Drevs Joachim, Müller-Driver Ralph, Wittig Christine, Fuxius Stefan, Esser Norbert, Hugenschmidt Harald, Konerding Moritz A, Allegrini Peter R, Wood Jeanette, Hennig Jürgen, Unger Clemens, Marmé Dieter
Department of Medical Oncology, Tumor Biology Center, 79106 Freiburg, Germany.
Cancer Res. 2002 Jul 15;62(14):4015-22.
Antiangiogenic therapy is a promising new strategy of inhibiting tumor growthand formation of metastases. Recently, a number of compounds with different effects on tumor endothelial cells have entered clinical trials and revealed the need for diagnostic methods to detect their biological activity. Dynamic enhanced magnetic resonance imaging (dyMRI) is used in most clinical trials with antiangiogenic active compounds. We evaluated this method by using PTK787/ZK 222584, a specific inhibitor of the VEGF-receptor tyrosine kinases, which showed antitumoral and antiangiogenic activity in a murine renal cell carcinoma (RENCA) model. After intrarenal application of RENCA cells, mice developed a primary tumor and metastases to the lung and abdominal lymph nodes. After daily oral therapy for 21 days with either PTK787/ZK 222584 at a dose of 50 mg/kg or vehicle, primary tumors of all animals were analyzed by dyMRI. Gadolinium-DOTA (Dotarem) was used as a contrast agent to detect vessel permeability and contrast agent extravasation, whereas intravascular iron oxide nanoparticles (Endorem) were used to detect partial tumor blood volume. Additionally, vessel density, architecture, diameter, and blood flow velocity were investigated by appropriate methods. Surprisingly, no changes in extravasation occurred under treatment with PTK787/ZK 222584 as compared with the control group, whereas a significant decrease in vessel permeability occurred. Furthermore, an increase in partial blood volume was found in the PTK787/ZK 222584-treated group, although vessel density was reduced as seen by histology. Using the corrosion cast technique, reduction in vessel density was significant but not very pronounced and predominantly attributable to the loss of microvessels only. This finding correlated with a shift to large vessel diameters in the primary tumors of PTK787/ZK 222584-treated animals and with reduction of blood flow velocity in the tumor feeding renal artery. From these findings, we conclude that the treatment with PTK787/ZK 222584 primarily reduces the number of tumor microvessels, accompanied by a hemodynamic dilation of the remaining vessels. This dilation could influence the result of dyMRI such that no change in extravasation or even an increase in partial tumor blood volume could be observed.
抗血管生成疗法是一种抑制肿瘤生长和转移形成的很有前景的新策略。最近,一些对肿瘤内皮细胞有不同作用的化合物已进入临床试验,并显示出需要检测其生物活性的诊断方法。动态增强磁共振成像(dyMRI)被用于大多数抗血管生成活性化合物的临床试验。我们使用PTK787/ZK 222584评估了该方法,PTK787/ZK 222584是一种VEGF受体酪氨酸激酶的特异性抑制剂,在小鼠肾细胞癌(RENCA)模型中显示出抗肿瘤和抗血管生成活性。在肾内接种RENCA细胞后,小鼠出现原发性肿瘤,并转移至肺和腹部淋巴结。在以50mg/kg的剂量用PTK787/ZK 222584或赋形剂进行每日口服治疗21天后,通过dyMRI分析所有动物的原发性肿瘤。钆-DOTA(Dotarem)用作造影剂以检测血管通透性和造影剂外渗,而血管内氧化铁纳米颗粒(Endorem)用于检测局部肿瘤血容量。此外,通过适当的方法研究血管密度、结构、直径和血流速度。令人惊讶的是,与对照组相比,PTK787/ZK 222584治疗组在治疗期间外渗没有变化,而血管通透性显著降低。此外,在PTK787/ZK 222584治疗组中发现局部血容量增加,尽管组织学显示血管密度降低。使用腐蚀铸型技术,血管密度降低显著但不太明显,主要归因于微血管的丧失。这一发现与PTK787/ZK 222584治疗动物原发性肿瘤中血管直径向大血管转变以及肿瘤供血肾动脉血流速度降低相关。从这些发现中,我们得出结论,PTK787/ZK 222584治疗主要减少肿瘤微血管数量,同时伴有其余血管的血流动力学扩张。这种扩张可能会影响dyMRI的结果,从而观察到外渗没有变化,甚至局部肿瘤血容量增加。
