Pérez C, Vilaboa N E, García-Bermejo L, de Blas E, Creighton A M, Aller P
Centro de Investigaciones Biológicas, CSIC, Madrid, Spain.
J Cell Sci. 1997 Feb;110 ( Pt 3):337-43. doi: 10.1242/jcs.110.3.337.
We have compared the action on U-937 human promonocytic leukemia cells of two DNA topoisomerase II inhibitors, namely the epipodophyllotoxin etoposide and the bisdioxopiperazine ICRF-193. One hour pulse-treatment with 3 microM etoposide caused topoisomerase associated, primary DNA breakage, which was rapidly followed by apoptosis. By contrast, these effects were not observed upon pulse-treatment with 6 microM ICRF-193. However, continuous treatments with subcytotoxic concentrations of etoposide (0.15 microM) and ICRF-193 (0.3 microM) produced several similar effects, namely decreased cell proliferation, accumulation of cells at G2, increase in cell mass, and induction of differentiation. Under these conditions, etoposide produced a biphasic activation of protein kinase C, which consisted in an early transient activation (from hours 1 to 6) of the membrane-bound enzyme followed by a later activation (hour 48) of the total, membrane-bound and cytosolic enzyme. By contrast, ICRF-193 only provoked a late activation (from hours 72 to 96) of the total enzyme. When used at differentiation-inducing concentrations, both topoisomerase inhibitors caused a great stimulation of AP-1 binding activity, with maximum value at hour 12 in etoposide-treated cells and at hour 48 in ICRF-193-treated cells. By contrast, the binding activity of the NF-kappa(B) and EGR-1 transcription factors was little affected. It is concluded that topoisomerase II inhibitors may induce the differentiation of promonocytic cells, independently of their capacity to cause DNA strand breaks. However, there are other effects, such as the early activation of protein kinase C, which are probably derived from the production of primary DNA breakage by some anti-topoisomerase drugs.
我们比较了两种DNA拓扑异构酶II抑制剂,即表鬼臼毒素依托泊苷和双二氧哌嗪ICRF-193,对U-937人原单核细胞白血病细胞的作用。用3 microM依托泊苷进行1小时脉冲处理会导致拓扑异构酶相关的原发性DNA断裂,随后迅速发生凋亡。相比之下,用6 microM ICRF-193进行脉冲处理时未观察到这些效应。然而,用亚细胞毒性浓度的依托泊苷(0.15 microM)和ICRF-193(0.3 microM)进行连续处理产生了几种相似的效应,即细胞增殖减少、细胞在G2期积累、细胞质量增加以及诱导分化。在这些条件下,依托泊苷产生了蛋白激酶C的双相激活,这包括膜结合酶的早期短暂激活(从第1小时到第6小时),随后是总酶、膜结合酶和胞质酶的后期激活(第48小时)。相比之下,ICRF-193仅引起总酶的后期激活(从第72小时到第96小时)。当以诱导分化的浓度使用时,两种拓扑异构酶抑制剂都极大地刺激了AP-1结合活性,在依托泊苷处理的细胞中第12小时达到最大值,在ICRF-193处理的细胞中第48小时达到最大值。相比之下,NF-κB和EGR-1转录因子的结合活性受影响较小。得出的结论是,拓扑异构酶II抑制剂可能诱导原单核细胞的分化,而与它们引起DNA链断裂的能力无关。然而,还有其他效应,如蛋白激酶C的早期激活,这可能源于某些抗拓扑异构酶药物产生的原发性DNA断裂。
