NTP technical report on the toxicity studies of p-tert-butylcatechol (CAS No. 98-29-3) administered in feed to F344/N rats and B6C3F1 mice.

Toxicity report series Pub Date : 2002-11-01
June Dunnick
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Genetic toxicology studies were conducted in Salmonella typhimurium, rat bone marrow cells, and mouse peripheral blood erythrocytes. In the 15-day studies, groups of five male and five female rats and mice were fed diets containing 0, 3,125, 6,250, 12,500, 25,000, or 50,000 ppm p-tert-butylcatechol (equivalent to average daily doses of approximately 290 to 2,470 mg p-tert-butylcatechol/kg body weight to rats and 590 to 8,200 mg/kg to mice). All animals in the 50,000 ppm groups were killed moribund on day 8 (rats) or by day 7 (mice). Mean body weights of all groups of rats exposed to 6,250 ppm or greater were significantly less than those of the controls. Mean body weights of male mice exposed to 12,500 or 25,000 ppm and of 25,000 ppm female mice were significantly less than those of the controls. Female rats, male and female mice in the 25,000 ppm groups, and 12,500 ppm male mice lost weight during the studies. Feed consumption by exposed rats generally decreased with increasing exposure concentration; feed consumption by exposed mice was similar to that by the controls. Thymus weights of 25,000 ppm rats and mice were significantly less than those of the controls. Gross findings noted at necropsy included thin carcasses for three male and all female rats in the 12,500 ppm groups and all male and female rats and mice in the 25,000 and 50,000 ppm groups. No exposure-related lesions were observed microscopically. In the 14-week studies, groups of 10 male and 10 female rats and mice were fed diets containing 0, 781, 1,562, 3,125, 6,250, or 12,500 ppm p-tert-butylcatechol (equivalent to average daily doses of approximately 70 to 1,030 mg/kg to rats and 135 to 2,815 mg/kg to mice). All animals survived to the end of the studies. Mean body weights of male rats exposed to 1,562 ppm or greater, female rats exposed to 3,125 ppm or greater, male mice exposed to 12,500 ppm, and female mice exposed to 6,250 or 12,500 ppm were significantly less than those of the controls. Feed consumption by male and female rats in the 6,250 and 12,500 ppm groups at week 1 and the 12,500 ppm groups at week 14 was less than that by the controls; feed consumption by exposed and control mice was similar. An erythrocytosis, indicated by increased hematocrit values, hemoglobin concentrations, and erythrocyte counts, was observed in 6,250 and 12,500 ppm rats on day 4 and in 12,500 ppm rats on day 22. At these time points, a transient hepatic effect was demonstrated by increases in alanine aminotransferase activities and bile salt concentrations in exposed rats. In 12,500 ppm male rats, absolute left cauda epididymis, epididymis, and testis weights were decreased by 15%, 10%, and 9%, respectively, compared to the controls. The number of spermatid heads per testis and epididymal sperm motility of male rats in the 12,500 ppm group were significantly less than those of the controls. The numbers of cycling female rats and females with regular estrous cycles were decreased in the 6,250 and 12,500 ppm groups. Exposed groups of females had significantly fewer estrous cycles than did the controls. Estrous cycle length increased with increasing exposure concentration; female rats in the 6,250 and 12,500 ppm groups had significantly longer cycles and spent more time in diestrus and less time in proestrus, estrus, and metestrus than did the controls. Female mice in the 12,500 ppm group had a significantly longer estrous cycle than did the controls. The incidences of hyperkeratosis of the forestomach epithelium were significantly increased in male and female rats in all exposed groups and in 12,500 ppm female mice. The incidences of hyperplasia of the forestomach epithelium