School of Chinese Medicine, College of Chinese Medicine, China Medical University, Taichung, Taiwan.
Kaohsiung J Med Sci. 2011 Sep;27(9):402-10. doi: 10.1016/j.kjms.2011.05.008. Epub 2011 Jul 6.
Arsenic is a naturally occurring toxic metalloid of global concern. Many studies have indicated a dose-response relationship between accumulative arsenic exposure and the prevalence of diabetes mellitus (DM) in arseniasis-endemic areas in Taiwan and Bangladesh, where arsenic exposure occurs through drinking water. Epidemiological researches have suggested that the characteristics of arsenic-induced DM observed in arseniasis-endemic areas in Taiwan and Mexico are similar to those of non-insulin-dependent DM (Type 2 DM). These studies analyzed the association between high and chronic exposure to inorganic arsenic in drinking water and the development of DM, but the effect of exposure to low to moderate levels of inorganic arsenic on the risk of DM is unclear. Navas-Acien et al. recently proposed that a positive association existed between total urine arsenic and the prevalence of Type 2 DM in people exposed to low to moderate levels of arsenic. However, the diabetogenic role played by arsenic is still debated upon. An increase in the prevalence of DM has been observed among residents of highly arsenic-contaminated areas, whereas the findings from community-based and occupational studies in low-arsenic-exposure areas have been inconsistent. Recently, a population-based cross-sectional study showed that the current findings did not support an association between arsenic exposure from drinking water at levels less than 300 μg/L and a significantly increased risk of DM. Moreover, although the precise mechanisms for the arsenic-induced diabetogenic effect are still largely undefined, recent in vitro experimental studies indicated that inorganic arsenic or its metabolites impair insulin-dependent glucose uptake or glucose-stimulated insulin secretion. Nevertheless, the dose, the form of arsenic used, and the experimental duration in the in vivo studies varied greatly, leading to conflicting results and ambiguous interpretation of these data with respect to human exposure to arsenic in the environment. Moreover, the experimental studies were limited to the use of arsenic concentrations much higher than those relevant to human exposure. Further prospective epidemiological studies might help to clarify this controversy. The issues about environmental exposure assessment and appropriate biomarkers should also be considered. Here, we focus on the review of mechanism studies and discuss the currently available evidence and conditions for the association between environmental arsenic exposure and the development of DM.
砷是一种具有全球危害性的天然有毒类金属元素。许多研究表明,在台湾和孟加拉的砷污染地区,饮用水暴露导致的累积砷暴露与糖尿病(DM)的流行之间存在剂量反应关系。流行病学研究表明,在台湾和墨西哥砷污染地区观察到的砷诱导的 DM 特征与非胰岛素依赖型 DM(2 型 DM)相似。这些研究分析了饮用水中无机砷的高浓度和慢性暴露与 DM 发展之间的关系,但低至中等水平的无机砷暴露对 DM 风险的影响尚不清楚。Navas-Acien 等人最近提出,在暴露于低至中等水平砷的人群中,总尿砷与 2 型 DM 的流行之间存在正相关。然而,砷的致糖尿病作用仍存在争议。在高砷污染地区的居民中,DM 的患病率有所增加,而在低砷暴露地区进行的社区和职业研究的结果并不一致。最近,一项基于人群的横断面研究表明,目前的研究结果不支持饮用水中砷暴露水平低于 300μg/L 与 DM 风险显著增加之间存在关联。此外,尽管砷诱导致糖尿病作用的确切机制在很大程度上仍未确定,但最近的体外实验研究表明,无机砷或其代谢物会损害胰岛素依赖性葡萄糖摄取或葡萄糖刺激的胰岛素分泌。然而,在体内研究中,剂量、使用的砷形式和实验持续时间变化很大,导致这些数据在人类环境中暴露于砷方面存在相互矛盾的结果和模糊的解释。此外,实验研究仅限于使用远高于人类暴露相关浓度的砷。进一步的前瞻性流行病学研究可能有助于澄清这一争议。还应考虑环境暴露评估和适当生物标志物的问题。在这里,我们重点讨论机制研究的综述,并讨论目前关于环境砷暴露与 DM 发展之间关联的可用证据和条件。
