NTP Technical report on the toxicity studies of ortho-, meta-, and para- Nitrotoluenes (CAS Nos. 88-72-2, 99-08-1, 99-99-0) Administered in Dosed Feed to F344/N Rats And B6C3F1 Mice.

Toxicity report series Pub Date : 1992-11-01
J Dunnick
{"title":"NTP Technical report on the toxicity studies of ortho-, meta-, and para- Nitrotoluenes (CAS Nos. 88-72-2, 99-08-1, 99-99-0) Administered in Dosed Feed to F344/N Rats And B6C3F1 Mice.","authors":"J Dunnick","doi":"","DOIUrl":null,"url":null,"abstract":"<p><p>Nitrotoluenes are high production volume chemicals used in the synthesis of agricultural and rubber chemicals and in various dyes. Because of differences in the metabolism of the 3 isomers and their capability to bind to DNA, comparative toxicity studies of o-, m-, or p-nitrotoluene were conducted in F344 rats and B6C3F1 mice. Animals were evaluated for histopathology, clinical pathology, and toxicity to the reproductive system. The nitrotoluenes were also studied in several in vitro and in vivo assays for genetic toxicity. In 14-day studies, o-nitrotoluene, m-nitrotoluene, or p-nitrotoluene was administered in the feed to male and female rats and mice at concentrations ranging from 388 to 20000 ppm (5 animals/chemical/species/sex/dose). There were no effects on survival or clinical signs of toxicity in these studies, although animals at the higher doses showed decreases in body weight gains relative to controls. In the 13-week studies, o-, m-, or p-nitrotoluene was given to male and female rats and mice (10 animals/chemical/species/ sex/dose) in the feed at concentrations between 625 and 10000 ppm. The estimated daily doses based on measures of feed consumption were 40 to 900 mg nitrotoluene/kg body weight/day for rats and 100 to 2000 mg/kg/day for mice and were similar for each of the 3 isomers when compared for each dietary level/sex/species. There were no effects on survival in any of the studies, and clinical signs of toxicity were limited to decreases in feed consumption. Decreased body weight gains occurred in dosed rats and mice in all studies at the higher dose levels and were most pronounced in rats receiving o-nitrotoluene. In rats, histopathologic analyses after 13 weeks of dosing showed toxicity to kidney, spleen, and testis in animals receiving any of the 3 isomers, and toxicity to the liver and mesothelium in male rats given o-nitrotoluene. Kidney toxicity observed in male rats was characterized by the presence of hyaline droplets in tubular epithelial cells, attributed to an increase in the level of alpha-2μ-globulin. Pigment, possibly lipofuscin, and karyomegaly in the p-nitrotoluene study were present in the renal tubular epithelium of dosed male and female rats. In the spleen of treated male and female rats, there was a mild increase in hematopoiesis, hemosiderin deposition, and/or congestion; this effect was most severe with the para-isomer, followed by the ortho- and then the meta-isomer. Administration of o-, m-, or p-nitrotoluene impaired testicular function of the rat, shown by degeneration of the testis and reduction in sperm concentration, motility, and spermatid number. All 3 isomers increased the length of the estrous cycle in rats. Hepatic toxicity was characterized by cytoplasmic vacuolization and oval cell hyperplasia and by an increase in the level of serum bile acids, SDH, and ALT activities in male rats given o-nitrotoluene. There was no histopathologic evidence for liver toxicity in male or female rats with the m- or p-isomers, or in female rats with the o-isomer; but evidence of liver injury was observed in these groups, indicated by increases in relative liver weights and elevations in bile acids and liver enzymes in serum. Mesotheliomas of the tunica vaginalis were observed in 3/10 male rats receiving o-nitrotoluene at 5000 ppm, and mesothelial cell hyperplasia was observed in 2/10 male rats receiving o-nitrotoluene at 10000 ppm. The only histopathologic evidence for toxicity in mice in the 13- week studies occurred in the olfactory epithelium in mice receiving