Pro-apoptotic properties of morphine in neuroblastoma × glioma NG108-15 hybrid cells: modulation by yohimbine.

Short-term incubation with pharmacologically relevant concentrations of morphine has been shown to transiently affect the metabolism and redox status of NG108-15 cells through δ-opioid receptor stimulation, but apparently did not provoke cell death. The present work tries to determine if incubation with morphine at longer time intervals (24 h) provokes apoptosis and/or necrosis, as it has been described in other cell lines. We have also checked the potential modulatory role of yohimbine on these effects, on the basis of the previously described interactions between this drug and opioid receptor ligands. Incubation with morphine 0.1 and 10 µM provoked the appearance of images compatible with apoptosis (bebbling, pyknotic cells with cytoplasmic and nuclear condensation) and necrosis (cells swollen with vacuolated cytoplasm lacking cell processes) that could be observed directly and/or after staining with methylene blue, crystal violet and propidium iodide/4',6-diamidino-2-phenylindole (IP/DAPI). Quantification of apoptosis by activation of caspases 3 and 7 and DNA fragmentation with the Tunel assay revealed a modest but significant increase after incubation with the two concentrations of morphine used. Co-incubation with 10 µM yohimbine prevented all these effects of the opioid. The results extend previous findings of a yohimbine-sensitive, neurotoxic effect of morphine on NG108-15 cells.

Effects of chronic cocaine administration on spatial learning and hippocampal spine density in two genetically different strains of rats.

Lewis and Fischer-344 rats have been proposed as an addiction model because of their differences in addiction behaviour. It has been suggested that drug addiction is related to learning and memory processes and depends on individual genetic background. We have evaluated learning performance using the eight-arm radial maze (RAM) in Lewis and Fischer-344 adult rats undergoing a chronic treatment with cocaine. In order to study whether morphological alterations were involved in the possible changes in learning after chronic cocaine treatment, we counted the spine density in hippocampal CA1 neurons from animals after the RAM protocol. Our results showed that Fischer-344 rats significantly took more time to carry out test acquisition and made a greater number of errors than Lewis animals. Nevertheless, cocaine treatment did not induce changes in learning and memory processes in both strains of rats. These facts indicate that there are genetic differences in spatial learning and memory that are not modified by the chronic treatment with cocaine. Moreover, hippocampal spine density is cocaine-modulated in both strains of rats. In conclusion, cocaine induces similar changes in hippocampal neurons morphology that are not related to genetic differences in spatial learning in the RAM protocol used here.

Behavioral and in vitro evaluation of tetrodotoxin tolerability for therapeutic applications.

Tetrodotoxin (TTX) injection is currently being studied in clinical trials for potential antinociceptive applications. This work tries to increase the knowledge of its biological tolerability by using a behavioral procedure that can detect aversive effects of drug treatments, as well as in vitro cytotoxicity studies in non-excitable cell systems. Place conditioning studies with Sprague-Dawley male rats showed that pharmacologically active TTX injections (2.5 microg/kg, subcutaneous) were devoid of negative reinforcing properties, the drug being able to prevent the aversive effect of the vehicle. Similarly, TTX was not cytotoxic by itself as evaluated with the neutral red test and the MTT assay in HepG2 cells incubated for 24h with TTX concentrations as high as 400 microM. The results support the idea that low doses of TTX can be well tolerated.

Morphine differentially regulates hsp90beta expression in the nucleus accumbens of Lewis and Fischer 344 rats.

We have comparatively studied hsp90beta gene and protein expression in the nucleus accumbens of Lewis and Fischer 344 (F344) rats, two inbred strains that exhibit prominent behavioural differences in drug-seeking behaviours. Phenotypical studies confirmed that Lewis rats developed a higher preference for morphine-paired environments after conditioning. RT-PCR assays did not reveal strain-related differences in hsp90beta gene expression in basal conditions; however, acute morphine treatment provoked an increase of hsp90beta mRNA 2h after injection only in the case of Lewis rats. We also found a significant upregulation of the Hsp90beta protein in both strains 8h after morphine injection, this increase being significantly higher in Lewis rats. Taking into account the suggested roles for Hsp90 in the brain, the data suggest that Lewis and F344 strain differences concerning opioid-seeking behaviours could be related to differential sensitivity to opioid-induced neuronal plasticity within the brain reward system, an effect that could be mediated (at least partially) by stress proteins.

Shift of circadian feeding pattern by high-fat diets is coincident with reward deficits in obese mice.

