Browsing by Subject "codeine"

Smoking is one of the major causes for premature deaths worldwide. Tobacco smoke contains nicotine, which activates the nicotinic acetylcholine receptors (nAChR) expressed by the human body. nAChRs are part of the cholinergic system and its endogenous neurotransmitter is acetylcholine. The nAChRs are excitatory and the often regulate the release of other neurotransmitters. Nicotine is one of the most addicting compounds known. The rewarding effects of nicotine are mediated through the activation of the mesolimbic dopamine pathway. The mesolimbic pathway is triggered also by the compounds activating the endogenous opioid system thus mediating the rewarding effects and opioid addiction. The nicotine - opioid interactions have been widely studied. It is observed that majority of opioid abusers and patients receiving opioid replacement therapy are smokers. It has been also detected that nicotine releases endogenous opioid peptides in vivo in the brain regions mediating both addiction and analgesia. In addition, the rewarding effect of nicotine attenuates in opioid receptor knock-out rodents. Furthermore, it has been observed that nicotine's rewarding effects can be reduced with opioid receptor antagonists. In order to prevent smoking's negative effects the use opioid antagonists for smoking cessation has been clinically researched with poor results. Many of the opioids in clinical use have diverse and direct interaction with the nAChRs in vitro. E.g. it has been observed that methadone and morphine have an effect on the function of the nAChRs. This may explain partially the smoking behaviour of replacement therapy patients. Opioids are prescribed mainly for the treatment of moderate to intense pain. Nicotine is too found to be analgesic in vivo but in humans its analgesic effect has been questionable. In the experimental part of thesis binding and functional interactions with human's α4β2-nAChR expressed by SH-EP1-hα4β2 cell line was researched with clinically commonly used opioids codeine, oxycodone and tramadol. Competitive binding was studied using [3H]-epibatidine binding assay and the functional effects were studied using 86Rb+-efflux assay. The results suggest that oxycodone and tramadol act as weak competitive antagonists of α4β2-nAChR in vitro in concentrations that are clinically irrelevant. According to the results, however, codeine acts as positive allosteric modulator of α4β2-nAChR potentiating the effects of nicotine in micromolar concentrations. The effect is similar to galantamine, used in treatment of Alzheimer's disease. The clinical relevance of codeine's potentiating nicotine's effect on the function of α4β2-nAChR cannot be estimated according to the results from these studies. Therefore, in order to confirm the results experiments with codeine need to be done in vivo using e.g. α4- and β2-knock-out mice in order to clarify α4β2-nAChR's role in the analgesic and rewarding effects of codeine. However, the results from the experimental part provide valuable information on the interactions of nicotine and opioids. Results from studies conducted with α4β2-nAChRs have not been published enough to determine the importance of the phenomenon in i.a. drug addiction and analgesia.