Malátková Petra, Skarka Adam, Musilová Kateřina, Wsól Vladimír
Department of Biochemical Sciences, Faculty of Pharmacy, Charles University, Heyrovského 1203, Hradec Králové, CZ-50005, Czech Republic.
Chem Biol Interact. 2017 Oct 1;276:121-126. doi: 10.1016/j.cbi.2017.03.006. Epub 2017 Mar 18.
Tiaprofenic acid is a widely used anti-inflammatory drug; however, the reductive metabolism of tiaprofenic acid is not yet well understood. Here, we compared the reduction of tiaprofenic acid in microsomes and cytosol from the human liver. The microsomes exhibited lower K value toward tiaprofenic acid than the cytosol (K = 164 ± 18 μM vs. 569 ± 74 μM, respectively), whereas the cytosol showed higher specific activity during reduction than the microsomes (V = 728 ± 52 pmol mg of protein min vs. 285 ± 11 pmol mg of protein min, respectively). Next, a panel of recombinant carbonyl reducing enzymes from AKR and SDR superfamilies has been studied to find the enzymes responsible for the cytosolic reduction of tiaprofenic acid. CBR1 was identified as the reductase of tiaprofenic acid with high specific activity (56,965 ± 6741 pmol mg of protein min). Three other enzymes, AKR1A1, AKR1B10, and AKR1C4, were also able to reduce tiaprofenic acid, but with very low activity. Thus, CBR1 was shown to be a tiaprofenic acid reductase in vitro and was also suggested to be the principal tiaprofenic acid reductase in vivo.
噻洛芬酸是一种广泛使用的抗炎药;然而,噻洛芬酸的还原代谢尚未得到充分了解。在此,我们比较了人肝脏微粒体和胞质溶胶中噻洛芬酸的还原情况。微粒体对噻洛芬酸的K值低于胞质溶胶(分别为K = 164 ± 18 μM和569 ± 74 μM),而胞质溶胶在还原过程中的比活性高于微粒体(分别为V = 728 ± 52 pmol·mg蛋白质·min和285 ± 11 pmol·mg蛋白质·min)。接下来,对一组来自AKR和SDR超家族的重组羰基还原酶进行了研究,以寻找负责噻洛芬酸胞质还原的酶。CBR1被鉴定为具有高比活性(56,965 ± 6741 pmol·mg蛋白质·min)的噻洛芬酸还原酶。其他三种酶AKR1A1、AKR1B10和AKR1C4也能够还原噻洛芬酸,但活性非常低。因此,CBR1在体外被证明是噻洛芬酸还原酶,并且也被认为是体内主要的噻洛芬酸还原酶。
