 wk and then reintroduced to facilitate relapse. Four days before ethanol reintroduction, mice received bilateral blank or acamprosate-containing microimplants releasing ～50 ng/day into reward [ventral tegmental (VTA), peduculopontine tegmentum (PPT), and nucleus accumbens (NA)] and circadian [intergeniculate leaflet (IGL) and suprachiasmatic nucleus (SCN)] areas. The hippocampus was also targeted. Circadian locomotor activity was measured throughout. Ethanol intake and preference were greater in mPer2 mutants than in wild-type (WT) mice (27 g·kg(-1)·day(-1) vs. 13 g·kg(-1)·day(-1) and 70% vs. 50%, respectively; both, P < 0.05). In WTs, acamprosate in all areas, except hippocampus, suppressed ethanol intake and preference (by 40-60%) during ethanol reintroduction. In mPer2 mutants, acamprosate in the VTA, PPT, and SCN suppressed ethanol intake and preference by 20-30%. These data are evidence that acamprosate's suppression of ethanol intake and preference are manifest through actions within major reward and circadian sites.     

Electroacupuncture Reduces Voluntary Alcohol Intake in Alcohol-preferring Rats via an Opiate-sensitive Mechanism

Electroacupuncture (EA) has been shown to modify the effects of various drugs of abuse, including alcohol. Inbred P rats were trained to drink alcohol voluntarily and then subjected to two periods of alcohol deprivation lasting 3 days. During the second deprivation, the rats received either EA or sham EA. The rats were pretreated with naltrexone (5 mg/kg) or saline 30 min before each of the EA or sham EA sessions. Approximately 6 h after the last naltrexone or saline treatment, the alcohol tubes were returned and alcohol and water intakes were recorded later at 2, 4, 6, and 24 h. Only EA led to a decrease in alcohol intake, which was most prominent at 6 and 24 h, and this inhibitory effect of EA was blocked by naltrexone, suggesting that activation of the endogenous opiate system may be responsible for EA’s effects on alcohol intake in the alcohol-dependent iP rats. Special issue article in honor of Ji-Sheng Han.     

"Paradoxical" analgesia and aggravated morphine dependence induced by opioid antagonists

Chronic treatment with naloxone (Nx) or naltrexone (Ntx) induces paradoxical analgesia. In the present study, the effects of chronic treatment with opioid receptor antagonists, such as nor-binaltorphimine (nor-BNI) for kappa and naltrindole (NTI) for delta receptors, on analgesic response using the hot plate test and on morphine physical dependence in rats were examined. The hot plate latency was significantly increased by pretreatment with Nx (5 mg/kg, s.c.), nor-BNI (20 mg/kg, i.p.) or NTI (20 mg/kg, i.p.) for 5 days. After chronic pretreatment with these antagonists, the rats were treated with morphine-admixed food (0.5 mg/g of food) for 3 days. Chronic pretreatment with Nx and NTI significantly increased Nx precipitated body weight loss in morphine dependent rats, while chronic pretreatment with nor-BNI produced small increase. These results indicate that chronic treatment with nor-BNI or NTI as well as with Nx induces obviously paradoxical analgesia, and that chronic blockade of mu or delta may enhance the development of physical dependence on morphine.     

Stereological study of rat spleen following acute ethanol treatment

To investigate the acute effect of ethanol (4 g/kg, i.p.) on spleen adult female Wistar rats were treated intraperitoneally with: a) ethanol (4 g/kg body wt), b) naltrexone (5 mg/kg body wt) followed 45 minutes later by ethanol (4 g/kg body wt) and c) naltrexone (5 mg/kg body wt) alone. Untreated and saline-treated rats were used as controls. Twenty hours after the ethanol treatment the animals were sacrificed and the spleens were removed. A piece of tissue from the central part of each organ was fixed in Bouin's solution. Paraffin sections were stained with hematoxylin-eosin and analysed using stereological measurements. The volume densities of the following tissue compartments: red pulp, white pulp (divided in follicles, periarterioral lymphatic sheath and marginal zone) and the connective tissue were determined. Stereological analysis also included parameters of follicles: the areal numerical density (the number of follicles per 1 mm2 of tissue section), the numerical density (the number of follicles per mm3 of tissue) and the mean follicle diameter. The immunoarchitecture of the spleen was preserved following acute ethanol treatment. Unlike other parameters that were unaffected, ethanol evoked a decrease in both volume density of follicle and the mean follicle diameter. Naltrexone pretreatment had no influence on ethanol-induced changes. The data obtained indicate that a single dose of ethanol has a profound effect on rat spleen affecting the follicles, but the mechanism of its action remains to be elucidated.     

