NTP technical report on the toxicity studies of 1-Nitropyrene (CAS No. 5522-43-0) Administered by Inhalation to F344/N Rats.

Toxicity report series Pub Date : 1996-04-01
Po Chan
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Abstract

1-Nitropyrene is a by-product of combustion. It is the predominant nitrated polycyclic aromatic hydrocarbon emitted in diesel engine exhaust and has been found at concentrations of up to 57 pg/m(3) in the air over urban and suburban areas. 1-Nitropyrene is detoxified mainly to 1-aminopyrene by nitro reduction. 1-Nitropyrene can also undergo ring oxidation, depending on the concentration of oxygen. Aryl nitrenium ions generated by nitro reduction or K-region nitropyrene epoxides generated by ring oxidation can react with DNA, forming adducts. 1-Nitropyrene was nominated for toxicity study because it is mutagenic, it is found in the environment, and it has potential for human exposure. Administration by inhalation was chosen because humans are exposed to 1-nitropyrene mainly by inhalation. Nose-only inhalation was chosen because whole-body inhalation exposure would require a large quantity of purified 1-nitropyrene that is expensive and difficult to procure. The study was performed in rats because of technical problems with conducting nose-only inhalation studies in mice and because mice are known to be more resistant to 1-nitropyrene toxicity. In the base study, groups of 10 male and 10 female 7-week-old F344/N rats were exposed to 0, 0.5, 2, 8, 20, or 50 mg/m(3) 1-nitropyrene aerosol, 6 hours per day, 5 days per week, for 13 weeks. At 13 weeks, rats were evaluated for histopathology, clinical pathology, and reproductive system effects. In a supplemental evaluation, toxicokinetic effects were assessed in male F344/N rats exposed to 1-nitropyrene for 13 weeks. All rats survived to the end of the 13-week exposure. For all groups, body weight gains of exposed rats were similar to those of concurrent controls (but lower than those of historical whole body inhalation study control rats); however, liver weights of exposed male rats were higher than those of the controls. There were slight variations in certain hematology and clinical chemistry parameters for some groups, but these were not considered related to 1-nitropyrene exposure. Squamous metaplasia of the respiratory mucosa was observed in the larynx of male rats exposed to 1-nitropyrene at a concentration of 2 mg/m(3) or greater and of female rats at all exposure concentrations. Squamous metaplasia of the bronchial epithelium also occurred in male and female rats in the higher exposure groups. Cytoplasmic alteration of the nasal respiratory epithelium was observed in both sexes exposed to 1-nitropyrene at a concentration of 8 mg/m(3)or greater. No treatment-related effects on sperm motility or vaginal cytology were noted. However, testicular atrophy was observed in all male rats and was considered a secondary effect resulting from the daily confinement within the exposure tubes. The elimination half-life of 1-nitropyrene in the lungs was about 1 hour for rats exposed to 8 mg/m(3)and 6 hours for rats exposed to 50 mg/m(3). Lung burdens of 1-nitropyrene in rats exposed to 8 mg/m(3) remained the same for the 13-week duration; however, lung burdens in rats exposed to 50 mg/m(3) increased with time indicating that the rats were unable to clear the 1-nitropyrene between exposures. The half-life of 1-nitropyrene in the plasma of rats exposed to 50 mg/m(3) was about 1 hour. Based on data contained in this report and previously published reports on the genetic toxicity, carcinogenicity, and toxicokinetics of 1-nitropyrene, it is the opinion of the National Toxicology Program (NTP) that 1-nitropyrene has a high likelihood of being carcinogenic to the respiratory tract, particularly under exposure conditions that lead to significant accumulations of 1-nitropyrene in the lungs, and perhaps other organs of F344/N rats. In summary, nose-only inhalation exposure to 1-nitropyrene for 13 weeks induced squamous metaplasia of the laryngeal and bronchial respiratory epithelium in male and female rats. Cytoplasmic alteration in the nasal respiratory epithelium were also induced in male and female rats. The no-observed-adverse-effect level (NOAEL) for male rats was 0.5 mg/m(3). A NOAEL for female rats could not be determined from these studies. Synonyms: 3-Nitropyrene; Pyrene, 1-nitro.

