Kunze Brigitte, Sasse Florenz, Wieczorek Helmut, Huss Markus
Arbeitsgruppe Mikrobielle Kommunikation, Helmholtz Zentrum für Infektionsforschung, 38124 Braunschweig, Germany.
FEBS Lett. 2007 Jul 24;581(18):3523-7. doi: 10.1016/j.febslet.2007.06.069. Epub 2007 Jul 3.
Cruentaren A, a new antifungal benzolactone produced by the myxobacterium Byssovorax cruenta, proved to be highly cytotoxic against various human cell lines. It inhibited the proliferation of different cancer cell lines including a multidrug-resistant KB line at low nanomolar levels. It arrested human histocytic lymphoma cells (U-937) in G(0/1) phase, but did not trigger an apoptotic process. Studies to uncover the molecular target of cruentaren A showed that the novel compound, despite its structural similarity to the benzolactone enamides apicularen and salicylihalamide, was no V-ATPase inhibitor. In contrast, cruentaren specifically inhibited mitochondrial F(O)F(1)-ATPases with IC50 values of 15-30 nM. Although the exact binding site of cruentaren remains undefined, inhibition was shown to occur by interaction with the catalytic F(1) domain. Since mitochondrial ATPases play a crucial role in the pathophysiology of several human disorders including cancer, cruentaren or synthetic derivatives thereof could form the basis of future therapeutic strategies.
克鲁恩塔林A是一种由粘细菌嗜血性毕索菌产生的新型抗真菌苯并内酯,已被证明对多种人类细胞系具有高度细胞毒性。它在低纳摩尔水平下就能抑制包括多药耐药KB细胞系在内的不同癌细胞系的增殖。它能使人类组织细胞淋巴瘤细胞(U - 937)停滞在G(0/1)期,但不会引发凋亡过程。揭示克鲁恩塔林A分子靶点的研究表明,尽管这种新型化合物在结构上与苯并内酯酰胺类化合物阿皮考林和水杨基卤酰胺相似,但它不是V - ATP酶抑制剂。相反,克鲁恩塔林能特异性抑制线粒体F(O)F(1)-ATP酶,IC50值为15 - 30 nM。尽管克鲁恩塔林的确切结合位点尚不清楚,但已证明抑制作用是通过与催化性F(1)结构域相互作用而发生的。由于线粒体ATP酶在包括癌症在内的多种人类疾病的病理生理学中起着关键作用,克鲁恩塔林或其合成衍生物可能成为未来治疗策略的基础。