were significantly increased in male and female rats exposed to 3,125 ppm or greater, male mice exposed to 12,500 ppm, and female mice exposed to 6,250 or 12,500 ppm. The severities of the forestomach lesions were minimal to moderate in male rats and minimal to mild in female rats and in mice. All male rats exposed to 6,250 or 12,500 ppm had minimal cytoplasmic alteration in the liver. The absorption, distribution, metabolism, and excretion of p-tert-butylcatechol following intravenous injection, gavage dosing, or dermal application were determined in male F344/N rats and B6C3F1 mice. The absorption of [(14)C]-p-tert-butylcatechol following gavage dosing or dermal application was high. The percent absorption following dermal application increased with increasing dose. Peak concentrations of [(14)C]-p-tert-butylcatechol equivalents in plasma were reached 1 hour after gavage dosing (200 mg/kg) and 2 hours after dermal application (60 mg/kg); no parent compound was detected in the plasma extracts. Regardless of route of administration, p-tert-butylcatechol derived radioactivity was readily excreted in the urine and was markedly nonpersistent in the tissues. p-tert- Butylcatechol was excreted as p-tert-butylcatechol sulfate and other polar metabolites that included predominately sulfate conjugates; it was not excreted as the parent compound. One metabolite was determined to be an O-methyl- ON-sulfate of p-tert-butylcatechol. p-tert-Butylcatechol (10 to 1,000 microg/plate) was not mutagenic in any of several strains of S. typhimurium with or without rat or hamster liver S9. Bone marrow micronucleus tests in which 125 to 500 mg/kg p-tert-butylcatechol was administered three times by intraperitoneal injection to male rats gave negative results. No increases in the frequencies of micronucleated normochromatic erythrocytes were observed in the peripheral blood of male or female mice administered p-tert-butylcatechol in feed for 14 weeks. No significant alteration in the percentage of polychromatic erythrocytes in mouse bone marrow was observed. In summary, the primary toxicity of p-tert-butylcatechol was to the forestomach of rats and mice. In the 14-week study in rats, forestomach toxicity was observed at all exposure concentrations, and the no-observed-adverse-effect level (NOAEL) was not reached for this effect. In the 14-week study in mice, the NOAEL for forestomach toxicity was 1,562 ppm.</p>","PeriodicalId":23116,"journal":{"name":"Toxicity report series","volume":" 70","pages":"5-51"},"PeriodicalIF":0.0000,"publicationDate":"2002-11-01","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

[molecular structure: see text] p-tert-Butylcatechol is used as an antioxidant, stabilizer, and polymerization inhibitor for styrene, butadiene, neoprene, and other olefins and reactive monomers. p-tert-Butylcatechol was nominated by the National Cancer Institute and the U.S. Food and Drug Administration for testing based on reports of its increasing levels of production and use and to compare the toxicity of p-tert-butylcatechol with that of similar antioxidants, butylated hydroxyanisole and butylated hydroxytoluene, which are added to food. Male and female F344/N rats and B6C3F1 mice were exposed to p-tert-butylcatechol (greater than 99% pure) in feed for 15 days or 14 weeks. Genetic toxicology studies were conducted in Salmonella typhimurium, rat bone marrow cells, and mouse peripheral blood erythrocytes. In the 15-day studies, groups of five male and five female rats and mice were fed diets containing 0, 3,125, 6,250, 12,500, 25,000, or 50,000 ppm p-tert-butylcatechol (equivalent to average daily doses of approximately 290 to 2,470 mg p-tert-butylcatechol/kg body weight to rats and 590 to 8,200 mg/kg to mice). All animals in the 50,000 ppm groups were killed moribund on day 8 (rats) or by day 7 (mice). Mean body weights of all groups of rats exposed to 6,250 ppm or greater were