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低水平砷会促进小鼠体内进行性炎症性血管生成和肝脏血管重塑。

Low level arsenic promotes progressive inflammatory angiogenesis and liver blood vessel remodeling in mice.

作者信息

Straub Adam C, Stolz Donna B, Vin Harina, Ross Mark A, Soucy Nicole V, Klei Linda R, Barchowsky Aaron

机构信息

Department of Environmental and Occupational Health, University of Pittsburgh Graduate School of Public Health, PA 15219, USA.

出版信息

Toxicol Appl Pharmacol. 2007 Aug 1;222(3):327-36. doi: 10.1016/j.taap.2006.10.011. Epub 2006 Oct 24.

Abstract

The vascular effects of arsenic in drinking water are global health concerns contributing to human disease worldwide. Arsenic targets the endothelial cells lining blood vessels, and endothelial cell activation or dysfunction may underlie the pathogenesis of both arsenic-induced vascular diseases and arsenic-enhanced tumorigenesis. The purpose of the current studies was to demonstrate that exposing mice to drinking water containing environmentally relevant levels of arsenic promoted endothelial cell dysfunction and pathologic vascular remodeling. Increased angiogenesis, neovascularization, and inflammatory cell infiltration were observed in Matrigel plugs implanted in C57BL/6 mice following 5-week exposures to 5-500 ppb arsenic [Soucy, N.V., Mayka, D., Klei, L.R., Nemec, A.A., Bauer, J.A., Barchowsky, A., 2005. Neovascularization and angiogenic gene expression following chronic arsenic exposure in mice. Cardiovasc.Toxicol 5, 29-42]. Therefore, functional in vivo effects of arsenic on endothelial cell function and vessel remodeling in an endogenous vascular bed were investigated in the liver. Liver sinusoidal endothelial cells (LSEC) became progressively defenestrated and underwent capillarization to decrease vessel porosity following exposure to 250 ppb arsenic for 2 weeks. Sinusoidal expression of PECAM-1 and laminin-1 proteins, a hallmark of capillarization, was also increased by 2 weeks of exposure. LSEC caveolin-1 protein and caveolae expression were induced after 2 weeks of exposure indicating a compensatory change. Likewise, CD45/CD68-positive inflammatory cells did not accumulate in the livers until after LSEC porosity was decreased, indicating that inflammation is a consequence and not a cause of the arsenic-induced LSEC phenotype. The data demonstrate that the liver vasculature is an early target of pathogenic arsenic effects and that the mouse liver vasculature is a sensitive model for investigating vascular health effects of arsenic.

摘要

饮用水中砷的血管效应是全球健康问题,在世界各地导致人类疾病。砷作用于血管内衬的内皮细胞,内皮细胞的激活或功能障碍可能是砷诱导的血管疾病和砷增强肿瘤发生的发病机制基础。当前研究的目的是证明,让小鼠饮用含有环境相关水平砷的水会促进内皮细胞功能障碍和病理性血管重塑。在C57BL/6小鼠植入基质胶栓5周并暴露于5-500 ppb砷后,观察到血管生成、新生血管形成和炎性细胞浸润增加[Soucy, N.V., Mayka, D., Klei, L.R., Nemec, A.A., Bauer, J.A., Barchowsky, A., 2005. 小鼠慢性砷暴露后的新生血管形成和血管生成基因表达。心血管毒理学5, 29-42]。因此,在肝脏中研究了砷对内源性血管床中内皮细胞功能和血管重塑的体内功能影响。暴露于250 ppb砷2周后,肝窦内皮细胞(LSEC)逐渐失去窗孔结构并发生毛细血管化,以降低血管孔隙率。暴露于砷2周后,毛细血管化的标志PECAM-1和层粘连蛋白-1蛋白的窦状表达也增加。暴露2周后诱导LSEC小窝蛋白-1蛋白和小窝表达,表明发生了代偿性变化。同样,直到LSEC孔隙率降低后,CD45/CD68阳性炎性细胞才在肝脏中积聚,这表明炎症是砷诱导的LSEC表型变化的结果而非原因。数据表明,肝脏血管系统是砷致病作用的早期靶点,小鼠肝脏血管系统是研究砷对血管健康影响的敏感模型。

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