SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4213421576> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W4213421576 endingPage "37" @default.
W4213421576 startingPage "29" @default.
W4213421576 abstract "The primary mode of metabolism of nicotine is via the formation of cotinine by the enzyme CYP2A6. Cotinine undergoes further CYP2A6-mediated metabolism by hydroxylation to 3-hydroxycotinine and norcotinine, but can also form cotinine-N-glucuronide and cotinine-N-oxide (COX). The goal of this study was to investigate the enzymes that catalyze COX formation and determine whether genetic variation in these enzymes may affect this pathway. Specific inhibitors of major hepatic cytochrome P450 (P450) enzymes were used in cotinine-N-oxidation reactions using pooled human liver microsomes (HLMs). COX formation was monitored by ultrahigh-pressure liquid chromatography–tandem mass spectrometry and enzyme kinetic analysis was performed using microsomes from P450-overexpressing human embryonic kidney 293 (HEK293) cell lines. Genotype-phenotype analysis was performed in a panel of 113 human liver specimens. Inhibition of COX formation was only observed in HLMs when using inhibitors of CYP2A6, CYP2B6, CYP2C19, CYP2E1, and CYP3A4. Microsomes from cells overexpressing CYP2A6 or CYP2C19 exhibited similar N-oxidation activity against cotinine, with maximum reaction rate over Michaelis constant values (intrinsic clearance) of 4.4 and 4.2 nL/min/mg, respectively. CYP2B6-, CYP2E1-, and CYP3A4-overexpressing microsomes were also active in COX formation. Significant associations (P < 0.05) were observed between COX formation and genetic variants in CYP2C19 (*2 and *17 alleles) in HLMs. These results demonstrate that genetic variants in CYP2C19 are associated with decreased COX formation, potentially affecting the relative levels of cotinine in the plasma or urine of smokers and ultimately affecting recommended smoking cessation therapies. <h3>SIGNIFICANCE STATEMENT</h3> This study is the first to elucidate the enzymes responsible for cotinine-N-oxide formation and genetic variants that affect this biological pathway. Genetic variants in CYP2C19 have the potential to modify nicotine metabolic ratio in smokers and could affect pharmacotherapeutic decisions for smoking cessation treatments." @default.
W4213421576 created "2022-02-25" @default.
W4213421576 creator A5023023901 @default.
W4213421576 creator A5061161067 @default.
W4213421576 creator A5070406820 @default.
W4213421576 creator A5082304021 @default.
W4213421576 date "2022-02-23" @default.
W4213421576 modified "2023-10-14" @default.
W4213421576 title "CYP2C19 Plays a Major Role in the HepaticN-Oxidation of Cotinine" @default.
W4213421576 cites W1576888146 @default.
W4213421576 cites W16386653 @default.
W4213421576 cites W1675823061 @default.
W4213421576 cites W1837060685 @default.
W4213421576 cites W1856158664 @default.
W4213421576 cites W1897950719 @default.
W4213421576 cites W1930707595 @default.
W4213421576 cites W1963675326 @default.
W4213421576 cites W1964376281 @default.
W4213421576 cites W1966949876 @default.
W4213421576 cites W1968984630 @default.
W4213421576 cites W1971525645 @default.
W4213421576 cites W1979722407 @default.
W4213421576 cites W1983906278 @default.
W4213421576 cites W1984116490 @default.
W4213421576 cites W1984464701 @default.
W4213421576 cites W1986960402 @default.
W4213421576 cites W1999084888 @default.
W4213421576 cites W2003227063 @default.
W4213421576 cites W2012407966 @default.
W4213421576 cites W2014884679 @default.
W4213421576 cites W2015234747 @default.
W4213421576 cites W2022163627 @default.
W4213421576 cites W2024113721 @default.
W4213421576 cites W2027713583 @default.
W4213421576 cites W2030352776 @default.
W4213421576 cites W2030471578 @default.
W4213421576 cites W2031852931 @default.
W4213421576 cites W2039748447 @default.
W4213421576 cites W2040952485 @default.
W4213421576 cites W2041477433 @default.
W4213421576 cites W2048099302 @default.
W4213421576 cites W2048111050 @default.
W4213421576 cites W2048316905 @default.
W4213421576 cites W2050376428 @default.
W4213421576 cites W2060925223 @default.
W4213421576 cites W2081558811 @default.
W4213421576 cites W2092479622 @default.
W4213421576 cites W2092870550 @default.
W4213421576 cites W2095842076 @default.
W4213421576 cites W2102370119 @default.
W4213421576 cites W2109634874 @default.
W4213421576 cites W2113016710 @default.
W4213421576 cites W2114902018 @default.
W4213421576 cites W2115105291 @default.
W4213421576 cites W2119271777 @default.
W4213421576 cites W2120700977 @default.
W4213421576 cites W2123917531 @default.
W4213421576 cites W2133476676 @default.
W4213421576 cites W2135575592 @default.
W4213421576 cites W2138051935 @default.
W4213421576 cites W2141364356 @default.
W4213421576 cites W2143055286 @default.
W4213421576 cites W2149606343 @default.
W4213421576 cites W2155268095 @default.
W4213421576 cites W2169463741 @default.
W4213421576 cites W2170680841 @default.
W4213421576 cites W2342765821 @default.
W4213421576 cites W2345782019 @default.
W4213421576 cites W2397443340 @default.
W4213421576 cites W2414200306 @default.
W4213421576 cites W2415512160 @default.
W4213421576 cites W2550204629 @default.
W4213421576 cites W2586776260 @default.
W4213421576 cites W2591764111 @default.
W4213421576 cites W2604898263 @default.
W4213421576 cites W2605348885 @default.
W4213421576 cites W2609070199 @default.
W4213421576 cites W2609193018 @default.
W4213421576 cites W2713713727 @default.
W4213421576 cites W2769887968 @default.
W4213421576 cites W2899308127 @default.
W4213421576 cites W2921565839 @default.
W4213421576 cites W2964019674 @default.
W4213421576 cites W4241717218 @default.
W4213421576 cites W4294309380 @default.
W4213421576 doi "https://doi.org/10.1124/dmd.121.000624" @default.
W4213421576 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35197312" @default.
W4213421576 hasPublicationYear "2022" @default.
W4213421576 type Work @default.
W4213421576 citedByCount "4" @default.
W4213421576 countsByYear W42134215762022 @default.
W4213421576 countsByYear W42134215762023 @default.
W4213421576 crossrefType "journal-article" @default.
W4213421576 hasAuthorship W4213421576A5023023901 @default.
W4213421576 hasAuthorship W4213421576A5061161067 @default.
W4213421576 hasAuthorship W4213421576A5070406820 @default.
W4213421576 hasAuthorship W4213421576A5082304021 @default.
W4213421576 hasBestOaLocation W42134215761 @default.