Guo Wenchang, Siegel David, Ross David
Department of Pharmaceutical Sciences, University of Colorado Denver, School of Pharmacy and Cancer Center, Denver, Colorado 80262, USA.
J Pharm Sci. 2008 Dec;97(12):5147-57. doi: 10.1002/jps.21394.
17-(allylamino)-17-demethoxygeldanamycin (17AAG) is a benzoquinone ansamycin Hsp90 inhibitor which has promising anticancer activity in vitro, in animal models and in clinical trials. 17AAG has poor water-solubility which is a potential problem for clinical formulation. The hydroquinone derivative of 17AAG, 17AAG hydroquinone (17AAGH(2)), is considerably more water soluble and since we previously demonstrated that 17AAGH(2) was a more potent Hsp90 inhibitor than its parent quinone, it is a good candidate for clinical use and is currently in clinical trials. However, 17AAGH(2) can be oxidized back to 17AAG under aerobic conditions so we tested the relative stability of 17AAGH(2) and the effect of different metal ions and metal chelators on the oxidation of 17AAGH(2). We found that copper could accelerate 17AAGH(2) oxidation while copper chelators such as D-penicillamine could inhibit oxidation. Human serum albumin (HA) has copper-binding ability and we found that HA diminished the rate of 17AAGH(2) oxidation. Although we found that 17AAG could associate with HA, no association was observed between 17AAGH(2) and HA. In summary, our data demonstrates that copper chelators can prevent 17AAGH(2) oxidation and suggests that HA prevents 17AAGH(2) oxidation via a copper chelation mechanism. Agents that prevent oxidation may be useful in clinical formulations of 17AAGH(2.)
17-(烯丙基氨基)-17-去甲氧基格尔德霉素(17AAG)是一种苯醌安莎霉素Hsp90抑制剂,在体外、动物模型及临床试验中均具有良好的抗癌活性。17AAG的水溶性较差,这是临床制剂中一个潜在的问题。17AAG的对苯二酚衍生物,即17AAG对苯二酚(17AAGH₂),水溶性显著更高,而且我们之前证明17AAGH₂是比其母体醌更有效的Hsp90抑制剂,它是临床应用的良好候选药物,目前正处于临床试验阶段。然而,17AAGH₂在有氧条件下可被氧化回17AAG,因此我们测试了17AAGH₂的相对稳定性以及不同金属离子和金属螯合剂对17AAGH₂氧化的影响。我们发现铜可加速17AAGH₂的氧化,而铜螯合剂如D-青霉胺可抑制氧化。人血清白蛋白(HA)具有结合铜的能力,我们发现HA可降低17AAGH₂的氧化速率。虽然我们发现17AAG可与HA结合,但未观察到17AAGH₂与HA之间的结合。总之,我们的数据表明铜螯合剂可防止17AAGH₂氧化,并提示HA通过铜螯合机制防止17AAGH₂氧化。防止氧化的试剂可能对17AAGH₂的临床制剂有用。