Aerobic Biotransformation of N-Nitrosodimethylamine and N-Nitrodimethylamine by Benzene-, Butane-, Methane-, Propane-, and Toluene-Fed Cultures

N-Nitrosodimethylamine (NDMA) is an emerging contaminant of concern. N-nitrodimethylamine (DMNA) is a structural analog to NDMA. NDMA and DMNA have been found in drinking water, groundwater, and other media and are of concern due their toxicity. The authors evaluated biotransformation of NDMA and DMNA by cultures enriched from contaminated groundwater growing on benzene, butane, methane, propane, or toluene. Maximum specific growth rates of enriched cultures on butane (μ_max = 1.1 h^?1) and propane (μ_max = 0.65 h^?1) were 1 to 2 orders of magnitude higher than those presented in the literature. Growth rates of mixed cultures grown on benzene (μ_max = 1.3 h^?1), methane (μ_max = 0.09 h^?1), and toluene (μ_max = 0.99 h^?1) in these studies were similar to those presented in the literature. NDMA biotransformation rates for methane oxidizers (υ_max = 1.4 ng min^?1 mg^?1) and toluene oxidizers (υ_max = 2.3 ng min^?1 mg^?1) were comparable to those presented in the literature, whereas the biotransformation rate for propane oxidizers (υ_max = 0.37 ng min^?1 mg^?1) was lower. NDMA biotransformation rates for benzene oxidizers (υ_max = 1.02 ng min^?1 mg^?1) and butane oxidizers (υ_max = 1.2 ng min^?1 mg^?1) were comparable to those reported for other primary substrates. These studies showed that DMNA biotransformation rates for benzene (υ_max = 0.79 ng min^?1 mg^?1), butane (υ_max = 1.0 ng min^?1 mg^?1), methane (υ_max = 2.1 ng min^?1 mg^?1), propane (υ_max = 1.46 ng min^?1 mg^?1), and toluene (υ_max = 0.52 ng min^?1 mg^?1) oxidizers were all comparable. These studies highlight potential bioremediation methods for NDMA and DMNA in contaminated groundwater.     

Biodegradation of N-nitrosodimethylamine in Soil from a Water Reclamation Facility

The potential introduction of N-nitrosodimethylamine (NDMA) into groundwater during water reclamation activities poses a significant risk to groundwater drinking supplies. Greater than 54% biodegradation of N-[methyl-¹⁴C]NDMA to ¹⁴CO₂ or to ¹⁴CO₂ and ¹⁴CH₄ was observed in soil from a water reclamation facility under oxic or anoxic conditions, respectively. Likewise, biodegradation was significant in microcosms containing soil with no history of NDMA contamination. These results indicate that aerobic and anaerobic biodegradation of NDMA may be an effective component of NDMA attenuation in water reclamation facility soils.     

N-Nitrosodimethylamine (NDMA) in Food and Beverages: A Comparison in Context to Drinking Water

Human exposure to N-nitrosodimethylamine (NDMA) from foods and beverages was modeled and upper-bound cancer risks were predicted for the United States and Canada. Approximately 0.5 (0–10.8) cancer incidents per million population from lifetime exposure to NDMA in drinking water were estimated. Lifetime exposure to NDMA from the major exogenous sources may result in 49.6 (range: 17.7–171.7) cancer incidents per million population, while meat products contribute the most (15.9/million) followed by milk products (10.9/million). Drinking water may contribute approximately 1% to the exogenous cancer risk and holds the 10th position among 10 exogenous sources. The sum of the cancer risks from the major exogenous sources (e.g., 49.6/million) is higher than the permissible limits (1–10/million) of several regulatory agencies. Thus, NDMA in exogenous sources can pose a significant source for cancer risk. Cancer risk from the exogenous sources was estimated to be much lower than that of the NDMA in the endogenous source (<1%).     