o-nitrotoluene, where the chemical caused degeneration and metaplasia. No liver lesions were noted in mice, but the 3 isomers caused increases in relative liver weights. There was no toxicity to the reproductive system in male or female mice treated with any of the nitrotoluene isomers. The 3 nitrotoluene isomers were not mutagenic in Salmonella typhimurium strains TA100, TA1535, TA1537, and TA98. Only p-nitrotoluene induced chromosomal aberrations in cultured Chinese hamster ovary (CHO) cells, and this required metabolic activation. Sister-chromatid exchanges were increased in CHO cells following exposure to each isomer; the requirement for metabolic activation varied. Only p-nitrotoluene was studied in the mouse lymphoma L5178Y test; it caused mutations with metabolic activation. Unscheduled DNA synthesis (UDS) was increased in in vitro incubations of hepatocytes isolated from both sexes of rats and mice after receiving a single in vivo oral dose of o-nitrotoluene. UDS was not increased in a similar study with male rats given m- or p-nitrotoluene. o-Nitrotoluene also induced s-phase DNA synthesis in hepatocytes of rats but not in those of mice. In summary, the 3 nitrotoluene isomers were toxic to the kidney, spleen and/or reproductive system in rats; o-nitrotoluene also caused lesions in the liver of male rats. No treatment-related lesions were noted in mice except with o-nitrotoluene where olfactory epithelium degeneration occurred. The increase in relative liver weights and the increase in UDS in liver indicate that all 3 isomers affected the liver of female rats and of male and female mice, even though histopathologic lesions were not observed. In general, the extent of the toxicity was most severe with the o-isomer in both rats and mice. o-Nitrotoluene was carcinogenic in male rats in 13-week studies, based on the occurrence of mesothelioma and mesothelial cell hyperplasia in dosed groups. Synonyms: o-NT, 2NT, 2-nitrotoluene, 2-methylnitrobenzene, 2-nitrotoluol; m-NT, 3NT, 3-nitrotoluene, 3-methylnitrobenzene, 3-nitrotoluol; p-NT, 4NT, 4-nitrotoluene, 4-methylnitrobenzene, 4-nitrotoluol. </p>","PeriodicalId":23116,"journal":{"name":"Toxicity report series","volume":"23 ","pages":"1-E4"},"PeriodicalIF":0.0000,"publicationDate":"1992-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Toxicity report series","FirstCategoryId":"1085","ListUrlMain":"","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract

Nitrotoluenes are high production volume chemicals used in the synthesis of agricultural and rubber chemicals and in various dyes. Because of differences in the metabolism of the 3 isomers and their capability to bind to DNA, comparative toxicity studies of o-, m-, or p-nitrotoluene were conducted in F344 rats and B6C3F1 mice. Animals were evaluated for histopathology, clinical pathology, and toxicity to the reproductive system. The nitrotoluenes were also studied in several in vitro and in vivo assays for genetic toxicity. In 14-day studies, o-nitrotoluene, m-nitrotoluene, or p-nitrotoluene was administered in the feed to male and female rats and mice at concentrations ranging from 388 to 20000 ppm (5 animals/chemical/species/sex/dose). There were no effects on survival or clinical signs of toxicity in these studies, although animals at the higher doses showed decreases in body weight gains relative to controls. In the 13-week studies, o-, m-, or p-nitrotoluene was given to male and female rats and mice (10 animals/chemical/species/ sex/dose) in the feed at concentrations between 625 and 10000 ppm. The estimated daily doses based on measures of feed consumption were 40 to 900 mg nitrotoluene/kg body weight/day for rats and 100 to 2000 mg/kg/day for mice and were similar for each of the 3 isomers when compared for each dietary level/sex/species. There were no effects on survival in any of the studies, and clinical signs of toxicity were limited to decreases in feed consumption. Decreased body weight gains occurred in dosed rats and mice in all studies at the higher dose levels and were most