significantly less than those of the controls. Mean body weights of male mice exposed to 12,500 or 25,000 ppm and of 25,000 ppm female mice were significantly less than those of the controls. Female rats, male and female mice in the 25,000 ppm groups, and 12,500 ppm male mice lost weight during the studies. Feed consumption by exposed rats generally decreased with increasing exposure concentration; feed consumption by exposed mice was similar to that by the controls. Thymus weights of 25,000 ppm rats and mice were significantly less than those of the controls. Gross findings noted at necropsy included thin carcasses for three male and all female rats in the 12,500 ppm groups and all male and female rats and mice in the 25,000 and 50,000 ppm groups. No exposure-related lesions were observed microscopically. In the 14-week studies, groups of 10 male and 10 female rats and mice were fed diets containing 0, 781, 1,562, 3,125, 6,250, or 12,500 ppm p-tert-butylcatechol (equivalent to average daily doses of approximately 70 to 1,030 mg/kg to rats and 135 to 2,815 mg/kg to mice). All animals survived to the end of the studies. Mean body weights of male rats exposed to 1,562 ppm or greater, female rats exposed to 3,125 ppm or greater, male mice exposed to 12,500 ppm, and female mice exposed to 6,250 or 12,500 ppm were significantly less than those of the controls. Feed consumption by male and female rats in the 6,250 and 12,500 ppm groups at week 1 and the 12,500 ppm groups at week 14 was less than that by the controls; feed consumption by exposed and control mice was similar. An erythrocytosis, indicated by increased hematocrit values, hemoglobin concentrations, and erythrocyte counts, was observed in 6,250 and 12,500 ppm rats on day 4 and in 12,500 ppm rats on day 22. At these time points, a transient hepatic effect was demonstrated by increases in alanine aminotransferase activities and bile salt concentrations in exposed rats. In 12,500 ppm male rats, absolute left cauda epididymis, epididymis, and testis weights were decreased by 15%, 10%, and 9%, respectively, compared to the controls. The number of spermatid heads per testis and epididymal sperm motility of male rats in the 12,500 ppm group were significantly less than those of the controls. The numbers of cycling female rats and females with regular estrous cycles were decreased in the 6,250 and 12,500 ppm groups. Exposed groups of females had significantly fewer estrous cycles than did the controls. Estrous cycle length increased with increasing exposure concentration; female rats in the 6,250 and 12,500 ppm groups had significantly longer cycles and spent more time in diestrus and less time in proestrus, estrus, and metestrus than did the controls. Female mice in the 12,500 ppm group had a significantly longer estrous cycle than did the controls. The incidences of hyperkeratosis of the forestomach epithelium were significantly increased in male and female rats in all exposed groups and in 12,500 ppm female mice. The incidences of hyperplasia of the forestomach epithelium were significantly increased in male and female rats exposed to 3,125 ppm or greater, male mice exposed to 12,500 ppm, and female mice exposed to 6,250 or 12,500 ppm. The severities of the forestomach lesions were minimal to moderate in male rats and minimal to mild in female rats and in mice. All male rats exposed to 6,250 or 12,500 ppm had minimal cytoplasmic alteration in the liver. The absorption, distribution, metabolism, and excretion of p-tert-butylcatechol following intravenous injection, gavage dosing, or dermal application were determined in male F344/N rats and B6C3F1 mice. The absorption of [(14)C]-p-tert-butylcatechol following gavage dosing or dermal application was high. The percent absorption following dermal application increased with increasing dose. Peak concentrations of [(14)C]-p-tert-butylcatechol equivalents in plasma were reached 1 