Recent studies provide evidence that high-fat diets (HF) trigger both i) a deficit of reward responses linked to a decrease of mesolimbic dopaminergic activity, and ii) a disorganization of circadian feeding behavior that switch from a structured meal-based schedule to a continuous snacking, even during periods normally devoted to rest. This feeding pattern has been shown to be a cause of HF-induced overweight and obesity. Our hypothesis deals with the eventual link between the rewarding properties of food and the circadian distribution of meals. We have investigated the effect of circadian feeding pattern on reward circuits by means of the conditioned-place preference (CPP) paradigm and we have characterized the rewarding properties of natural (food) and artificial (cocaine) reinforcers both in free-feeding ad libitum HF mice and in HF animals submitted to a re-organized feeding schedule based on the standard feeding behavior displayed by mice feeding normal chow ("forced synchronization"). We demonstrate that i) ad libitum HF diet attenuates cocaine and food reward in the CPP protocol, and ii) forced synchronization of feeding prevents this reward deficit. Our study provides further evidence that the rewarding impact of food with low palatability is diminished in mice exposed to a high-fat diet and strongly suggest that the decreased sensitivity to chow as a positive reinforcer triggers a disorganized feeding pattern which might account for metabolic disorders leading to obesity.

Yohimbine does not affect opioid receptor activation but prevents adenylate cyclase regulation by morphine in NG108-15 cells.

AIMS: Yohimbine has been shown to modulate the pharmacological actions of opioid drugs in a way that could be of potential therapeutic interest. This work tries to study if this interaction involves the impairment of opioid receptor activation at the cellular level by studying the effects of morphine and yohimbine on NG108-15 neuroblastoma x glioma hybrid cells. MAIN METHODS: [(35)S]GTPγS binding assays were performed to study δ-opioid and α(2B)-adrenoceptor activation by opioid and adrenoceptor agonists in the presence and absence of yohimbine. The effect of morphine was also studied after 6 h pre-incubations with morphine, yohimbine and combinations of these drugs taking into account previous results showing an interaction between both drugs in these conditions. Forskolin-induced cAMP accumulation was also studied by immunoassay in cells incubated with morphine for 6 h in the presence and absence of naloxone and yohimbine. KEY FINDINGS: Yohimbine behaved as a competitive antagonist/inverse agonist on α(2B)-adrenoceptors but did not modify G-protein activation by morphine, either in acute conditions or after 6 h of incubation. However, morphine-induced inhibition of cAMP accumulation was prevented both by naloxone and yohimbine when these drugs were present in the incubation medium. SIGNIFICANCE: Yohimbine seems to desensitise adenylate cyclase to the inhibitory effect of opioid-activated G proteins. This cellular effect could underlie the antagonistic actions of yohimbine on many pharmacological effects of the opioid both in vitro and in vivo.

Bioactive properties of Tynanthus panurensis (Bureau) Sanwith bark extract, the Amazonian "clavo huasca".

Tynanthus panurensis (Bureau) Sanwith (Bignoniaceae) is a liana vine used in traditional Amazonian medicine as a tonic and energizer as well as a treatment for rheumatism. These traditional indications prompted this study of the antioxidant and anti-inflammatory activities of T. panurensis bark extract (ETP). Phytochemical analysis of ETP showed the presence of saponins and a high concentration of phenols and flavonoids. A battery of in vitro tests revealed that the extract has free radical-scavenging antioxidant properties and reduces microsomal lipid peroxidation, uric acid synthesis, and tumor necrosis factor-α production. The anti-inflammatory properties of ETP were further confirmed in vivo in a rat carrageenan edema model, in which the extract exhibited a potent activity. These results support the idea that T. panurensis bark extract could be beneficial for treating inflammation and are in agreement with one of the main traditional uses of this plant.

Yohimbine prevents the effect of morphine on the redox status of neuroblastomaxglioma NG108-15 cells.

The alpha(2)-adrenoceptor antagonist yohimbine is known to interact with the effects of opioid receptor agonists in vivo, and thus could modulate the action of morphine-like analgesics. The focus of the present work was to further study these interactions in a cell culture endowed with opioid and alpha(2)-adrenoceptors in order to know if they could happen at the cellular level. In a first step, incubation with morphine (10microM) or the delta opioid agonist DPDPE (1microM) for 6h was shown to decrease the reduction of (4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium (MTT) by NG108-15 neuroblastomaxglioma hybrid cells in a naloxone-sensitive manner, thus showing that the opioids affect the redox status of the cells in a delta receptor-mediated way. Further experiments with 2-24h incubation periods were subsequently performed with morphine 0.1microM, 10microM and 1mM and several tests to confirm the effects on metabolism (MTT, Alamar Blue tests) to examine the potential toxic consequences (neutral red test, trypan blue exclusion assay, LDH test, caspase 3/7 activity) and to study the potential effect of yohimbine on morphine toxicity. These studies confirmed that incubation with morphine (0.1microM and 10microM) affected to a similar extent the redox status of the cells, an effect that did not translated into significant cell death and was transient since completely disappeared after 24h of incubation. Morphine 1mM was much more toxic than the lower concentrations. Yohimbine effectively prevented the effects of the lower concentrations of morphine when added to the incubation medium at 10microM, a concentration devoid of significant toxicity. It seems that the exposure to pharmacologically relevant concentrations of morphine gives rise to short-term metabolic alterations of NG108-15 cells mediated by delta receptors and also sensitive to alpha(2)-adrenoceptor blockade; therefore, the interactions previously described in vivo between opioid and alpha(2)-adrenoceptor ligands do not necessarily require the presence of functional neuronal networks and they could happen at the cellular level.