Shen Jun, Wanibuchi Hideki, Waalkes Michael P, Salim Elsayed I, Kinoshita Anna, Yoshida Kaoru, Endo Ginji, Fukushima Shoji
Department of Pathology, Osaka City University Medical School, 1-4-3, Asahi-machi, Osaka 545-8585, Japan.
Toxicol Appl Pharmacol. 2006 Feb 1;210(3):171-80. doi: 10.1016/j.taap.2005.04.018. Epub 2005 Jun 13.
Epidemiological studies indicated that human arsenic exposure can induce urinary bladder cancer. Methylation of inorganic arsenic can generate more reactive and toxic organic arsenical species. In this regard, it was recently reported that the methylated arsenical metabolite, dimethylarsinic acid [DMA(V)], induced urinary bladder tumors in rats. However, other methylated metabolites, like monomethylarsonic acid [MMA(V)] and trimethylarsine oxide (TMAO) were not carcinogenic to the urinary bladder. In order to compare the early effects of DMA(V), MMA(V), and TMAO on the urinary bladder transitional cell epithelium at the scanning electron microscope (SEM) level, we investigated the sub-chronic (13 weeks) toxicological effects of MMA(V) (187 ppm), DMA(V) (184 ppm), TMAO (182 ppm) given in the drinking water to male and female F344 rats with a focus on the urinary bladder in this study. Obvious pathological changes, including ropy microridges, pitting, increased separation of epithelial cells, exfoliation, and necrosis, were found in the urinary bladders of both sexes, but particularly in females receiving carcinogenic doses of DMA(V). Urine arsenical metabolic differences were found between males and females, with levels of MMA(III), a potential genotoxic form, higher in females treated with DMA(V) than in males. Thus, this study provides clear evidence that DMA(V) is more toxic to the female urinary bladder, in accord with sensitivity to carcinogenesis. Important gender-related metabolic differences including enhanced presentation of MMA(III) to the urothelial cells might possibly account for heightened sensitivity in females. However, the potential carcinogenic effects of MMA(III) need to be further elucidated.
流行病学研究表明,人体接触砷可诱发膀胱癌。无机砷的甲基化会生成更具反应性和毒性的有机砷物种。在这方面,最近有报道称,甲基化砷代谢物二甲基砷酸[DMA(V)]可诱发大鼠膀胱癌。然而,其他甲基化代谢物,如一甲基砷酸[MMA(V)]和三甲基氧化砷(TMAO)对膀胱无致癌性。为了在扫描电子显微镜(SEM)水平上比较DMA(V)、MMA(V)和TMAO对膀胱移行细胞上皮的早期影响,我们在本研究中调查了饮用水中给予雄性和雌性F344大鼠的MMA(V)(187 ppm)、DMA(V)(184 ppm)、TMAO(182 ppm)的亚慢性(13周)毒理学效应,重点是膀胱。在两性的膀胱中均发现了明显的病理变化,包括条索状微嵴、凹陷、上皮细胞分离增加、脱落和坏死,但在接受致癌剂量DMA(V)的雌性大鼠中尤为明显。发现雄性和雌性之间尿砷代谢存在差异,在用DMA(V)处理的雌性大鼠中,潜在的基因毒性形式MMA(III)的水平高于雄性。因此,本研究提供了明确的证据,表明DMA(V)对雌性膀胱毒性更大,这与对致癌作用的敏感性一致。重要的性别相关代谢差异,包括MMA(III)向尿路上皮细胞的呈现增强,可能是导致雌性敏感性增加的原因。然而,MMA(III)的潜在致癌作用需要进一步阐明。