hour after gavage dosing (200 mg/kg) and 2 hours after dermal application (60 mg/kg); no parent compound was detected in the plasma extracts. Regardless of route of administration, p-tert-butylcatechol derived radioactivity was readily excreted in the urine and was markedly nonpersistent in the tissues. p-tert- Butylcatechol was excreted as p-tert-butylcatechol sulfate and other polar metabolites that included predominately sulfate conjugates; it was not excreted as the parent compound. One metabolite was determined to be an O-methyl- ON-sulfate of p-tert-butylcatechol. p-tert-Butylcatechol (10 to 1,000 microg/plate) was not mutagenic in any of several strains of S. typhimurium with or without rat or hamster liver S9. Bone marrow micronucleus tests in which 125 to 500 mg/kg p-tert-butylcatechol was administered three times by intraperitoneal injection to male rats gave negative results. No increases in the frequencies of micronucleated normochromatic erythrocytes were observed in the peripheral blood of male or female mice administered p-tert-butylcatechol in feed for 14 weeks. No significant alteration in the percentage of polychromatic erythrocytes in mouse bone marrow was observed. In summary, the primary toxicity of p-tert-butylcatechol was to the forestomach of rats and mice. In the 14-week study in rats, forestomach toxicity was observed at all exposure concentrations, and the no-observed-adverse-effect level (NOAEL) was not reached for this effect. In the 14-week study in mice, the NOAEL for forestomach toxicity was 1,562 ppm.

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国家毒理学规划关于饲料中对叔丁基儿茶酚对F344/N大鼠和B6C3F1小鼠毒性研究的技术报告(CAS No. 98-29-3)。
对叔丁基儿茶酚用作苯乙烯、丁二烯、氯丁烯和其他烯烃和反应性单体的抗氧化剂、稳定剂和聚合抑制剂。对叔丁基儿茶酚是由美国国家癌症研究所和美国食品和药物管理局根据其不断增加的生产和使用水平的报告提名进行测试的,并将对叔丁基儿茶酚的毒性与添加到食品中的类似抗氧化剂,丁基羟基茴香醚和丁基羟基甲苯的毒性进行比较。雄性和雌性F344/N大鼠和B6C3F1小鼠分别暴露于饲料中对叔丁基儿茶酚(纯度大于99%)15天或14周。对鼠伤寒沙门菌、大鼠骨髓细胞和小鼠外周血红细胞进行了遗传毒理学研究。在为期15天的研究中,每组5只雄性和5只雌性大鼠和小鼠被喂食含有0、3,125、6,250、12,500、25,000或50,000 ppm对叔丁基儿茶酚的饮食(相当于对大鼠的平均日剂量约为290至2,470毫克/公斤体重,对小鼠的平均日剂量为590至8,200毫克/公斤)。5万ppm组的所有动物在第8天(大鼠)或第7天(小鼠)死亡。暴露于6250 ppm或更高浓度的各组大鼠的平均体重明显低于对照组。暴露于12,500或25,000 ppm的雄性小鼠和25,000 ppm的雌性小鼠的平均体重明显低于对照组。在研究中,25000 ppm浓度组的雌性大鼠、雄性和雌性小鼠以及12500 ppm浓度组的雄性小鼠体重都有所下降。暴露大鼠的饲料消耗量一般随暴露浓度的增加而降低;暴露小鼠的饲料消耗量与对照组相似。25000 ppm的大鼠和小鼠胸腺重量明显低于对照组。尸检的主要发现包括:12500 ppm浓度组中三只雄性和所有雌性大鼠的薄尸体,以及25000 ppm和50000 ppm浓度组中所有雄性和雌性大鼠和小鼠的薄尸体。显微镜下未观察到与暴露相关的病变。在为期14周的研究中,每组10只雄性和10只雌性大鼠和小鼠被喂食含有0、781、1562、3125、6250或12500 ppm对叔丁基儿茶酚的饮食(相当于大鼠的平均日剂量约为70至1030毫克/公斤,小鼠为135至2815毫克/公斤)。所有的动物都活到了研究结束。暴露于1562 ppm或更高浓度的雄性大鼠、暴露于3125 ppm或更高浓度的雌性大鼠、暴露于12500 ppm的雄性小鼠和暴露于6250或12500 ppm的雌性小鼠的平均体重明显低于对照组。6250 ppm组和12500 ppm组第1周和12500 ppm组第14周雄性和雌性大鼠的饲料消耗量低于对照组;暴露小鼠和对照组的饲料消耗量相似。6250 ppm和12500 ppm的大鼠在第4天和12500 ppm的大鼠在第22天观察到红细胞增多,表明红细胞压积值、血红蛋白浓度和红细胞计数增加。在这些时间点,暴露的大鼠的丙氨酸转氨酶活性和胆盐浓度的增加证明了短暂的肝脏效应。在12,500 ppm的雄性大鼠中,与对照组相比,左侧附睾尾、附睾和睾丸的绝对重量分别减少了15%、10%和9%。12500 ppm组雄性大鼠每睾丸精细胞头数和附睾精子活力显著低于对照组。在6250 ppm和12500 ppm组中,循环雌性大鼠和有规律发情周期的雌性大鼠数量减少。暴露组的雌性发情周期明显少于对照组。发情周期长度随暴露浓度的增加而增加;与对照组相比,6250 PPM和12500 PPM组的雌性大鼠的月经周期明显更长,发情时间更长,而发情前、发情和孕中期的时间更短。12500 ppm浓度组的雌鼠的发情周期明显长于对照组。在所有暴露组中,雄性和雌性大鼠以及12,500 ppm的雌性小鼠中,前胃上皮角化过度的发生率显著增加。在暴露于3,125 ppm或更高浓度的雄性和雌性大鼠、暴露于12,500 ppm的雄性小鼠和暴露于6,250或12,500 ppm的雌性小鼠中,前胃上皮增生的发生率显著增加。雄性大鼠的前胃损伤程度为轻至中度,雌性大鼠和小鼠的前胃损伤程度为轻至轻度。所有暴露于6250 ppm或12500 ppm的雄性大鼠的肝脏细胞质变化最小。测定雄性F344/N大鼠和B6C3F1小鼠静脉注射、灌胃、皮肤给药对叔丁基儿茶酚的吸收、分布、代谢和排泄情况。 灌胃或皮肤给药后[(14)C]-对叔丁基儿茶酚吸收率高。皮肤应用后的吸收率随剂量增加而增加。灌胃给药后1小时(200 mg/kg)和皮肤给药后2小时(60 mg/kg)血浆中[(14)C]-对叔丁基儿茶酚当量浓度达到峰值;血浆提取物中未检测到母体化合物。无论何种给药途径,对叔丁基儿茶酚衍生的放射性都很容易从尿液中排出,并且在组织中明显不持久。对叔丁基儿茶酚以硫酸对叔丁基儿茶酚和其他极性代谢物的形式排出体外,这些极性代谢物主要包括硫酸盐偶联物;它不作为母体化合物排出体外。一种代谢物被确定为对叔丁基儿茶酚的o -甲基- on硫酸盐。对叔丁基儿茶酚(10 ~ 1000微克/板)对鼠伤寒沙门氏菌(含或不含大鼠或仓鼠肝脏S9)均无致突变性。雄性大鼠腹腔注射对叔丁基儿茶酚125 ~ 500 mg/kg三次骨髓微核试验均为阴性。饲喂对叔丁基儿茶酚14周后,雌雄小鼠外周血微核正染红细胞的频率均未见增加。小鼠骨髓中多染红细胞百分比未见明显变化。综上所述,对叔丁基儿茶酚的主要毒性是对大鼠和小鼠的前胃。在对大鼠进行的为期14周的研究中,在所有暴露浓度下均观察到前胃毒性,且未达到无观察到的不良反应水平(NOAEL)。在为期14周的小鼠研究中,前胃毒性的NOAEL为1562 ppm。
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