Zhang Lei, Cooper Arthur J L, Krasnikov Boris F, Xu Hui, Bubber Parvesh, Pinto John T, Gibson Gary E, Hanigan Marie H
Department of Cell Biology, Biomedical Research Center, Room 264, 975 N.E. 10th Street, University of Oklahoma Health Sciences Center, Oklahoma City, Oklahoma 73104, USA.
Biochemistry. 2006 Jul 25;45(29):8959-71. doi: 10.1021/bi060027g.
The anticancer drug cisplatin is nephrotoxic and neurotoxic. Previous data support the hypothesis that cisplatin is bioactivated to a nephrotoxicant. The final step in the proposed bioactivation is the formation of a platinum-cysteine S-conjugate followed by a pyridoxal 5'-phosphate (PLP)-dependent cysteine S-conjugate beta-lyase reaction. This reaction would generate pyruvate, ammonium, and a highly reactive platinum (Pt)-thiol compound in vivo that would bind to proteins. In this work, the cellular location and identity of the PLP-dependent cysteine S-conjugate beta-lyase were investigated. Pt was shown to bind to proteins in kidneys of cisplatin-treated mice. The concentration of Pt-bound proteins was higher in the mitochondrial fraction than in the cytosolic fraction. Treatment of the mice with aminooxyacetic acid (AOAA, a PLP enzyme inhibitor), which had previously been shown to block the nephrotoxicity of cisplatin, decreased the binding of Pt to mitochondrial proteins but had no effect on the amount of Pt bound to proteins in the cytosolic fraction. These data indicate that a mitochondrial enzyme catalyzes the PLP-dependent cysteine S-conjugate beta-lyase reaction. PLP-dependent mitochondrial aspartate aminotransferase (mitAspAT) is a mitochondrial enzyme that catalyzes beta-elimination reactions with cysteine S-conjugates of halogenated alkenes. We reasoned that the enzyme might also catalyze a beta-lyase reaction with the cisplatin-cysteine S-conjugate. In this study, mitAspAT was stably overexpressed in LLC-PK(1) cells. Cisplatin was significantly more toxic in confluent monolayers of LLC-PK(1) cells that overexpressed mitAspAT than in control cells containing vector alone. AOAA completely blocked the cisplatin toxicity in confluent mitAspAT-transfected cells. The Pt-thiol compound could rapidly bind proteins and inactivate enzymes in close proximity of the PLP-dependent cysteine S-conjugate beta-lyase. Treatment with 50 or 100 microM cisplatin for 3 h, followed by removal of cisplatin from the medium for 24 h, resulted in a pronounced loss of alpha-ketoglutarate dehydrogenase complex (KGDHC) activity in both mitAspAT-transfected cells and control cells. Exposure to 100 microM cisplatin resulted in a significantly greater loss of KGDHC activity in the cells overexpressing mitAspAT than in control cells. Aconitase activity was diminished in both cell types, but only at the higher level of exposure to cisplatin. AspAT activity was also significantly decreased by cisplatin treatment. By contrast, several other enzymes (both cytosolic and mitochondrial) involved in energy/amino acid metabolism were not significantly affected by cisplatin treatment in the LLC-PK(1) cells, whether or not mitAspAT was overexpressed. The susceptibility of KGDHC and aconitase to inactivation in kidney cells exposed to cisplatin metabolites may be due to the proximity of mitAspAT to KGDHC and aconitase in mitochondria. These findings support the hypothesis that a mitochondrial cysteine S-conjugate beta-lyase converts the cisplatin-cysteine S-conjugate to a toxicant, and the data are consistent with the hypothesis that mitAspAT plays a role in the bioactivation of cisplatin.
抗癌药物顺铂具有肾毒性和神经毒性。先前的数据支持顺铂被生物活化成为肾毒物的假说。所提出的生物活化的最后一步是形成铂 - 半胱氨酸S - 共轭物,随后是依赖于磷酸吡哆醛(PLP)的半胱氨酸S - 共轭物β-裂解酶反应。该反应在体内会生成丙酮酸、铵和一种高反应性的铂(Pt)-硫醇化合物,后者会与蛋白质结合。在这项研究中,对依赖于PLP的半胱氨酸S - 共轭物β-裂解酶的细胞定位和特性进行了研究。结果显示,铂会与顺铂处理过的小鼠肾脏中的蛋白质结合。线粒体部分中铂结合蛋白的浓度高于胞质部分。用氨基氧乙酸(AOAA,一种PLP酶抑制剂)处理小鼠,此前已证明其可阻断顺铂的肾毒性,结果减少了铂与线粒体蛋白的结合,但对胞质部分中铂结合蛋白的量没有影响。这些数据表明,一种线粒体酶催化依赖于PLP的半胱氨酸S - 共轭物β-裂解酶反应。依赖于PLP的线粒体天冬氨酸转氨酶(mitAspAT)是一种线粒体酶,可催化与卤代烯烃的半胱氨酸S - 共轭物发生β-消除反应。我们推测该酶可能也催化与顺铂 - 半胱氨酸S - 共轭物的β-裂解酶反应。在本研究中,mitAspAT在LLC - PK(1)细胞中稳定过表达。与仅含载体的对照细胞相比,在过表达mitAspAT的LLC - PK(1)细胞汇合单层中,顺铂的毒性显著更高。AOAA完全阻断了汇合的mitAspAT转染细胞中的顺铂毒性。铂 - 硫醇化合物可迅速结合蛋白质并使依赖于PLP的半胱氨酸S - 共轭物β-裂解酶附近的酶失活。用50或100微摩尔的顺铂处理3小时,然后从培养基中去除顺铂24小时,导致mitAspAT转染细胞和对照细胞中的α-酮戊二酸脱氢酶复合体(KGDHC)活性均显著丧失。暴露于100微摩尔的顺铂导致过表达mitAspAT的细胞中KGDHC活性丧失的程度显著高于对照细胞。两种细胞类型中的乌头酸酶活性均降低,但仅在较高的顺铂暴露水平下。顺铂处理也显著降低了天冬氨酸转氨酶活性。相比之下,LLC - PK(1)细胞中参与能量/氨基酸代谢的其他几种酶(包括胞质和线粒体酶),无论mitAspAT是否过表达,顺铂处理对其均无显著影响。肾细胞暴露于顺铂代谢物时KGDHC和乌头酸酶对失活的敏感性可能是由于mitAspAT在线粒体中与KGDHC和乌头酸酶接近。这些发现支持了线粒体半胱氨酸S - 共轭物β-裂解酶将顺铂 - 半胱氨酸S - 共轭物转化为毒物的假说,并且这些数据与mitAspAT在顺铂生物活化中起作用的假说一致。