Circadian and acamprosate modulation of elevated ethanol drinking in mPer2 clock gene mutant mice

The PER2 clock gene modulates ethanol consumption, such that mutant mice not expressing functional mPer2 have altered circadian behavior that promotes higher ethanol intake and preference. Experiments were undertaken to characterize circadian-related behavioral effects of mPer2 deletion on ethanol intake and to explore how acamprosate (used to reduce alcohol dependence) alters diurnal patterns of ethanol intake. Male mPer2 mutant and WT (wild-type) mice were entrained to a 12:12?h light-dark (12L:12D) photocycle, and their locomotor and drinking activities were recorded. Circadian locomotor measurements confirmed that mPer2 mutants had an advanced onset of nocturnal activity of about 2?h relative to WTs, and an increased duration of nocturnal activity (p < .01). Also, mPer2 mutants preferred and consumed more ethanol and had more daily ethanol drinking episodes vs. WTs. Measurements of systemic ethanol using subcutaneous microdialysis confirmed the advanced rise in ethanol intake in the mPer2 mutants, with 24-h averages being ～60 vs. ～25?mM for WTs (p < .01). A 6-day regimen of single intraperitoneal (i.p.) acamprosate injections (300?mg/kg) at zeitgeber time (ZT) 10 did not alter the earlier onset of nocturnal ethanol drinking in the mPer2 mutants, but reduced the overall amplitude of drinking and preference (both p < .01). Acamprosate also reduced these parameters in WTs. These results suggest that elevated ethanol intake in mPer2 mutants may be a partial consequence of an earlier nighttime activity onset and increase in nocturnal drinking activity. The suppressive action of acamprosate on ethanol intake is not due to an altered diurnal pattern of drinking, but rather a decrease in the number of daily drinking bouts and amount of drinking per bout.     

Effects of dihydroergotoxine (hydergine) on peripheral blood alcohol levels

To examine the effects of dihydroergotoxine (DHET) on peripheral blood ethanol levels of adult female mice, ethanol (2 g/kg) was administered orally, either alone or in combination with DHET (2, 4, or 8 mg/kg). Blood was drawn after the first day of drug administration (acute study) and again after 21 days (chronic study). Two additional groups of mice received a single dose of ethanol (2 g/kg) and DHET (2 mg/kg) 15 minutes apart, one group receiving ethanol first, the other DHET as the first dose. Blood samples (100μ1) were collected from the tail vein at 5, 15, 30, 60, 120 and 180 minutes after treatment. Samples were analyzed by headspace gas chromatography. Results indicate that (a) combining ethanol with DHET significantly reduced blood ethanol levels compared to administration of ethanol alone, (b) chronic conditions produced higher blood ethanol levels, and (c) administration of ethanol 15 minutes before DHET produced a 27% lowering of peripheral blood alcohol levels compared to the reverse order of administration. These data suggest that DHET may be useful for alleviating some of the symptoms associated with alcohol intoxication.     

Behavioral interactions between ethanol and imidazodiazepines with high affinities for benzodiazepine receptors

The intrinsic effects of two imidazodiazepines RO 15-3505 and RO 17-1812 on the behavior of mice in a holeboard test were investigated. The interactions of these two drugs with ethanol were also studied. RO 15-3505 (0.75-6.0 mg/kg) failed to significantly alter either exploratory head-dipping or locomotor activity when administered alone but doses of 0.75 and 1.5 mg/kg reversed the reduction in the number of head-dips caused by ethanol (2 g/kg) and partially reversed ethanol's locomotor stimulant action. In contrast, RO 17-1812 (0.75-6.0 mg/kg) increased locomotor activity when administered alone, and enhanced the reduction in exploration caused by ethanol. Neither RO 15-3505 nor RO 17-1812 altered blood alcohol concentrations suggesting a pharmacodynamic basis for these interactions. The results suggest that in the holeboard test the interactions of imidazodiazepines with ethanol are related to the nature of their interaction with benzodiazepine receptors, inverse agonists antagonising and agonists enhancing ethanol's effects on exploration.     

