Genetically determined metabolism of nicotine and its clinical significance.

Genetically determined metabolism of nicotine and its clinical significance. Acta Biochim Pol. 2019 Oct 04;: Authors: Delijewski M, Bartoń A, Delijewska P, Balwierz R, Jakubiak G, Kośmider L, Pawlas N Abstract Enzymes of the cytochrome P-450 (CYP 450) which belong to the family of oxidase enzymes, are present in cells of all organisms and play a major role in the first phase of xenobiotic metabolism. There are several isoenzymes of CYP 450 that show differences in the speed of metabolism: poor-, extensive- and ultra-rapid. Nicotine undergoes biotransformation in the liver mainly by the CYP2A6 isoform of CYP 450. There are many polymorphic isoforms of CYP2A6 affecting the metabolism of nicotine. There are also several CYP2A6 activity inhibitors and inducers among commonly used drugs. The ability of CYP2A6 isozymes to activate certain procancerogenic substances present in cigarette smoke makes their polymorphism more significant. Moreover, some isoforms may have also influence on the risk of lung cancer development by affecting the enzymatic activation of tobacco-specific nitrosamines. Metabolism of nicotine, mainly through CYP2A6, has also many clinical implications, such as efficacy and safety of the nicotine replacement therapy (NRT) or occurrence of several diseases. In summary, type of the nicotine metabolism may be a potential predictor of the clinical outcomes in patients with cardiovascular disease, addicted to nicotine and i...
Source: Acta Biochim Pol - Category: Biochemistry Authors: Tags: Acta Biochim Pol Source Type: research