鬼臼毒素-吖啶偶联物的连接体长度决定了体内和体外的效力以及对耐多药细胞系的特异性。

Anti-cancer drug design Pub Date : 2001-12-01
L Rothenborg-Jensen, H F Hansen, I Wessel, J L Nitiss, G Schmidt, P B Jensen, M Sehested, L H Jensen
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引用次数: 0

摘要

我们合成了两个鬼臼毒素-吖啶缀合物pacr6和pACR8。在这些化合物中,9-吖啶基片段通过8个n -6-氨基己基酰胺连接体(pACR6)或通过含有两个以上碳原子的n -8-氨基己基酰胺连接体(pACR8)与4'-去甲基鬼鬼毒素(epiDPT)的四环体系的C4碳相连。在众所周知的eppoophylotoxins VP-16和VM-26中,吖啶-连接子部分占据了与epiDPT连接的不同糖苷部分的位置,这些部分对于活性是必不可少的。与VP-16和VM-26一样,pACR6和pACR8在体外刺激拓扑异构酶II介导的DNA切割并在体内诱导DNA损伤,显示出拓扑异构酶II毒性。这种体内DNA损伤,以及pACR6/pACR8介导的细胞毒性,可被催化拓扑异构酶II抑制剂ICRF-187和阿克鲁比星拮抗,表明拓扑异构酶II是这些药物的功能性生物学靶点。尽管结构相似,但pACR6在体外刺激拓扑异构酶II介导的DNA切割和体内DNA损伤方面比pACR8更有效,因此pACR6对各种人和小鼠细胞系的细胞毒性比pACR8更强。此外,在一组过度表达MDR1(多药耐药蛋白1)ABC药物转运体的多药耐药(MDR)细胞系中发现了对pACR6的明显交叉耐药,而这些细胞系对pACR8仍然敏感。pACR8也能够在不过度表达药物转运体的at-MDR(改变的拓扑异构酶II MDR)细胞系中规避耐药,而pACR6则不能。通过将小细胞肺癌(SCLC) OC-NYH细胞分别暴露于逐渐增加的pACR6和pACR8浓度,培养出OC-NYH/pACR6和OC-NYH/pACR8两种耐药细胞系。在这里,OC-NYH/pACR6细胞被发现过表达MDR1,因此表现出3h标记的新碱的主动转运,而OC-NYH/pACR8细胞则没有,进一步表明pACR6而不是pACR8是MDR1的底物。我们的研究结果表明,杂种分子中鬼臼毒素和吖啶部分的空间取向决定了活性药物运输中的靶相互作用和底物特异性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Linker length in podophyllotoxin-acridine conjugates determines potency in vivo and in vitro as well as specificity against MDR cell lines.

We have synthesized two podophyllotoxin-acridine conjugates-pACR6 and pACR8. In these compounds an 9-acridinyl moiety is beta linked to the C4 carbon of the four ring system in 4'-demethylepipodophyllotoxin (epiDPT) via eighter an N-6-aminohexanylamide linker (pACR6) or via an N-8-aminooctanylamide linker containing two more carbon atoms (pACR8). The acridine-linker moiety occupies the position where different glucoside moieties, dispensable for activity, are normally linked to epiDPT in the well known epipodophyllotoxins VP-16 and VM-26. As with VP-16 and VM-26, pACR6 and pACR8 show evidence of being topoisomerase II poisons as they stimulate topoisomerase II mediated DNA cleavage in vitro and induce DNA damage in vivo. This in vivo DNA damage, as well as pACR6/pACR8 mediated cytotoxicity, is antagonized by the catalytic topoisomerase II inhibitors ICRF-187 and aclarubicin, demonstrating that topoisomerase II is a functional biological target for these drugs. Despite their structural similarities, pACR6 was more potent than pACR8 in stimulating topoisomerase II mediated DNA cleavage in vitro as well as DNA damage in vivo and pACR6 was accordingly more cytotoxic towards various human and murine cell lines than pACR8. Further, marked cross-resistance to pACR6 was seen among a panel of multidrug-resistant (MDR) cell lines over-expressing the MDR1 (multidrug resistance protein 1) ABC drug transporter, while these cell lines remained sensitive towards pACR8. pACR8 was also capable of circumventing drug resistance among at-MDR (altered topoisomerase II MDR) cell lines not over-expressing drug transporters, while pACR6 was not. Two resistant cell lines, OC-NYH/pACR6 and OC-NYH/pACR8, were developed by exposure of small cell lung cancer (SCLC) OC-NYH cells to gradually increasing concentrations of pACR6 and pACR8, respectively. Here, OC-NYH/pACR6 cells were found to over-express MDR1 and, accordingly, displayed active transport of 3H-labeled vincristine, while OC-NYH/pACR8 cells did not, further suggesting that pACR6, but not pACR8, is a substrate for MDR1. Our results show that the spatial orientation of podophyllotoxin and acridine moieties in hybrid molecules determine target interaction as well as substrate specificity in active drug transport.

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