WuXi AppTec, 1318 Wuzhong Avenue, Wuzhong District, Suzhou, 215104, China.
Arch Toxicol. 2013 Mar;87(3):517-27. doi: 10.1007/s00204-012-0939-7. Epub 2012 Sep 28.
Melamine is an important and widely used organic industrial chemical. Recently, clinical findings of renal failure and kidney stones in infants have been associated with ingestion of melamine-contaminated infant formula. To understand the toxicity and clinical outcome of melamine exposure, repeated oral dose studies in rats and monkeys were performed to characterize the subchronic toxicity of melamine. Assessment of toxicity was based on mortality, clinical signs, body weights, ophthalmic findings, clinical pathology, gross pathology, organ weights, and microscopic observations. The first rat study was intended to be a 14-day oral study followed by an 8-day recovery period. The dose levels were 140, 700, and 1,400 mg/kg/day (lowered to 1,000 mg/kg/day subsequently due to mortality). Oral administration of melamine at 700 mg/kg/day for 14 consecutive days in rats produced compound-related clinical signs (red urine), decreased body weights, and changes in clinical pathology (increased serum urea nitrogen and creatinine) and anatomical pathology (renal tubular cell debris, crystal deposition, and hyperactive regeneration of renal tubular epithelium). The kidney was identified as the target organ. Oral administration at 1,400 mg/kg/day (subsequently lowered to 1,000 mg/kg/day) resulted in animal death and moribundity. There were no treatment-related findings in the 140 mg/kg/day group. There were no compound-related findings in the high-dose recovery animals. The second rat study was a 5-day oral toxicity study with genomic biomarkers assayed in the kidney tissues. At the top dose of 1,050 mg/kg/day, similar clinical and anatomical pathology findings as described above were observed. The genes measured, Kim-1, Clu, Spp1, A2m, Lcn2, Tcfrsf12a, Gpnmb, and CD44, were significantly up-regulated (fivefold to 550-fold), while Tff3 was significantly down-regulated (fivefold). These results indicated that genomic markers could sensitively diagnose melamine-induced kidney injury. A 3-month oral study with 4-week recovery in monkeys was also conducted. In this monkey study, the animals were treated with melamine at doses of 60, 200, or 700 mg/kg/day. The administration of 700 mg/kg/day melamine by nasal-gastric gavage to monkeys resulted in test article-related clinical signs including turbid and whitish urine, urine crystals, red blood cell changes, increased serum alanine aminotransferase and kidney and/or liver weights, and microscopic findings including nephrotoxicity, pericarditis, and increased hematopoiesis. Nephrotoxicity was also noted at 200 mg/kg/day. It was concluded that the kidney is the primary target organ and the NOAEL was estimated to be 140 mg/kg/day in rats following a 14-day oral administration and 60 mg/kg/day in the monkey study.
三聚氰胺是一种重要且广泛使用的有机工业化学品。最近,摄入受三聚氰胺污染的婴儿配方奶粉导致婴儿出现肾衰竭和肾结石的临床发现。为了了解三聚氰胺暴露的毒性和临床结果,对大鼠和猴子进行了重复口服剂量研究,以表征三聚氰胺的亚慢性毒性。毒性评估基于死亡率、临床症状、体重、眼科发现、临床病理学、大体病理学、器官重量和显微镜观察。第一项大鼠研究旨在进行为期 14 天的口服研究,随后进行 8 天的恢复期。剂量水平为 140、700 和 1400mg/kg/天(随后因死亡率降低至 1000mg/kg/天)。连续 14 天每天口服 700mg/kg 三聚氰胺可导致与化合物相关的临床症状(红色尿液)、体重减轻以及临床病理学(血清尿素氮和肌酐升高)和解剖病理学(肾小管细胞碎片、晶体沉积和肾小管上皮细胞过度活跃再生)变化。肾脏被确定为靶器官。每天口服 1400mg/kg/天(随后降低至 1000mg/kg/天)导致动物死亡和濒死。140mg/kg/天组无治疗相关发现。高剂量恢复期动物无化合物相关发现。第二项大鼠研究是一项为期 5 天的口服毒性研究,在肾脏组织中检测了基因组生物标志物。在 1050mg/kg/天的最高剂量下,观察到与上述描述相似的临床和解剖病理学发现。测量的基因 Kim-1、Clu、Spp1、A2m、Lcn2、Tcfrsf12a、Gpnmb 和 CD44 显著上调(五倍至 550 倍),而 Tff3 显著下调(五倍)。这些结果表明,基因组标志物可以灵敏地诊断三聚氰胺引起的肾损伤。还对猴子进行了为期 3 个月的口服研究,并进行了 4 周的恢复期。在这项猴子研究中,动物以 60、200 或 700mg/kg/天的剂量接受三聚氰胺治疗。经鼻胃灌胃给予猴子 700mg/kg/天的三聚氰胺导致与试验药物相关的临床症状,包括混浊和白色尿液、尿液晶体、红细胞变化、血清丙氨酸氨基转移酶和肾脏/肝脏重量增加以及显微镜下发现的肾毒性、心包炎和造血增加。200mg/kg/天也观察到肾毒性。结论是肾脏是主要靶器官,大鼠口服 14 天,NOAEL 估计为 140mg/kg/天,猴子研究中为 60mg/kg/天。