pronounced in rats receiving o-nitrotoluene. In rats, histopathologic analyses after 13 weeks of dosing showed toxicity to kidney, spleen, and testis in animals receiving any of the 3 isomers, and toxicity to the liver and mesothelium in male rats given o-nitrotoluene. Kidney toxicity observed in male rats was characterized by the presence of hyaline droplets in tubular epithelial cells, attributed to an increase in the level of alpha-2μ-globulin. Pigment, possibly lipofuscin, and karyomegaly in the p-nitrotoluene study were present in the renal tubular epithelium of dosed male and female rats. In the spleen of treated male and female rats, there was a mild increase in hematopoiesis, hemosiderin deposition, and/or congestion; this effect was most severe with the para-isomer, followed by the ortho- and then the meta-isomer. Administration of o-, m-, or p-nitrotoluene impaired testicular function of the rat, shown by degeneration of the testis and reduction in sperm concentration, motility, and spermatid number. All 3 isomers increased the length of the estrous cycle in rats. Hepatic toxicity was characterized by cytoplasmic vacuolization and oval cell hyperplasia and by an increase in the level of serum bile acids, SDH, and ALT activities in male rats given o-nitrotoluene. There was no histopathologic evidence for liver toxicity in male or female rats with the m- or p-isomers, or in female rats with the o-isomer; but evidence of liver injury was observed in these groups, indicated by increases in relative liver weights and elevations in bile acids and liver enzymes in serum. Mesotheliomas of the tunica vaginalis were observed in 3/10 male rats receiving o-nitrotoluene at 5000 ppm, and mesothelial cell hyperplasia was observed in 2/10 male rats receiving o-nitrotoluene at 10000 ppm. The only histopathologic evidence for toxicity in mice in the 13- week studies occurred in the olfactory epithelium in mice receiving o-nitrotoluene, where the chemical caused degeneration and metaplasia. No liver lesions were noted in mice, but the 3 isomers caused increases in relative liver weights. There was no toxicity to the reproductive system in male or female mice treated with any of the nitrotoluene isomers. The 3 nitrotoluene isomers were not mutagenic in Salmonella typhimurium strains TA100, TA1535, TA1537, and TA98. Only p-nitrotoluene induced chromosomal aberrations in cultured Chinese hamster ovary (CHO) cells, and this required metabolic activation. Sister-chromatid exchanges were increased in CHO cells following exposure to each isomer; the requirement for metabolic activation varied. Only p-nitrotoluene was studied in the mouse lymphoma L5178Y test; it caused mutations with metabolic activation. Unscheduled DNA synthesis (UDS) was increased in in vitro incubations of hepatocytes isolated from both sexes of rats and mice after receiving a single in vivo oral dose of o-nitrotoluene. UDS was not increased in a similar study with male rats given m- or p-nitrotoluene. o-Nitrotoluene also induced s-phase DNA synthesis in hepatocytes of rats but not in those of mice. In summary, the 3 nitrotoluene isomers were toxic to the kidney, spleen and/or reproductive system in rats; o-nitrotoluene also caused lesions in the liver of male rats. No treatment-related lesions were noted in mice except with o-nitrotoluene where olfactory epithelium degeneration occurred. The increase in relative liver weights and the increase in UDS in liver indicate that all 3 isomers affected the liver of female rats and of male and female mice, even though histopathologic lesions were not observed. In general, the extent of the toxicity was most severe with the o-isomer in both rats and mice. o-Nitrotoluene was carcinogenic in male rats in 13-week studies, based on the occurrence of mesothelioma and mesothelial cell hyperplasia in dosed groups. Synonyms: o-NT, 2NT, 2-nitrotoluene, 2-methylnitrobenzene, 2-nitrotoluol; m-NT, 3NT, 3-nitrotoluene, 3-methylnitrobenzene, 3-nitrotoluol; p-NT, 4NT, 4-nitrotoluene, 4-methylnitrobenzene, 4-nitrotoluol.

