Inhibition of cyclo-oxygenase 2 reduces tumor metastasis and inflammatory signaling during blockade of vascular endothelial growth factor.

Q4 Neuroscience Vascular Cell Pub Date : 2011-10-06 DOI:10.1186/2045-824X-3-22
Jason C Fisher, Jeffrey W Gander, Mary Jo Haley, Sonia L Hernandez, Jianzhong Huang, Yan-Jung Chang, Tessa B Johung, Paolo Guarnieri, Kathleen O'Toole, Darrell J Yamashiro, Jessica J Kandel
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引用次数: 15

Abstract

Vascular endothelial growth factor (VEGF) blockade is an effective therapy for human cancer, yet virtually all neoplasms resume primary tumor growth or metastasize during therapy. Mechanisms of progression have been proposed to include genes that control vascular remodeling and are elicited by hypoperfusion, such as the inducible enzyme cyclooxygenase-2 (COX-2). We have previously shown that COX-2 inhibition by the celecoxib analog SC236 attenuates perivascular stromal cell recruitment and tumor growth. We therefore examined the effect of combined SC236 and VEGF blockade, using the metastasizing orthotopic SKNEP1 model of pediatric cancer. Combined treatment perturbed tumor vessel remodeling and macrophage recruitment, but did not further limit primary tumor growth as compared to VEGF blockade alone. However, combining SC236 and VEGF inhibition significantly reduced the incidence of lung metastasis, suggesting a distinct effect on prometastatic mechanisms. We found that SC236 limited tumor cell viability and migration in vitro, with effects enhanced by hypoxia, but did not change tumor proliferation or matrix metalloproteinase expression in vivo. Gene set expression analysis (GSEA) indicated that the addition of SC236 to VEGF inhibition significantly reduced expression of gene sets linked to macrophage mobilization. Perivascular recruitment of macrophages induced by VEGF blockade was disrupted in tumors treated with combined VEGF- and COX-2-inhibition. Collectively, these findings suggest that during VEGF blockade COX-2 may restrict metastasis by limiting both prometastatic behaviors in individual tumor cells and mobilization of macrophages to the tumor vasculature.

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抑制环加氧酶2可减少血管内皮生长因子阻断过程中的肿瘤转移和炎症信号。
血管内皮生长因子(VEGF)阻断是一种有效的治疗人类癌症的方法,但几乎所有的肿瘤在治疗期间恢复原发肿瘤生长或转移。已提出的进展机制包括控制血管重塑和由低灌注引发的基因,如诱导酶环氧化酶-2 (COX-2)。我们之前已经证明,塞来昔布类似物SC236抑制COX-2可减弱血管周围基质细胞募集和肿瘤生长。因此,我们使用儿童癌症的转移性原位SKNEP1模型,检测了SC236和VEGF联合阻断的效果。联合治疗干扰肿瘤血管重塑和巨噬细胞募集,但与单独阻断VEGF相比,没有进一步限制原发肿瘤生长。然而,联合抑制SC236和VEGF可显著降低肺转移的发生率,提示对前转移机制有明显影响。我们发现SC236在体外限制肿瘤细胞的活力和迁移,并通过缺氧增强其作用,但在体内不改变肿瘤增殖或基质金属蛋白酶的表达。基因集表达分析(GSEA)表明,在VEGF抑制中加入SC236可显著降低巨噬细胞动员相关基因集的表达。在VEGF-和cox -2联合抑制治疗的肿瘤中,VEGF阻断诱导的巨噬细胞血管周围募集被破坏。总之,这些发现表明,在VEGF阻断期间,COX-2可能通过限制单个肿瘤细胞的前转移行为和巨噬细胞向肿瘤血管的动员来限制转移。
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Vascular Cell
Vascular Cell Neuroscience-Neurology
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0.70
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