Nimodipine's interactions with other drugs: I. Ethanol

Adult mice (Binghamton Heterogeneous stock) received different doses of ethanol (0.5, 1.0, or 2.0 g/kg) administered alone or in combination with the voltage-sensitive calcium channel antagonist, nimodipine (Bay e 9736). Both 20 and 60 minutes later, sensitivity to ethanol was assessed in terms of rotorod activity and changes in rectal temperatures. Nimodipine (5 mg/kg) alone did not alter rectal temperature or motor coordination, but at both observation periods nimodipine potentiated the hypothermia induced by the highest dose of alcohol (2.0 g/kg) and exaggerated alcohol-induced motor incoordination at all doses. The present set of results indicates that the inhibition of voltage-dependent calcium channels can exaggerate ethanol-induced effects.     

Impact of zinc,selenium and lycopene on capsaicin induced mutagenicity and oxidative damage in mice

Capsaicin is employed as a condiment and colorant in the cosmetic and pharmaceutical industries. Metabolism of capsaicin produces reactive phenoxy radicals, which inflict damage to DNA. Micronutrients such as zinc and selenium facilitate the expression of tissue repair factors, and lycopene has natural antioxidant action. The current study investigated the possible protective role of zinc, selenium and lycopene singly and in combination in ameliorating capsaicin induced mutagenicity. Fifty four Swiss albino mice received the vehicle, zinc (10 mg/kg), selenium (2 mg/kg), lycopene (2 mg/kg) alone, capsaicin alone (2 mg/kg), and capsaicin along with zinc (10 mg/kg), selenium (2 mg/kg) and lycopene (2 mg/kg) in combination by the oral route for 32 days. Animals were killed 24 h after the last treatment, and micronuclei formation in bone marrow and peripheral blood were assessed. Antioxidant status in plasma, the total protein, nucleic acids, and DNA fragmentation was assessed in the liver homogenate. Capsaicin substantially damaged nuclear material and increased oxidative stress. Individual therapy with lycopene was most effective in reducing micronuclei formation, lipid peroxidation, and in augmenting ferric reducing ability of plasma. This was closely followed by zinc and selenium. Zinc protected against DNA fragmentation followed by lycopene and selenium. The combination therapy was effective over individual treatment against DNA fragmentation, micronuclei and malondialdehyde formation. The combination did not exert a substantial benefit over individual therapy in enhancing the total antioxidant ability of plasma. The risk of capsaicin induced mutagenicity was lowered with the combination by reducing the generation of free radicals and by enhancing tissue repair.     

Potentiation by naltrexone of d-amphetamine-induced behavioral suppression and its reversal by clonidine

Rats were trained to perform a fixed ratio-15 operant for food reinforcement during a 30 minute daily session. Naltrexone, in doses up to 45 mg/kg administered 15 min before the behavioral session, failed to disrupt responding. However, 0.3 and 1.0 mg naltrexone/kg produced a dose related potentiation of the operant behavioral suppression induced by 1.0 mg d-amphetamine/kg injected immediately before the session. The naltrexone/d-amphetamine combination also produced excessive salivation and postural abnormalities not seen when either drug was administered alone. [A subsequent study indicated that the salivation induced by naltrexone in combination with d-amphetamine may require previous exposure to naltrexone and/or d-amphetamine.] Blockade of dopamine receptors with pimozide did not modify the interaction. Functional noradrenergic blockade with a low dose of clonidine significantly reversed the potentiated suppression, of operant behavior, as well as the excessive salivation and abnormal posture. These data suggest that there is an important noradrenergic component to the interaction of naltrexone with d-amphetamine. The impressive interaction of behaviorally inactive doses of naltrexone with a moderate dose of d-amphetamine reported here for rats may have clinical implications for detoxified opiate addicts maintained on naltrexone in antagonist therapy programs.     

Interactive effect of arsenic and fluoride on cardio-respiratory disorders in male rats: possible role of reactive oxygen species