Tet调控CYP2E1基因表达细胞系的代谢能力分析

应用Tet-On基因表达系统,调控CYP2E1基因在NIH 3T3细胞中的表达水平,探讨CYP2E1在化学致癌物二甲基亚硝胺(N-nitrosodimethylamine, NDMA)代谢中的作用．先后将 Tet-on基因表达系统的调控质粒pRevTet-on和反应质粒pRevTRE-2E1转染NIH 3T3细胞,分别用G418和潮霉素筛选,并通过RT-PCR和Western印迹检测,成功获得了3个具有良好诱导性Tet调控的CYP2E1基因表达细胞系（Tet/3T3-2E1）．应用不同浓度强力霉素(doxycycline, Dox)处理Tet/3T3-2E1细胞诱导CYP2E1表达,HPLC分析细胞对CYP2E1特异性药物探针氯唑沙腙的原位代谢能力及MTT法分析CYP2E1介导的NDMA细胞毒性作用．结果显示,Tet/3T3-2E1细胞CYP2E1的表达及其代谢能力有明显的Dox浓度依赖性,而且NDMA对Dox诱导组细胞有明显浓度依赖性细胞毒性作用,其IC₅₀值为12.06 μmol/L,无Dox诱导组未见明显的NDMA细胞毒性作用．该细胞模型的成功建立对于开展与CYP2E1相关的毒物、致癌物代谢研究,筛选抗毒物、抗癌物等具有重要价值．     

Impacts of drinking water pretreatments on the formation of nitrogenous disinfection by-products

The formation of disinfection by-products (DBPs), including both nitrogenous DBPs (N-DBPs) and carbonaceous DBPs (C-DBPs), was investigated by analyzing chlorinated water samples following the application of three pretreatment processes: (i) powdered activated carbon (PAC) adsorption; (ii) KMnO(4) oxidation and (iii) biological contact oxidation (BCO), coupled with conventional water treatment processes. PAC adsorption can remove effectively the precursors of chloroform (42.7%), dichloroacetonitrile (28.6%), dichloroacetamide (DCAcAm) (27.2%) and trichloronitromethane (35.7%), which were higher than that pretreated by KMnO(4) oxidation and/or BCO process. The removal efficiency of dissolved organic carbon by BCO process (76.5%)--was superior to that by PAC adsorption (69.9%) and KMnO(4) oxidation (61.4%). However, BCO increased the dissolved organic nitrogen (DON) concentration which caused more N-DBPs to be formed during subsequent chlorination. Soluble microbial products including numerous DON compounds were produced in the BCO process and were observed to play an essential role in the formation of DCAcAm in particular.     

Lipid Peroxidation Induced ByN-Nitrosodimethylamine (Ndma) In Rats In Vivo and in Isolated Hepatocytes

To investigate the role of carcinogenic chemicals as a possible cause for oxidative damage, rats were treated with jV-nitrosodimethylamine (NDMA) and various measures of lipid peroxidation were followed. As an indication of enhanced peroxidative processes in vivo NMDA treatment produced rapidly an increase in the rate of ethane exhalation. A single i.p. or p.o. injection of lOmg/kg b.w. elevated ethane exhalation by 13-14 fold; a single dose of 0.5mg/kg of NDMA (the smallest dose tested) increased 5-fold the amount of ethane exhaled. Similarly, lipid peroxidation in the liver of NDMA-treated rats (measured by diene conjugation, chemiluminescence, the production of fluorescent and TBA-reactive material) was found to be increased rapidly showing a peak already 20min after dosing. Simultaneously, NDMA-treatment slightly decreased antioxidant enzyme activities and GSH contents in the liver. In isolated rat hepatocytes the lucigenin-dependent chemiluminescence, as well as H,0₂ release, were increased by micromolar concentrations of NDMA. Finally, it was shown that the rate of NADPH-stimulated ethane production by hepatic microsomes, prepared from untreated rats, was increased in the presence of NDMA. Thus, our results demonstrate that the alkylating NDMA can induce oxidative stress in rodents. Whether the same is true for other classes of carcinogens and processes known to affect tumor initiation/progression is presently under investigation.