Presystemic intestinal metabolism of N-nitrosodimethylamine in mouse intestine.

J Schulze
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Abstract

N-Nitrosodimethylamine (NDMA), a common food contaminant, is a potent liver carcinogen in rodents. A high presystemic intestinal metabolism has been shown for several nitrosamines including environmentally important compounds. We determined the metabolism of 1 micron [14C]-NDMA in isolated perfused mouse intestinal segments. We found NDMA to be equally distributed between the absorbed fluid and the perfusate. During a 2-h perfusion period, 0.13% of the radioactivity was converted to CO2. The formation of CO2 was decreased by pretreatment with diallylsulfide or addition of SKF 525A, and slightly increased by phenobarbital. Hydrophilic metabolites were found in the absorbate (0.9%) and perfusate (3.8%) of untreated mice. The amount of metabolites in the absorbate was increased by treatment with acetone or phenobarbital (8-fold), but not after starvation, with formaldehyde being present only in phenobarbital-treated animals. Treatment with diallylsulfide or addition of SKF 525A reduced the amount of metabolites in acetone-treated animals to control values. In conclusion, intestinal turnover does not significantly reduce the body burden of orally ingested NDMA and thus is not a first-line defense against this carcinogenic nitrosamine. NDMA metabolism has been attributed to the presence of cytochrome P450IIE1, which has not been detected in the intestine of untreated animals. The low turnover of NDMA, the induction by acetone and phenobarbital treatment, and the inhibition by diallylsulfide suggest the presence of low amounts of this or related cytochrome P450 isozyme(s) in mouse intestine.

n -亚硝基二甲胺在小鼠肠道内的系统前肠道代谢。
n -亚硝基二甲胺(NDMA)是一种常见的食品污染物,是啮齿类动物的一种强效致癌物。几种亚硝胺,包括对环境重要的化合物,具有较高的系统前肠道代谢。我们测定了1微米[14C]-NDMA在离体灌注小鼠肠段中的代谢。我们发现NDMA在吸收液和灌注液中均匀分布。在2 h的灌注期间,0.13%的放射性转化为CO2。采用双烯丙基硫化物预处理或添加SKF 525A均可降低CO2的生成,而苯巴比妥可略微提高CO2的生成。在未处理小鼠的吸收液(0.9%)和灌注液(3.8%)中发现亲水性代谢物。用丙酮或苯巴比妥处理后,吸收物中代谢物的数量增加(8倍),但饥饿后没有增加,甲醛仅在苯巴比妥处理的动物中存在。双烯丙基硫化物处理或添加SKF 525A可使丙酮处理动物的代谢物数量降至控制值。综上所述,肠道循环并不能显著减轻口服NDMA的机体负担,因此不是对抗这种致癌性亚硝胺的一线防线。NDMA代谢归因于细胞色素P450IIE1的存在,而在未处理动物的肠道中未检测到该物质。NDMA的低周转率、丙酮和苯巴比妥治疗的诱导以及双烯丙基硫醚的抑制表明,小鼠肠道中存在少量的这种或相关的细胞色素P450同工酶。
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