Epidemiological evidence demonstrates positive correlation between environmental and occupational arsenic or fluoride exposure and risk to various cardio-respiratory disorders. Arsenic-exposure has been associated with atherosclerosis, hypertension, cerebrovascular diseases, ischemic heart disease, and peripheral vascular disorders, whereas Fluoride-exposure manifests cardiac irregularities and low blood pressure (BP). Present study aims to study the combined effects of these toxicants on various cardio-respiratory variables in male rats. Single intravenous (i.v.) dose of arsenic (1, 5, 10 mg/kg) or fluoride (5, 10, 20, 36.5 mg/kg) either alone or in combination were administered. Individual exposure to arsenic or fluoride led to a significant depletion of mean arterial pressure, heart rate (HR), respiration rate and neuromuscular (NM) transmission in a dose-dependent manner. These changes were accompanied by increased levels of blood reactive oxygen species (ROS) and decreased glutathione (GSH) concentrations. An increase in the blood acetyl cholinesterase (AChE) activity was observed in both arsenic or fluoride exposed rats. These changes were significantly more pronounced in arsenic-exposed animals than in fluoride. During combined exposure to arsenic (5 mg/kg) + fluoride (20 mg/kg) or arsenic (10 mg/kg) + fluoride (36.5 mg/kg) the toxic effects were more pronounced compared to individual toxicities of arsenic or fluoride alone. However, combined exposure to arsenic (5 mg/kg) + fluoride (36.5 mg/kg) resulted in antagonistic effects on variables suggestive of altered cardio-respiratory function and oxidative stress. The results from the present study suggest that arsenic or fluoride individually demonstrate cardio-respiratory failure at all doses whereas during combination exposure these toxins show variable toxicities; both synergistic and antagonistic effects depending upon the dose. Moreover, it may be concluded that arsenic and/or fluoride cardio-respiratory toxicity may be mediated via oxidative stress. However, these results are new in the discipline thus requires further exploration.     

Anti-malarial effect of a combination of risedronate and azithromycin against Plasmodium yoelii nigeriensis infection in Swiss mice

Combination therapy is used to retard the selection of malaria parasite strains resistant to individual components of a combination of drugs. This approach has proved to be a success in the combination of sulphadoxine and pyrimethamine, which targets two different steps in the folate pathway of malaria parasites. However, after the success of this therapeutic combination, the efficacy of other combinations of drugs that target different enzymes in a particular metabolic pathway has, apparently, not been reported. In the current study, the antimalarial effect of a combination of risedronate (RIS), which is known for its anti-osteoporosis activity, and azithromycin (AZT) was investigated. Peter's suppression test was carried out on mice infected with 1 × 10⁷ P. yoelii infected erythrocytes. Drug efficacy was analyzed by comparing the percent reduction in parasitaemia on day 4 post-infection. RIS was observed to be a blood schizonticidal agent against P. yoelii infection which showed ED₅₀ 7.0 (4.04–12.13) mg/kg/day x 4. Normalized isobologram showed additive action between RIS 1 mg/kg/day x 4 and AZT 10 mg/kg/day x 4, and antagonistic action for the rest of the combinations (RIS 1 + AZT 20, RIS 1 + AZT 40, RIS 5 + AZT 10, RIS 5 + AZT 20, RIS 5 + AZT 40, RIS 10 + AZT 10, RIS 10 + AZT 20 and RIS 10 + AZT 40 mg/kg/day x 4). Furthermore, a combination of RIS with AZT showed inferior efficacy as compared to AZT treatment alone. This antagonistic interaction may be due to the high accumulation of AZT in WBCs, which will reduce its serum bio-availability, whereas RIS has anti-parasitic activity by increasing WBCs.     

Circadian and Acamprosate Modulation of Elevated Ethanol Drinking in mPer2 Clock Gene Mutant Mice

The PER2 clock gene modulates ethanol consumption, such that mutant mice not expressing functional mPer2 have altered circadian behavior that promotes higher ethanol intake and preference. Experiments were undertaken to characterize circadian-related behavioral effects of mPer2 deletion on ethanol intake and to explore how acamprosate (used to reduce alcohol dependence) alters diurnal patterns of ethanol intake. Male mPer2 mutant and WT (wild-type) mice were entrained to a 12:12?h light-dark (12L:12D) photocycle, and their locomotor and drinking activities were recorded. Circadian locomotor measurements confirmed that mPer2 mutants had an advanced onset of nocturnal activity of about 2?h relative to WTs, and an increased duration of nocturnal activity (p < .01). Also, mPer2 mutants preferred and consumed more ethanol and had more daily ethanol drinking episodes vs. WTs. Measurements of systemic ethanol using subcutaneous microdialysis confirmed the advanced rise in ethanol intake in the mPer2 mutants, with 24-h averages being ～60 vs. ～25?mM for WTs (p < .01). A 6-day regimen of single intraperitoneal (i.p.) acamprosate injections (300?mg/kg) at zeitgeber time (ZT) 10 did not alter the earlier onset of nocturnal ethanol drinking in the mPer2 mutants, but reduced the overall amplitude of drinking and preference (both p < .01). Acamprosate also reduced these parameters in WTs. These results suggest that elevated ethanol intake in mPer2 mutants may be a partial consequence of an earlier nighttime activity onset and increase in nocturnal drinking activity. The suppressive action of acamprosate on ethanol intake is not due to an altered diurnal pattern of drinking, but rather a decrease in the number of daily drinking bouts and amount of drinking per bout. (Author correspondence: jglass@kent.edu)     

