Influence of dietary selenium on the disposition of arsenate in the female B6C3F{sub 1} mouse

Journal of Toxicology and Environmental Health, Part A Pub Date : 1997-06-01 DOI:10.1080/009841097160078

E. Kenyon, M. Hughes, O. Levander

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引用次数: 9

Abstract

Interactions between arsenic (As) and selenium (Se) at the metabolic level are multifaceted and complex. These interactions are of practical significance because populations in various parts of the world are simultaneously exposed to inorganic As in drinking water and Se mainly in the diet at varying levels. The primary goal of this study was to investigate whether differing dietary Se status would alter the profile of urinary metabolites or their time course for elimination after exposure to arsenate [As(V)]. Weanling female 86C3F, mice were maintained for 28 d on either a control diet of powdered rodent meal sufficient in Se (A 0.2 ppm) or Torula yeast-based (TYB) diets deficient (B, 0.02 ppm Se), sufficient (C, 0.2 ppm Se), or excessive (D, 2.0 ppm Se) in Se; mice then received by oral gavage 5 mg (As)/kg as sodium [{sup 73}As] arsenate. The time course for elimination of total arsenic and metabolites in urine was measured over a 48-h period, and total arsenic was determined in feces and tissues at 48 h. Mice on the Se excess diet excreted a significantly higher percentage of urinary As as inorganic As, with a significantly decreased ratio of organic to inorganic As compared to Se-sufficientmore » mice, suggesting that As methylation was decreased. Mice on the Se-deficient diet appeared to eliminate As(V), arsenite, and dimethylarsinic acid (DMA) in urine more slowly than Se-sufficient mice; however, further studies are required to confirm this finding. Mice on the Se-sufficient meal diet (A) excreted significantly less (by percent) arsenate-derived radioactivity in urine and more in feces compared to mice on the Se-sufficient TYB diet (C), with total elimination being similar for both groups. This indicates that mice on the meal diet absorbed significantly less As(V) than mice on the TYB diet, and this may be due to more fiber or {open_quotes}bulk{close_quotes} in the meal diet. 35 refs., 6 figs., 6 tabs.« less

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饲粮硒对雌性B6C3F{sub 1}小鼠体内砷酸盐代谢的影响

砷(As)和硒(Se)在代谢水平上的相互作用是多方面和复杂的。这些相互作用具有实际意义，因为世界各地的人口同时暴露于饮用水中的无机砷和主要来自饮食中的不同水平的硒。本研究的主要目的是调查不同饮食硒水平是否会改变暴露于砷酸盐后尿液代谢物的特征或其消除的时间过程[As(V)]。将断奶雌性86C3F小鼠分别饲喂硒含量充足(a, 0.2 ppm)的鼠粉状饲料或硒含量不足(B, 0.02 ppm)、充足(C, 0.2 ppm Se)或过量(d, 2.0 ppm Se)的托尔拉酵母(TYB)饲料28 d;然后给小鼠灌胃5 mg (As)/kg砷酸钠。在48小时内测量尿液中总砷和代谢物的消除时间，并在48小时内测定粪便和组织中的总砷。与硒充足小鼠相比，硒过量小鼠排出的尿液中无机砷的比例显著高于有机砷，有机砷与无机砷的比例显著降低，表明砷甲基化降低。缺硒小鼠的尿中砷(V)、亚砷酸盐和二甲基硅酸(DMA)的清除速度比富硒小鼠慢;然而，需要进一步的研究来证实这一发现。与摄入足硒的TYB饮食(C)的小鼠相比，摄入足硒膳食(A)的小鼠在尿液中排出的砷酸盐衍生放射性物质显著减少(百分比)，而在粪便中排出的放射性物质则更多，两组的总消除量相似。这表明，正餐组小鼠对As(V)的吸收明显低于TYB组小鼠，这可能是由于正餐组中含有更多的纤维或体积。参35。， 6图。， 6页。«少

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Journal of Toxicology and Environmental Health, Part A

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