Morse M A, Eklind K I, Hecht S S, Jordan K G, Choi C I, Desai D H, Amin S G, Chung F L
Division of Chemical Carcinogenesis, Naylor Dana Institute for Disease Prevention, American Health Foundation, Valhalla, New York 10595.
Cancer Res. 1991 Apr 1;51(7):1846-50.
Phenethyl isothiocyanate (PEITC), 3-phenylpropyl isothiocyanate (PPITC), 4-phenylbutyl isothiocyanate (PBITC), and the newly synthesized 5-phenylpentyl isothiocyanate (PPeITC), 6-phenylhexyl isothiocyanate (PHITC), and 4-(3-pyridyl)butyl isothiocyanate (PyBITC) were tested for their abilities to inhibit tumorigenicity and DNA methylation induced by the tobacco-specific nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) in the lungs of A/J mice. Mice were administered isothiocyanates by gavage for 4 consecutive days at doses of 5, 1, or 0.2 mumol/day prior to administration of 10 mumol of NNK by i.p. injection. Mice were sacrificed 16 weeks after NNK administration and pulmonary adenomas were quantitated, PEITC effectively inhibited NNK-induced lung tumors at a dose of 5 mumol/day but was not inhibitory at doses of 1 or 0.2 mumol/day. PPITC, PBITC, PPeITC, and PHITC were all considerably more potent inhibitors of NNK lung tumorigenesis than PEITC. While virtually no differences in inhibitory activity could be ascertained for PPITC, PBITC, and PPeITC, PHITC appeared to be the most potent tumor inhibitor of all of the compounds. At a dose of 0.2 mumol/day, PHITC pretreatment reduced tumor multiplicity by 85%. PyBITC, an analogue of both NNK and PBITC, was ineffective as an inhibitor. Using the same protocol, the compounds were found to have qualitatively similar inhibitory effects on NNK-induced DNA methylation when administered at 1 mumol/day. These results extend our previous findings that increased alkyl chain length enhances the inhibitory activity of an arylalkyl isothiocyanate toward NNK lung tumorigenesis and demonstrate the exceptional chemopreventive potentials of two new isothiocyanates, PPeITC and PHITC.
对异硫氰酸苯乙酯(PEITC)、异硫氰酸3 - 苯丙酯(PPITC)、异硫氰酸4 - 苯丁酯(PBITC)以及新合成的异硫氰酸5 - 苯戊酯(PPeITC)、异硫氰酸6 - 苯己酯(PHITC)和异硫氰酸4 -(3 - 吡啶基)丁酯(PyBITC)进行了测试,以考察它们抑制烟草特异性亚硝胺4 -(甲基亚硝胺基)-1 -(3 - 吡啶基)-1 - 丁酮(NNK)在A/J小鼠肺中诱导的肿瘤发生和DNA甲基化的能力。在通过腹腔注射给予10 μmol NNK之前,小鼠连续4天经口灌胃给予异硫氰酸酯,剂量分别为5、1或0.2 μmol/天。在给予NNK 16周后处死小鼠并对肺腺瘤进行定量分析,PEITC在剂量为5 μmol/天时可有效抑制NNK诱导的肺肿瘤,但在剂量为1或0.2 μmol/天时无抑制作用。PPITC、PBITC、PPeITC和PHITC对NNK肺肿瘤发生的抑制作用均比PEITC强得多。虽然PPITC、PBITC和PPeITC在抑制活性上几乎没有差异,但PHITC似乎是所有化合物中最有效的肿瘤抑制剂。在剂量为0.2 μmol/天时,PHITC预处理可使肿瘤多样性降低85%。PyBITC是NNK和PBITC的类似物,作为抑制剂无效。采用相同方案,发现这些化合物在以1 μmol/天给药时,对NNK诱导的DNA甲基化具有定性相似的抑制作用。这些结果扩展了我们之前的发现,即增加烷基链长度可增强芳基烷基异硫氰酸酯对NNK肺肿瘤发生的抑制活性,并证明了两种新的异硫氰酸酯PPeITC和PHITC具有特殊的化学预防潜力。
