Dewever Julie, Frérart Françoise, Bouzin Caroline, Baudelet Christine, Ansiaux Réginald, Sonveaux Pierre, Gallez Bernard, Dessy Chantal, Feron Olivier
Unit of Pharmacology and Therapeutics (UCL-FATH 5349), Université catholique de Louvain, Brussels, Belgium.
Am J Pathol. 2007 Nov;171(5):1619-28. doi: 10.2353/ajpath.2007.060968. Epub 2007 Oct 4.
In the normal microvasculature, caveolin-1, the structural protein of caveolae, modulates transcytosis and paracellular permeability. Here, we used caveolin-1-deficient mice (Cav(-/-)) to track the potential active roles of caveolin-1 down-modulation in the regulation of vascular permeability and morphogenesis in tumors. In B16 melanoma-bearing Cav(-/-) mice, we found that fibrinogen accumulated in early-stage tumors to a larger extent than in wild-type animals. These results were confirmed by the observations of a net elevation of the interstitial fluid pressure and a relative deficit in albumin extravasation in Cav(-/-) tumors (versus healthy tissues). Immunostaining analyses of Cav(-/-) tumor sections further revealed a higher density of CD31-positive vascular structures and a dramatic deficit in alpha-smooth muscle actin-stained mural cells. The increase in blood plasma volume in Cav(-/-) tumors was confirmed by dynamic contrast enhanced-magnetic resonance imaging and found to be associated with a more rapid tumor growth. Finally, an in vitro wound test and the aorta ring assay revealed that silencing caveolin expression could directly impair the migration and the outgrowth of smooth muscle cells/pericytes, particularly in response to platelet-derived growth factor. In conclusion, a decrease in caveolin abundance, by promoting angiogenesis and preventing its termination by mural cell recruitment, appears as an important control point for the formation of new tumor blood vessels. Caveolin-1 therefore has the potential to be a marker of tumor vasculature maturity that may help adjusting anticancer therapies.
在正常的微血管系统中,小窝蛋白-1(一种小窝的结构蛋白)可调节转胞吞作用和细胞旁通透性。在此,我们使用小窝蛋白-1基因缺陷小鼠(Cav(-/-))来追踪小窝蛋白-1下调在肿瘤血管通透性调节和形态发生中的潜在积极作用。在携带B16黑色素瘤的Cav(-/-)小鼠中,我们发现纤维蛋白原在早期肿瘤中的积累程度比野生型动物更大。这些结果通过观察Cav(-/-)肿瘤(相对于健康组织)间质液压力的净升高和白蛋白外渗相对不足得到证实。对Cav(-/-)肿瘤切片的免疫染色分析进一步显示,CD31阳性血管结构密度更高,而α-平滑肌肌动蛋白染色的壁细胞显著减少。动态对比增强磁共振成像证实了Cav(-/-)肿瘤中血浆量的增加,并发现其与肿瘤生长更快有关。最后,体外伤口试验和主动脉环试验表明,沉默小窝蛋白表达可直接损害平滑肌细胞/周细胞的迁移和生长,特别是对血小板衍生生长因子的反应。总之,小窝蛋白丰度的降低通过促进血管生成并阻止壁细胞募集使其终止,似乎是新肿瘤血管形成的一个重要控制点。因此,小窝蛋白-1有可能成为肿瘤血管成熟的标志物,这可能有助于调整抗癌治疗。