Irvine Lorraine, Boyer Ivan J, DeSesso John M
toXcel International, Ltd., Cheltenham, Gloucestershire, United Kingdom.
Birth Defects Res B Dev Reprod Toxicol. 2006 Feb;77(1):53-68. doi: 10.1002/bdrb.20065.
The toxicity of arsenic compounds is highly dependent on the valence and methylation state of the compound. Although there is extensive published literature on the potential developmental toxicity of inorganic arsenic compounds, little exists on organic arsenic compounds and, in particular, studies conducted in accordance with conventional regulatory guidelines appropriate for risk assessment are rare. The organic arsenic compounds, monomethylarsonic acid (MMAV) and dimethylarsinic acid (DMAV, also called cacodylic acid), are the active ingredients in pesticide products that are used mainly for weed control. MMAV and DMAV are also metabolites of inorganic arsenic formed intracellularly by most living organisms (animals, plants and bacteria). In mammals, this occurs predominantly in liver cells.
Conventional developmental toxicity studies of orally administered MMAV and DMAV in the Sprague-Dawley rat and New Zealand White rabbit were conducted in commercial contract laboratories in the late 1980 s for regulatory compliance. The results of these studies are summarized and presented to broaden the data available in the public domain.
In both species, data shows an absence of dose-related effects at organic arsenic exposures that were not maternally toxic. MMAV doses of 0, 10, 100, and 500 mg/kg/day (rat) and 0, 1, 3, 7, and 12 mg/kg/day (rabbit) and DMAV doses of 0, 4, 12, and 36 mg/kg/day (rat) and 0, 3, 12, and 48 mg/kg/day (rabbit) were administered by oral gavage daily during organogenesis (Gestation Day [GD] 6-15, rat; GD 7-19, rabbit) and the litters examined at maternal sacrifice (GD 20, rat; GD 29, rabbit). After treatment with MMAV, maternal and fetal toxicity were observed at the highest doses of 500 mg/kg/day (rat) and 12 mg/kg/day (rabbit), but no treatment-related developmental toxicity at the lower doses, even in the presence of minimal maternal toxicity in the rat at 100 mg/kg/d. There was no evidence of teratogenicity associated with MMAV treatment. With DMAV, maternal and developmental toxicity were observed in the rat at 36 mg/kg/day, with a higher than spontaneous incidence of fetuses with diaphragmatic hernia. In the rabbit at 48 mg/kg/day, there was marked maternal toxicity, culminating for most females in abortion and with no surviving fetuses for evaluation. There was no treatment-related maternal or developmental toxicity in the rat or rabbit at 12 mg/kg/day. Based on pregnancy outcome, the developmental toxicity no observed adverse effect level (NOAEL) for orally administered MMAV were 100 and 7 mg/kg/day in the rat and rabbit, respectively, and for DMAV were 12 mg/kg/day in both species.
Margins of exposure estimated based on conservative estimates of daily intakes of arsenic in all of its forms indicate that exposure to MMAV or DMAV at environmentally relevant exposure levels, by the oral route (the environmentally relevant route of exposure) is unlikely to pose a risk to pregnant women and their offspring.
砷化合物的毒性高度依赖于化合物的化合价和甲基化状态。尽管关于无机砷化合物潜在发育毒性的已发表文献很多,但关于有机砷化合物的文献很少,特别是按照适用于风险评估的传统监管指南进行的研究很罕见。有机砷化合物一甲基胂酸(MMAV)和二甲基胂酸(DMAV,也称为卡可基酸)是主要用于除草的农药产品中的活性成分。MMAV和DMAV也是大多数生物(动物、植物和细菌)在细胞内形成的无机砷的代谢产物。在哺乳动物中,这主要发生在肝细胞中。
20世纪80年代后期,在商业合同实验室对Sprague-Dawley大鼠和新西兰白兔口服MMAV和DMAV进行了常规发育毒性研究,以符合监管要求。总结并呈现这些研究结果,以拓宽公共领域可用的数据。
在两个物种中,数据显示在未产生母体毒性的有机砷暴露水平下,不存在剂量相关效应。在器官形成期(大鼠妊娠第6 - 15天;兔妊娠第7 - 19天),通过灌胃每日给予大鼠MMAV剂量为0、10、100和500 mg/kg/天,兔为0、1、3、7和12 mg/kg/天;给予大鼠DMAV剂量为0、4、12和36 mg/kg/天,兔为0、3、12和48 mg/kg/天,并在母体处死时(大鼠妊娠第20天;兔妊娠第29天)检查窝仔。用MMAV处理后,在最高剂量500 mg/kg/天(大鼠)和12 mg/kg/天(兔)时观察到母体和胎儿毒性,但在较低剂量下未观察到与处理相关的发育毒性,即使在大鼠100 mg/kg/d存在最小母体毒性的情况下。没有证据表明MMAV处理与致畸性有关。对于DMAV,在大鼠36 mg/kg/天观察到母体和发育毒性,膈疝胎儿的发生率高于自发发生率。在兔48 mg/kg/天,有明显的母体毒性,大多数雌性最终流产,没有存活胎儿可供评估。在大鼠和兔12 mg/kg/天未观察到与处理相关的母体或发育毒性。根据妊娠结局,口服MMAV的发育毒性未观察到有害作用水平(NOAEL)在大鼠和兔中分别为100和7 mg/kg/天,对于DMAV在两个物种中均为12 mg/kg/天。
基于对所有形式砷的每日摄入量的保守估计得出的暴露余量表明,通过口服途径(环境相关暴露途径)在环境相关暴露水平下接触MMAV或DMAV不太可能对孕妇及其后代构成风险。