Nicotine improves ethanol-induced memory impairment: The role of dorsal hippocampal NMDA receptors

AimsThe current study was undertaken to determine the role of dorsal hippocampal N-methyl-d-aspartate (NMDA) receptors in nicotine's effect on impairment of memory by ethanol.Main methodsAdult male mice were cannulated in the CA1 regions of dorsal hippocampi and trained on a passive avoidance learning task for memory assessment.Key findingsWe found that pre-training intraperitoneal (i.p.) administration of ethanol (0.5 and 1 g/kg) decreased memory retrieval when tested 24 h later. Pre-test administration of ethanol reversed the decrease in inhibitory avoidance response induced by pre-training ethanol. Similar to ethanol, pre-test administration of nicotine (0.125–0.75 mg/kg, s.c.) prevented impairment of memory by pre-training ethanol. In the animals that received ethanol (1 g/kg, i.p) before training and tested following intra-CA1 administration of different doses of NMDA (0.0005–0.005 µg/mouse), no significant change was observed in the retrieval latencies. Co-administration of the same doses of NMDA with an ineffective dose of nicotine (0.125 mg/kg, s.c.) significantly improved the memory retrieval and mimicked the effects of pre-test administration of a higher dose of nicotine. Pre-test intra-CA1 microinjection of MK-801 (0.25–1 µg/mouse), which had no effect alone, in combination with an effective dose of nicotine (0.75 mg/kg, s.c.) prevented the improving effect of nicotine on memory impaired by pre-training ethanol. Moreover, intra-CA1 microinjection of MK-801 reversed the NMDA-induced potentiation of the nicotine response.SignificanceThe results suggest the importance of NMDA glutamate system(s) in the CA1 regions of dorsal hippocampus for improving the effect of nicotine on the ethanol-induced amnesia.     

Effects of PKA modulation on the expression of neuropeptide Y in rat amygdaloid structures during ethanol withdrawal

We recently reported that neuropeptide Y (NPY) protein levels and cAMP responsive element binding (CREB) protein phosphorylation are lower in amygdaloid structures during ethanol withdrawal after chronic exposure. Furthermore, we reported that normalization of CREB phosphorylation by infusing protein kinase A (PKA) activator into the central amygdala prevents anxiety-like effects in rats during ethanol withdrawal. Here we investigated whether normalization of CREB phosphorylation by infusing PKA activator (Sp-cAMP) into the central amygdala also normalizes the expression of NPY during ethanol withdrawal. Sprague-Dawley male rats were cannulated targeting the central amygdala and then treated either with Lieber-DeCarli ethanol diet or control diet for 15 days. Subsequently ethanol-fed rats were withdrawn for 0 and 24h. The control-diet fed and ethanol-withdrawn rats were infused twice with PKA activator or inhibitor (Rp-cAMP). The protein and mRNA levels of NPY were determined in amygdaloid structures using gold-immunolabeling and the in situ RT-PCR procedure. It was found that chronic ethanol treatment has no effect on mRNA and protein levels of NPY in the central, medial, or basolateral amygdala. On the other hand, ethanol withdrawal produced significant reductions in mRNA and protein levels of NPY in the central and medial but not in the basolateral amygdala. The reductions in mRNA and protein levels of NPY were normalized in the central amygdala by infusion with PKA activator in ethanol-withdrawn rats. On the other hand, PKA-inhibitor infusion does not have any effect on mRNA and protein levels of NPY in the central amygdala of ethanol-withdrawn rats, but significantly decreased the expression of NPY in the central amygdala of control-diet fed rats. These results suggest that the decreased cellular expression of NPY in the central amygdala may play an important role in the CREB-mediated regulation of anxiety-like behaviors during ethanol withdrawal.     

