Borisenko G G, Kapralov A A, Tyurin V A, Maeda A, Stoyanovsky D A, Kagan V E
Research Institute of Physico-Chemical Medicine, Moscow, Russian Federation.
Biochemistry. 2008 Dec 23;47(51):13699-710. doi: 10.1021/bi801507s.
Interaction of a mitochondria-specific anionic phospholipid, cardiolipin (CL), with an intermembrane protein, cytochrome c (cyt c), yields a peroxidase complex. During apoptosis, the complex induces accumulation of CL oxidation products that are essential for detachment of cyt c from the mitochondrial membrane, induction of permeability transition, and release of proapoptotic factors into the cytosol. Therefore, suppression of the peroxidase activity and prevention of CL oxidation may lead to discovery of new antiapoptotic drugs. Here, we report a new approach to regulate the cyt c peroxidase activity by using modified CL with an oxidizable and fluorescent 7-nitro-2,1,3-benzoxadiazole (NBD) moiety (NBD-CL). We demonstrate that NBD-CL forms high-affinity complexes with cyt c and blocks cyt c-catalyzed oxidation of several peroxidase substrates, cyt c self-oxidation, and, most importantly, inhibits cyt c-dependent oxidation of polyunsaturated tetralinoleoyl CL (TLCL) and accumulation of TLCL hydroperoxides. Electrospray ionization mass spectrometry and fluorescence analysis revealed that oxidation and cleavage of the NBD moiety of NBD-CL underlie the inhibition mechanism. We conclude that modified CL combining a nonoxidizable monounsaturated trioleoyl CL with a C(12)-NBD fragment undergoes a regiospecific oxidation thereby representing a novel inhibitor of cyt c peroxidase activity.
线粒体特异性阴离子磷脂心磷脂(CL)与膜间蛋白细胞色素c(cyt c)相互作用,产生一种过氧化物酶复合物。在细胞凋亡过程中,该复合物诱导CL氧化产物的积累,这些产物对于cyt c从线粒体膜上脱离、诱导通透性转变以及促凋亡因子释放到细胞质中至关重要。因此,抑制过氧化物酶活性并防止CL氧化可能会导致发现新的抗凋亡药物。在此,我们报告了一种通过使用带有可氧化且荧光的7-硝基-2,1,3-苯并恶二唑(NBD)部分的修饰CL(NBD-CL)来调节cyt c过氧化物酶活性的新方法。我们证明NBD-CL与cyt c形成高亲和力复合物,并阻断cyt c催化的几种过氧化物酶底物的氧化、cyt c自身氧化,最重要的是,抑制cyt c依赖的多不饱和四亚油酰基CL(TLCL)的氧化以及TLCL氢过氧化物的积累。电喷雾电离质谱和荧光分析表明,NBD-CL的NBD部分的氧化和裂解是抑制机制的基础。我们得出结论,将不可氧化的单不饱和三亚油酰基CL与C(12)-NBD片段结合的修饰CL经历区域特异性氧化,从而代表一种新型的cyt c过氧化物酶活性抑制剂。