The effects of diltiazem, an L-type Ca2+ channel blocker, on naloxone (an opioid receptor antagonist)-precipitated withdrawal signs and changes in extracellular levels of dopamine (DA) and its metabolites in various brain regions of morphine (a mu-opioid receptor agonist) or butorphanol (a mu/delta/kappa mixed opioid receptor agonist) dependent rats were investigated using high performance liquid chromatography fitted with an electrochemical detector (HPLC-ED). Rats were rendered opioid-dependent by continuous intracerebroventricular (i.c.v.) infusion with morphine (26 nmol/microliters per h) or butorphanol (26 nmol/microliters per h) for 3 days. The expression of physical dependence produced by these opioids, as evaluated by naloxone (5 mg/kg. i.p.)-precipitated withdrawal signs, was reduced by concomitant infusion of diltiazem (10 and 100 nmol/microliters per h). Under the same condition, naloxone decreased the levels of: DA in the cortex, striatum, and midbrain; 3,4-dihydroxyphenylacetic acid (DOPAC) in the cortex, striatum, limbic areas, and midbrain: and homovanilic acid (HVA) in the striatum, limbic areas, and midbrain regions. In animals rendered dependent on butorphanol, the results obtained were similar to those of morphine-dependent rats except for the changes in DOPAC levels. Furthermore, concomitant infusion of diltiazem and opioids blocked the decreases in levels of DA, DOPAC, and HVA in a dose-dependent manner. These results suggest that the augmentation of intracellular Ca2+ mediated through L-type Ca2+ channels during continuous opioid infusion results in a decrease in extracellular levels of DA and its metabolites in some specific regions, which are intimately involved in the expression of withdrawal syndrome precipitated by naloxone.
Toxicity in the mouse was produced after oral administration of photomirex at 10, 25 and 50 mg/kg.d in corn oil. Mortality began to occur 4, 7, and 16 d after daily administration of photomirex at 50, 25, and 20 mg/kg, respectively. In all cases, the cumulative LD50 for photomirex was estimated as 225-250 mg/kg. The effect of photomirex on food and water consumption varied depending on dose. Daily oral administration of photomirex caused a dose-dependent loss of body weight. No overt behavioral changes were observed during the experiments. Body temperature was unaffected. Biochemical studies also showed that photomirex did not affect plasma glucose and free fatty acid content and brain biogenic amine levels. It appears that photomirex is similar to mirex in terms of peripheral toxicity.
The effect of Dopram (doxapram hydrochloride, A. H. Robins Co.) on the pharmacologic responses to pentobarbital was evaluated. In naive and pentobarbital-tolerant mice, Dopram was shown to enhance significantly sodium pentobarbital-induced narcosis in a dose-related manner. The effect of the duration of action of Dopram on pentobarbital narcosis also was assessed. It was observed that Dopram (40 mg/kg, i.p.) significantly increased pentobarbital-induced narcosis even when administered 2 hr prior to challenge with sodium pentobarbital (60 mg/kg, i.p.) A significantly increased hypothermic response to sodium pentobarbital was seen in Dopram-treated animals. The half-life of pentobarbital in brain and serum was shown to be increased significantly in animals receiving Dopram, 40 mg/kg, i.p. The waking brain and serum pentobarbital concentrations were not significantly different in either group. These studies show that Dopram potentiates pentobarbital's effects. Further study is necessary to determine the sites of operation and mechanism of this potentiation.
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