Fischer Lutz, Steinhilber Dieter, Werz Oliver
Institute of Pharmaceutical Chemistry, University of Frankfurt, Marie-Curie-Str. 9, Frankfurt D-60439, Germany.
Br J Pharmacol. 2004 Jul;142(5):861-8. doi: 10.1038/sj.bjp.0705860. Epub 2004 Jun 14.
5-Lipoxygenase (5-LO) is a crucial enzyme in the synthesis of the bioactive leukotrienes (LTs) from arachidonic acid (AA), and inhibitors of 5-LO are thought to prevent the untowarded pathophysiological effects of LTs. In this study, we present the molecular pharmacological profile of the novel nonredox-type 5-LO inhibitor CJ-13,610 that was evaluated in various in vitro assays. In intact human polymorphonuclear leukocytes (PMNL), challenged with the Ca(2+)-ionophore A23187, CJ-13,610 potently suppressed 5-LO product formation with an IC(50)=0.07 microm. Supplementation of exogenous AA impaired the efficacy of CJ-13,610, implying a competitive mode of action. In analogy to ZM230487 and L-739.010, two closely related nonredox-type 5-LO inhibitors, CJ-13,610 up to 30 microm failed to inhibit 5-LO in cell-free assay systems under nonreducing conditions, but inclusion of peroxidase activity restored the efficacy of CJ-13,610 (IC(50)=0.3 microm). In contrast to ZM230487 and L-739.010, the potency of CJ-13,610 does not depend on the cell stimulus or the activation pathway of 5-LO. Thus, 5-LO product formation in PMNL induced by phosphorylation events was equally suppressed by CJ-13,610 as compared to Ca(2+)-mediated 5-LO activation. In transfected HeLa cells, CJ-13,610 only slightly discriminated between phosphorylatable wild-type 5-LO and a 5-LO mutant that lacks phosphorylation sites. In summary, CJ-13,610 may possess considerable potential as a potent orally active nonredox-type 5-LO inhibitor that lacks certain disadvantages of former representatives of this class of 5-LO inhibitors.
5-脂氧合酶(5-LO)是从花生四烯酸(AA)合成生物活性白三烯(LTs)的关键酶,5-LO抑制剂被认为可预防LTs产生的不良病理生理效应。在本研究中,我们展示了新型非氧化还原型5-LO抑制剂CJ-13,610在各种体外试验中的分子药理学特性。在完整的人多形核白细胞(PMNL)中,用钙离子载体A23187刺激后,CJ-13,610能有效抑制5-LO产物形成,IC50 = 0.07微摩尔。补充外源性AA会损害CJ-13,610的疗效,这意味着其作用模式为竞争性。与两种密切相关的非氧化还原型5-LO抑制剂ZM230487和L-739.010类似,高达30微摩尔的CJ-13,610在非还原条件下的无细胞试验系统中未能抑制5-LO,但加入过氧化物酶活性可恢复CJ-13,610的疗效(IC50 = 0.3微摩尔)。与ZM230487和L-739.010不同,CJ-13,610的效力不依赖于细胞刺激或5-LO的激活途径。因此,与钙介导的5-LO激活相比,CJ-13,610同样能抑制由磷酸化事件诱导的PMNL中5-LO产物的形成。在转染的HeLa细胞中,CJ-13,610对可磷酸化的野生型5-LO和缺乏磷酸化位点的5-LO突变体的区分能力较弱。总之,CJ-13,610作为一种有效的口服活性非氧化还原型5-LO抑制剂可能具有相当大的潜力,它没有这类5-LO抑制剂先前代表药物的某些缺点。