Central, stereoselective receptors mediate the acute effects of opiate antagonists on luteinizing hormone secretion

Although a central site of acute opiate action in regulating luteinizing hormone (LH) secretion has been suggested by the ability of centrally implanted opiate antagonists to increase LH levels, opiate antagonists are lipophilic and could influence the pituitary in situ. Also, the physiological significance of opiate receptor blockade with antagonists rests on the assumed, but untested, stereoselectivity of these receptors. Therefore, a lipophobic quaternized derivative of naltrexone (MRZ 2663-Naltrexone methobromide) and dextro- (+) and levo- (-) stereoisomers of naloxone were used to study the site- and stereoselectivity of gonadotropin responses to opiate antagonists in vivo. Male rats were injected intracerebroventricularly (icv) or intravenously (iv) with the quaternary or tertiary congeners of naltrexone and subcutaneously (sc) with (-) or (+)-naloxone. Rats injected icv with 20 ug of quaternary naltrexone displayed significant increases in serum luteinizing hormone (LH). The onset of the response was rapid with serum LH levels being significantly elevated 15 minutes after the injection and returning to basal levels 30 minutes later. Rats injected iv with 10 mg/kg of quaternary naltrexone failed to show significant LH responses. Rats injected either centrally or periphally with equivalent doses of tertiary naltrexone showed LH responses that were similar to those found in animals injected icv with quaternary naltrexone. As little as 0.5 mg/kg of (-)-naloxone resulted in significant elevations in serum LH that were higher than those elicited by up to 10 mg/kg of (+)-naloxone, indicating that this effect of naloxone is stereoselective. These data support the argument that opioids can acutely modulate LH secretion through actions at stereoselective opioid receptors in the central nervous system.     

Role of the central amygdala GABA-A receptors in morphine state-dependent memory

AimsIn the present experiments, the effects of bilateral microinjections of the GABA-A receptor agonist and/or antagonist into the central amygdala (CeA) on morphine state-dependent memory were examined.Main methodsIn order to assess memory retrieval, a step-through passive avoidance task was used in adult male Wistar rats.Key findingsSubcutaneous (s.c.) administration of morphine (5 and 7.5 mg/kg) immediately after training (post-training) decreased the memory retrieval. Pre-test administration of the opioid (7.5 mg/kg) also induced amnesia. The response induced by post-training morphine (7.5 mg/kg) was significantly reversed by pre-test administration of the drug (5 and 7.5 mg/kg), indicating morphine state-dependent memory. Pre-test intra-CeA microinjection of muscimol, a GABA-A receptor agonist (0.01, 0.02 and 0.03 µg/rat) reduced morphine state-dependent memory. However, the same doses of muscimol by itself had no effect on memory retrieval. Furthermore, pre-test intra-CeA microinjection of bicuculline, a GABA-A receptor antagonist by itself did not alter memory retrieval. The antagonist also did not change post-training morphine (7.5 mg/kg)-induced amnesia, but in combination with a lower dose of morphine (0.5 mg/kg), improved memory performance. Moreover, muscimol's ability to interfere with morphine state-dependent memory was reversed by co-injection of bicuculline.SignificanceThe results suggest that GABA-A receptor mechanism of the CeA may influence morphine state-dependent memory.     

Inhibition of Succinate Dehydrogenase by Malonic Acid Produces an "Excitotoxic" Lesion in Rat Striatum

Abstract: Clinical and preclinical evidence supports a possible role for thyrotropin-releasing hormone (TRH) in cocaine action. However, the interaction between cocaine and TRH has not been directly examined. In the following report we describe a solution hybridization RNase protection assay that can sensitively detect mRNA for the TRH precursor, prepro-TRH (ppTRH). Using this assay, we examined ppTRH mRNA levels in rat brain regions implicated in cocaine reinforcement, including the nucleus accumbens, hypothalamus, amygdala, hippocampus, and thalamus. Acute cocaine treatment (15 mg/kg) resulted in significant decreases in ppTRH mRNA levels in the amygdala and hippocampus, but not in the hypothalamus, nucleus accumbens, or thalamus, 45 min postinjection. Chronic cocaine treatment (15 mg/kg twice daily for 14 days) resulted in marked regulation in all regions but the thalamus. Regulation was strongly dependent on the length of cocaine withdrawal and persisted up to 72 h postinjection in the amygdala. These studies support the hypothesis that TRH or other ppTRH-derived peptides are involved in cocaine action, especially in the extrahypothalamic regions of the amygdala and hippocampus.