College of Medicine, Division of Medical Oncology, and Comprehensive Cancer Center, The Ohio State University, Columbus, OH 43210, USA.
Int J Cancer. 2012 Sep 15;131(6):1277-86. doi: 10.1002/ijc.27395. Epub 2012 Jan 31.
Atorvastatin and suberoylanilide hydroxamic acid (SAHA) were evaluated for chemoprevention of mouse lung tumors. In Experiment 1, lung tumors were induced by vinyl carbamate in strain A/J mice followed by 500 mg/kg SAHA, 60 or 180 mg/kg atorvastatin, and combinations containing SAHA and atorvastatin administered in their diet. SAHA and both combinations, but not atorvastatin, decreased the multiplicity of lung tumors, including large adenomas and adenocarcinomas with the combinations demonstrating the greatest efficacy. In Experiment 2, lung tumors were induced by 4-(methylnitrosoamino)-1-(3-pyridyl)-1-butanol in strain A/J mice followed by 180 mg/kg atorvastatin, 500 mg/kg SAHA, or both drugs administered in the diet. SAHA and the combination of both drugs, but not atorvastatin alone, decreased the multiplicity of lung tumors and large tumors, with the combination demonstrating greater efficacy. In Experiment 3, lung tumors were induced by 1,2-dimethylhydrazine in Swiss-Webster mice followed by 160 mg/kg atorvastatin, 400 mg/kg SAHA, or a combination of both drugs administered in the diet. SAHA and the combination, but not atorvastatin, decreased the multiplicity of lung tumors with the combination demonstrating greater efficacy. The multiplicity of colon tumors was decreased by SAHA, atorvastatin, and the combination, without any significant difference in their efficacy. mRNA expression analysis of lung tumor bearing mice suggested that the enhanced chemopreventive activity of the combination is related to atorvastatin modulation of DNA repair, SAHA modulation of angiogenesis, and both drugs modulating invasion and metastasis pathways. Atorvastatin demonstrated chemoprevention activity as indicated by the enhancement of the efficacy of SAHA to prevent mouse lung tumors.
阿托伐他汀和琥珀酰亚胺基羟肟酸(SAHA)用于评估其对小鼠肺癌的化学预防作用。在实验 1 中,使用乙烯基碳酸酯诱导 A/J 小鼠的肺癌,然后用 500mg/kg 的 SAHA、60 或 180mg/kg 的阿托伐他汀以及含有 SAHA 和阿托伐他汀的组合进行饮食治疗。SAHA 和两种组合(但阿托伐他汀没有)都降低了肺肿瘤的多发性,包括大型腺瘤和腺癌,其中组合的效果最佳。在实验 2 中,使用 4-(甲基亚硝氨基)-1-(3-吡啶基)-1-丁醇诱导 A/J 小鼠的肺癌,然后用 180mg/kg 的阿托伐他汀、500mg/kg 的 SAHA 或两种药物联合进行饮食治疗。SAHA 和两种药物的组合(但不是阿托伐他汀单独使用)降低了肺肿瘤和大型肿瘤的多发性,其中组合的效果最佳。在实验 3 中,使用 1,2-二甲基肼诱导瑞士-韦伯斯特小鼠的肺癌,然后用 160mg/kg 的阿托伐他汀、400mg/kg 的 SAHA 或两种药物联合进行饮食治疗。SAHA 和组合(但不是阿托伐他汀)降低了肺肿瘤的多发性,其中组合的效果最佳。SAHA、阿托伐他汀和组合都降低了结肠肿瘤的多发性,其疗效没有明显差异。对携带肺肿瘤的小鼠的 mRNA 表达分析表明,组合的增强化学预防活性与阿托伐他汀调节 DNA 修复、SAHA 调节血管生成以及两种药物调节侵袭和转移途径有关。阿托伐他汀表现出化学预防活性,因为它增强了 SAHA 预防小鼠肺癌的疗效。