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国家毒理学规划(NTP):对邻硝基甲苯、间硝基甲苯和对硝基甲苯的毒性研究技术报告(CAS编号:88-72-2,99-08-1,99-99-0)给药于F344/N大鼠和B6C3F1小鼠。
硝基甲苯是一种大批量生产的化学品,用于合成农业和橡胶化学品以及各种染料。由于3种异构体的代谢和它们与DNA结合能力的差异,我们在F344大鼠和B6C3F1小鼠中进行了o-、m-或对硝基甲苯的毒性比较研究。对动物进行组织病理学、临床病理学和对生殖系统的毒性评估。对硝基甲苯进行了体外和体内遗传毒性研究。在为期14天的研究中,将邻硝基甲苯、间硝基甲苯或对硝基甲苯以388至20000ppm(5只动物/化学物质/物种/性别/剂量)的浓度添加到雄性和雌性大鼠和小鼠的饲料中。在这些研究中,没有对生存或临床毒性症状产生影响,尽管与对照组相比,较高剂量的动物体重增加有所减少。在为期13周的研究中,以625至10000 ppm的浓度给雄性和雌性大鼠和小鼠(10只动物/化学物质/物种/性别/剂量)喂食o-、m-或对硝基甲苯。根据饲料消耗测量估计的日剂量,大鼠为40至900毫克/公斤体重/天,小鼠为100至2000毫克/公斤/天,在不同的饮食水平/性别/物种中,三种异构体的剂量是相似的。在任何研究中都没有对生存产生影响,并且毒性的临床症状仅限于饲料消耗量的减少。在所有研究中,高剂量的大鼠和小鼠体重增加减少,在接受邻硝基甲苯的大鼠中最明显。在大鼠中,13周后的组织病理学分析显示,接受这3种异构体中的任何一种的动物对肾脏、脾脏和睾丸都有毒性,给予邻硝基甲苯的雄性大鼠对肝脏和间皮也有毒性。在雄性大鼠中观察到的肾毒性的特征是在小管上皮细胞中存在透明液滴,归因于α -2μ-球蛋白水平的增加。在对硝基甲苯的研究中,雄性和雌性大鼠的肾小管上皮中存在色素(可能是脂褐素)和核肿大。在雄性和雌性大鼠的脾脏中,造血、含铁血黄素沉积和/或充血轻度增加;对异构体的影响最为严重,其次是邻位异构体,然后是间位异构体。给药o-、m-或对硝基甲苯会损害大鼠睾丸功能,表现为睾丸退化、精子浓度、活力和精子数量减少。3种异构体均能延长大鼠的发情周期。给予邻硝基甲苯的雄性大鼠肝毒性表现为细胞质空泡化和卵形细胞增生,血清胆汁酸水平、SDH和ALT活性升高。没有组织病理学证据表明,含有m-或p-异构体的雄性或雌性大鼠,或含有o-异构体的雌性大鼠有肝毒性;但在这些组中观察到肝损伤的证据,表明肝脏相对重量增加,血清中胆汁酸和肝酶升高。5000ppm邻硝基甲苯作用下,3/10雄性大鼠阴道膜出现间皮瘤,10000 ppm邻硝基甲苯作用下,2/10雄性大鼠阴道膜间皮细胞增生。在13周的研究中,小鼠的毒性的唯一组织病理学证据发生在接受邻硝基甲苯治疗的小鼠的嗅上皮中,化学物质引起变性和化生。小鼠未见肝脏损伤,但3种异构体引起肝脏相对重量增加。任何一种硝基甲苯异构体对雄性或雌性小鼠的生殖系统均无毒性作用。3种硝基甲苯异构体对鼠伤寒沙门菌TA100、TA1535、TA1537和TA98均无诱变作用。在培养的中国仓鼠卵巢(CHO)细胞中,只有对硝基甲苯引起染色体畸变,这需要代谢激活。暴露于每种异构体后,CHO细胞中的姐妹染色单体交换增加;对代谢激活的要求各不相同。小鼠淋巴瘤L5178Y试验只研究对硝基甲苯;它引起了代谢激活的突变。单次口服邻硝基甲苯后,大鼠和小鼠分离的肝细胞体外培养的非计划性DNA合成(UDS)增加。在一项类似的研究中,雄性大鼠给予间硝基甲苯或对硝基甲苯时,UDS没有增加。邻硝基甲苯还能诱导大鼠肝细胞的s期DNA合成,但对小鼠肝细胞无诱导作用。综上所述,3种硝基甲苯异构体对大鼠肾、脾和/或生殖系统均有毒性;邻硝基甲苯还会对雄性大鼠的肝脏造成损伤。 除邻硝基甲苯引起的嗅上皮变性外,小鼠未见治疗相关病变。肝脏相对重量的增加和肝脏中UDS的增加表明,尽管没有观察到组织病理病变,但所有3种异构体都影响了雌性大鼠和雄性和雌性小鼠的肝脏。总的来说,在大鼠和小鼠中,o型异构体的毒性程度最严重。在为期13周的研究中,邻硝基甲苯对雄性大鼠具有致癌性,基于给药组中间皮瘤和间皮细胞增生的发生。同义词:o-NT、2NT、2-硝基甲苯、2-甲基硝基苯、2-硝基甲苯;m-NT、3NT、3-硝基甲苯、3-甲基硝基苯、3-硝基甲苯;p-NT, 4NT, 4-硝基甲苯,4-甲基硝基苯,4-硝基甲苯。
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