Department of Biology, Point Loma Nazarene University, San Diego, CA, United States of America.
Department of Mathematical, Information, and Computer Sciences, Point Loma Nazarene University, San Diego, CA, United States of America.
PLoS One. 2021 Jun 2;16(6):e0252233. doi: 10.1371/journal.pone.0252233. eCollection 2021.
Tumor angiogenesis is critical for the growth and progression of cancer. As such, angiostasis is a treatment modality for cancer with potential utility for multiple types of cancer and fewer side effects. However, clinical success of angiostatic monotherapies has been moderate, at best, causing angiostatic treatments to lose their early luster. Previous studies demonstrated compensatory mechanisms that drive tumor vascularization despite the use of angiostatic monotherapies, as well as the potential for combination angiostatic therapies to overcome these compensatory mechanisms. We screened clinically approved angiostatics to identify specific combinations that confer potent inhibition of tumor-induced angiogenesis. We used a novel modification of the ex ovo chick chorioallantoic membrane (CAM) model that combined confocal and automated analyses to quantify tumor angiogenesis induced by glioblastoma tumor onplants. This model is advantageous due to its low cost and moderate throughput capabilities, while maintaining complex in vivo cellular interactions that are difficult to replicate in vitro. After screening multiple combinations, we determined that glioblastoma-induced angiogenesis was significantly reduced using a combination of bevacizumab (Avastin®) and temsirolimus (Torisel®) at doses below those where neither monotherapy demonstrated activity. These preliminary results were verified extensively, with this combination therapy effective even at concentrations further reduced 10-fold with a CI value of 2.42E-5, demonstrating high levels of synergy. Thus, combining bevacizumab and temsirolimus has great potential to increase the efficacy of angiostatic therapy and lower required dosing for improved clinical success and reduced side effects in glioblastoma patients.
肿瘤血管生成对于癌症的生长和进展至关重要。因此,血管生成抑制是癌症的一种治疗方法,对于多种类型的癌症具有潜在的应用价值,且副作用较少。然而,血管生成抑制单药治疗的临床疗效充其量只能说是中等,导致血管生成抑制治疗失去了早期的光彩。以前的研究表明,尽管使用了血管生成抑制单药治疗,但仍存在代偿机制,促进肿瘤血管生成,并且联合血管生成抑制治疗有可能克服这些代偿机制。我们筛选了临床批准的血管生成抑制剂,以确定能够强烈抑制肿瘤诱导的血管生成的特定组合。我们使用了一种改良的鸡胚绒毛尿囊膜(CAM)模型,该模型结合了共聚焦和自动分析,以定量分析脑胶质细胞瘤种植体诱导的肿瘤血管生成。由于该模型成本低、通量适中,同时保持了复杂的体内细胞相互作用,因此难以在体外复制,因此具有优势。在筛选了多种组合之后,我们发现贝伐单抗(阿瓦斯汀®)和替西罗莫司(Torisel®)联合使用时,可显著降低脑胶质细胞瘤诱导的血管生成,其剂量低于单药治疗时无活性的剂量。这些初步结果得到了广泛验证,即使在浓度进一步降低 10 倍,CI 值为 2.42E-5 的情况下,这种联合治疗仍有效,表明协同作用很高。因此,联合使用贝伐单抗和替西罗莫司具有很大的潜力,可以提高血管生成抑制治疗的疗效,并降低所需剂量,从而提高脑胶质细胞瘤患者的临床疗效,减少副作用。
