Malkinson A M, Koski K M, Dwyer-Nield L D, Rice P L, Rioux N, Castonguay A, Ahnen D J, Thompson H, Pamukcu R, Piazza G A
Department of Pharmaceutical Sciences, School of Pharmacy and Colorado Cancer Center, University of Colorado Health Sciences Center, Denver 80262, USA.
Carcinogenesis. 1998 Aug;19(8):1353-6. doi: 10.1093/carcin/19.8.1353.
The sulfone derivative of the non-steroidal anti-inflammatory drug (NSAID), sulindac, has been reported to inhibit mammary and colon tumor formation in rodent models of chemically-induced carcinogenesis. Unlike its parent compound, this metabolite lacks cyclo-oxygenase inhibitory activity. A tumor induction protocol, consisting of NNK administration in the drinking water over several weeks to model chronic human exposure, was used to test whether the sulfone (called FGN-1) could inhibit the formation of primary lung tumors in mice. A total of 150 female, AIN76A-fed, A/J mice received 9 mg of NNK each. Concentrations of FGN-1 that had been previously determined not to affect body weight gain were added to the food at levels of 0, 250, 500 and 750 mg/kg of diet (30 mice/group) starting 2 weeks before NNK administration and continuing for 22 weeks. At that time pleural surface tumors were counted. Tumor incidence decreased significantly from 96 % in the control diet and 93% in the 250 FGN-1 mg/kg diet to 63 and 67% in the 500 and 750 mg FGN-1/kg diet groups, respectively (P < 0.001 by chi-square analysis). Lung tumor multiplicity decreased from 18.1+/-3 tumors/ mouse (mean+/-SEM, control diet) to 12.3+/-3 (250), 5.3+/-1 (500) and 2.1+/-1 (750) (P < 0.0005 by post hoc ANOVA). In previous studies using this carcinogenesis protocol, the maximum tolerated dose of sulindac inhibited lung tumor multiplicity by no more than 50% with no effect on incidence. This dose-dependent reduction in tumorigenesis by a non-toxic dose of FGN-1 indicates a strong chemopreventive activity against experimental induction of lung carcinogenesis. The greater potency of the sulfone over sulindac and its lack of toxic side effects because of its inability to affect cyclo-oxygenase activity suggests that clinical testing in individuals at high risk for lung cancer should be considered.
据报道,非甾体抗炎药(NSAID)舒林酸的砜衍生物可抑制化学诱导致癌的啮齿动物模型中的乳腺和结肠肿瘤形成。与母体化合物不同,这种代谢物缺乏环氧化酶抑制活性。采用一种肿瘤诱导方案,即通过在饮用水中给予NNK数周来模拟人类长期接触,以测试砜(称为FGN-1)是否能抑制小鼠原发性肺肿瘤的形成。总共150只雌性、以AIN76A为食的A/J小鼠,每只接受9毫克NNK。在给予NNK前2周开始,将先前确定不影响体重增加的FGN-1浓度以0、250、500和750毫克/千克饲料的水平添加到食物中(每组30只小鼠),并持续22周。此时对胸膜表面肿瘤进行计数。肿瘤发生率从对照饲料组的96%和250毫克FGN-1/千克饲料组的93%显著降低至500和750毫克FGN-1/千克饲料组的63%和67%(经卡方分析,P<0.001)。肺肿瘤多发性从18.1±3个肿瘤/小鼠(平均值±标准误,对照饲料组)降至12.3±3(250毫克/千克组)、5.3±1(500毫克/千克组)和2.1±1(750毫克/千克组)(经事后方差分析,P<0.0005)。在先前使用这种致癌方案的研究中,舒林酸的最大耐受剂量对肺肿瘤多发性的抑制作用不超过50%,且对发生率无影响。这种无毒剂量的FGN-1对肿瘤发生的剂量依赖性降低表明其对实验诱导的肺癌具有强大的化学预防活性。砜比舒林酸具有更高的效力,且由于其无法影响环氧化酶活性而缺乏毒副作用,这表明应考虑对肺癌高危个体进行临床试验。
