Hotchkiss Kylie A, Ashton Anthony W, Mahmood Radma, Russell Robert G, Sparano Joseph A, Schwartz Edward L
Department of Oncology, Albert Einstein College of Medicine, Bronx, New York 10467, USA.
Mol Cancer Ther. 2002 Nov;1(13):1191-200.
A number of cancer chemotherapeutic drugs designed to have cytotoxic actions on tumor cells have recently been shown to also have antiangiogenic activities. Endothelial cell migration and proliferation are key components of tumor angiogenesis, and agents that target the microtubule cytoskeleton can interfere with these processes. In this study, the effect on endothelial cell functions of the microtubule-stabilizing drugs Taxotere and Taxol were evaluated in three in vitro assays: a chemokinetic migration assay, an angiogenesis factor-mediated chemotactic migration assay, and a three-dimensional Matrigel tubule formation assay, using rat fat pad endothelial cells (RFPECs) and/or human umbilical vein endothelial cells (HUVECs). Taxotere was active in all three assays at concentrations that were not cytotoxic and did not inhibit endothelial cell proliferation. In the RFPEC chemokinetic migration and in vitro tubule formation assays, the IC50 values were approximately 10(-9) M for both Taxotere and Taxol. HUVEC migration, however, was more sensitive to Taxotere, with an observed IC50 of 10(-12) M in a chemokinetic assay. In a Boyden chamber assay, HUVEC chemotaxis stimulated by either of two angiogenic factors, thymidine phosphorylase or vascular endothelial growth factor, was inhibited by Taxotere with an IC50 of 10(-11) M and was ablated at 10(-9) M. Taxotere was also up to 1000-fold more potent than Taxol in inhibiting either chemokinetic or chemotactic migration. When the microtubule cytoskeleton was visualized using immunofluorescence staining of alpha-tubulin, there were no gross morphological changes observed in HUVECs or RFPECs treated with Taxotere at concentrations that inhibited endothelial cell migration but not proliferation. The effects of Taxotere on migration were associated with a reduction in the reorientation of the cell's centrosome, at concentrations that did not affect gross microtubule morphology or proliferation. Reorientation of the centrosome, which acts as the microtubule organizing center, in the intended direction of movement is a critical early step in the stabilization of directed cell migration. These data indicate that endothelial cell migration correlates more closely with changes in microtubule plasticity than with microtubule gross structure. The antiangiogenic activity of Taxotere in vivo was assessed in a Matrigel plug assay. In this assay, the angiogenic response to fibroblast growth factor 2 was inhibited in vivo by Taxotere with an ID50 of 5.4 mg/kg when injected twice weekly over a 14-day period, and angiogenesis was completely blocked in mice that received 10 mg/kg Taxotere. The in vivo data further suggested that Taxotere had selectivity for endothelial cell migration and/or microvessel formation because infiltration of inflammatory cells into the Matrigel plug was much less sensitive to inhibition by Taxotere. In conclusion, Taxotere is a potent and potentially specific inhibitor of endothelial cell migration in vitro and angiogenesis in vitro and in vivo.
一些旨在对肿瘤细胞产生细胞毒性作用的癌症化疗药物最近被证明也具有抗血管生成活性。内皮细胞迁移和增殖是肿瘤血管生成的关键组成部分,而靶向微管细胞骨架的药物可干扰这些过程。在本研究中,使用大鼠脂肪垫内皮细胞(RFPEC)和/或人脐静脉内皮细胞(HUVEC),通过三种体外试验评估了微管稳定药物多西他赛和紫杉醇对内皮细胞功能的影响:化学动力学迁移试验、血管生成因子介导的趋化性迁移试验和三维基质胶小管形成试验。多西他赛在所有三种试验中均具有活性,其浓度不具有细胞毒性且不抑制内皮细胞增殖。在RFPEC化学动力学迁移试验和体外小管形成试验中,多西他赛和紫杉醇的IC50值均约为10^(-9) M。然而,HUVEC迁移对多西他赛更敏感,在化学动力学试验中观察到的IC50为10^(-12) M。在Boyden小室试验中,两种血管生成因子胸苷磷酸化酶或血管内皮生长因子刺激的HUVEC趋化性被多西他赛抑制,IC50为10^(-11) M,在10^(-9) M时被消除。多西他赛在抑制化学动力学或趋化性迁移方面也比紫杉醇强高达1000倍。当使用α-微管蛋白免疫荧光染色观察微管细胞骨架时,在以抑制内皮细胞迁移但不抑制增殖的浓度处理的HUVEC或RFPEC中未观察到明显的形态变化。多西他赛对迁移的影响与细胞中心体重新定向的减少有关,此时浓度不影响微管的总体形态或增殖。作为微管组织中心的中心体在预期运动方向上的重新定向是定向细胞迁移稳定的关键早期步骤。这些数据表明,内皮细胞迁移与微管可塑性的变化比与微管总体结构的变化更密切相关。在基质胶栓试验中评估了多西他赛在体内的抗血管生成活性。在该试验中,当在14天内每周注射两次时,多西他赛在体内以5.4 mg/kg的ID50抑制对成纤维细胞生长因子2的血管生成反应,并且在接受10 mg/kg多西他赛的小鼠中血管生成被完全阻断。体内数据进一步表明,多西他赛对内皮细胞迁移和/或微血管形成具有选择性,因为炎性细胞向基质胶栓中的浸润对多西他赛抑制的敏感性要低得多。总之,多西他赛是体外内皮细胞迁移以及体外和体内血管生成的有效且潜在特异性抑制剂。
