RESUMO
Alcohol and nicotine are two very commonly abused legal substances. Although various hypotheses for such co-dependence have been suggested, it is not known whether the effects of alcohol and nicotine on mood behavior may also contribute to such co-abuse. Chronic exposure to high alcohol levels may lead to various neurochemical changes and precipitate depressive-like behavior. Nicotine, on the other hand, may exert an antidepressant-like effect. Here, we sought to determine whether nicotine may also block or mitigate the "depressogenic" effects of alcohol in a rat model. Moreover, since hippocampal brain-derived neurotrophic factor (BDNF) has been strongly implicated in mood regulation and effectiveness of antidepressants, the level of this neurotrophic factor in the hippocampus was also evaluated. Adult male Wistar rats were injected (i.p.) with alcohol (1.0 g/kg), nicotine (0.3 mg/kg) or their combination once daily for 14 days. Controls received saline. The behavior of these rats in open field locomotor activity (LMA), the forced swim test (FST), a measure of helplessness, and sucrose intake, a measure of anhedonia were evaluated 16-18 h after the last injection. Chronic alcohol did not affect LMA, but increased immobility in FST and decreased sucrose consumption, suggesting a "depressogenic" effect. Nicotine by itself did not affect any of the measured behavior but blocked alcohol-induced changes in FST and sucrose intake. Parallel to the behavioral changes, chronic alcohol resulted in a significant decrease in hippocampal BDNF, which was normalized by nicotine. These findings suggest that the opposing effects of alcohol and nicotine on depressive-like behavior may contribute to their co-abuse.
RESUMO
AIMS: The ability to sense the bitter taste of nicotine is an important component of addiction to, and withdrawal from, cigarette smoking. alpha-Gustducin and phospholipase C-beta2 (PLC-beta2), molecules involved in the taste transduction pathway, have been identified in airway epithelial solitary chemosensory cells (SCCs). Airway epithelial cells also express multiple nicotinic acetylcholine receptors (nAChRs). However, the relationship between nAChRs and molecules of taste transduction in response to nicotine is not known. This study was designed to determine whether nAChRs and the taste transduction molecules alpha-gustducin, PLC-beta2 and bitter taste receptors (T2R38) reside at sites of the intrapulmonary airways where interaction with the nicotine components of cigarette smoke is likely. MAIN METHODS: We used the reverse transcription-polymerase chain reaction (RT-PCR) to detect alpha-gustducin, PLC-beta2 and T2R38 mRNA and immunohistochemistry to localize expression of these proteins by nAChR expressing cells of the airway. KEY FINDINGS: RT-PCR demonstrated the presence of mRNA for alpha-gustducin, PLC-beta2 and T2R38. Immunohistochemistry showed the expression of alpha-gustducin, PLC-beta2 and T2R38 by subsets of epithelial cells at all levels of the intrapulmonary airways including bronchi, terminal and respiratory bronchioles. Double labeling demonstrated the co-expression of alpha-gustducin with alpha3, alpha4, alpha5, alpha7 and beta2, as well as, PLC-beta2 and T2R38 with alpha4, alpha5 and beta2 nAChR subunits. SIGNIFICANCE: These findings provide morphological evidence for the presence of molecules of the bitter taste transduction pathway in nAChR expressing SCCs of the intrapulmonary airways. These SCCs may, thus, constitute a peripheral component of the bitter taste signal transduction pathway for nicotine.