国家毒理学规划关于1-硝基芘(CAS No. 5522-43-0)吸入对F344/N大鼠毒性研究的技术报告。
1-硝基芘是燃烧的副产物。它是柴油发动机废气中主要的硝化多环芳烃,在城市和郊区的空气中浓度高达57 pg/m(3)。1-硝基芘主要通过硝基还原还原为1-氨基芘。1-硝基芘也可以发生环氧化,这取决于氧的浓度。硝基还原生成的芳基氮离子或环氧化生成的k区环氧硝基芘可与DNA反应形成加合物。1-硝基芘被提名进行毒性研究,因为它具有诱变性,存在于环境中,并且有可能对人类造成接触。选择吸入给药是因为人类主要通过吸入接触1-硝基芘。选择仅用鼻子吸入是因为全身吸入暴露将需要大量的纯化1-硝基芘,而这种接触既昂贵又难以获得。这项研究是在大鼠身上进行的,因为在小鼠身上进行仅靠鼻子吸入的研究存在技术问题,而且众所周知,小鼠对1-硝基芘的毒性更有抵抗力。在基础研究中,每组10只雄性和10只雌性7周龄F344/N大鼠分别暴露于0、0.5、2、8、20或50 mg/m(3) 1-硝基芘气溶胶中,每天6小时,每周5天,持续13周。在13周时,对大鼠进行组织病理学、临床病理学和生殖系统影响的评估。在补充评估中,对暴露于1-硝基芘13周的雄性F344/N大鼠进行了毒性动力学影响评估。所有大鼠都存活到13周暴露结束。在所有组中,暴露大鼠的体重增加与同期对照组相似(但低于历史全身吸入研究对照组大鼠);然而,暴露的雄性大鼠肝脏重量高于对照组。某些组的某些血液学和临床化学参数有轻微变化,但这些不被认为与1-硝基芘暴露有关。暴露于浓度为2 mg/m(3)或更高的1-硝基芘的雄性大鼠和所有暴露浓度的雌性大鼠喉部均观察到呼吸道粘膜鳞状皮化生。在高暴露组中,雄性和雌性大鼠的支气管上皮也发生鳞状皮化生。在暴露于浓度为8 mg/m(3)或更高的1-硝基芘时,两性均观察到鼻呼吸道上皮细胞的细胞质改变。没有发现治疗对精子活力或阴道细胞学的影响。然而,在所有雄性大鼠中都观察到睾丸萎缩,这被认为是每天在暴露管中禁闭造成的次要效应。1-硝基芘在8 mg/m(3)大鼠肺中的消除半衰期约为1小时,50 mg/m(3)大鼠为6小时。暴露于8 mg/m(3)的1-硝基芘大鼠的肺负荷在13周内保持不变;然而,暴露于50 mg/m(3)的大鼠的肺负荷随着时间的推移而增加,这表明大鼠在两次暴露之间无法清除1-硝基芘。暴露于50 mg/m(3)的大鼠血浆中1-硝基芘的半衰期约为1小时。根据本报告中包含的数据和先前发表的关于1-硝基芘的遗传毒性、致癌性和毒性动力学的报告,国家毒理学计划(NTP)认为,1-硝基芘对呼吸道具有很高的致癌性,特别是在暴露条件下导致1-硝基芘在肺中显著积聚,可能还有F344/N大鼠的其他器官。综上所述,1-硝基芘暴露13周后,雄性和雌性大鼠的喉部和支气管呼吸上皮均发生鳞状化生。雄性和雌性大鼠的鼻呼吸道上皮细胞质也发生了改变。雄性大鼠未观察到不良反应水平(NOAEL)为0.5 mg/m(3)。从这些研究中无法确定雌性大鼠的NOAEL。同义词:3-Nitropyrene;芘,1-nitro。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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