The role of inflammation, oxidative stress, and proliferation in silica-induced lung disease: a species comparison.

J. Carter, K. Driscoll
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引用次数: 50

Abstract

To gain a better understanding of the complex mechanisms at work in silica-induced lung disease, we conducted studies comparing the rat and hamster response to silica (alpha-quartz). It has been hypothesized that the rat lung response to low-solubility particles, such as silica, may be due to the recruitment, activation, and subsequent release of damaging mediators by the inflammatory cells. Studies have suggested that hamsters and mice may be less sensitive to the inflammatory and tumorigenic effects of these low-solubility particles than rats. Differences in defense mechanisms, such as antioxidant levels or repair mechanisms, may play a key role in how different species respond to these particles. To investigate species differences in silica-induced lung response, this study compared the effects of alpha-quartz on rats and hamsters. Briefly, rats and hamsters were intratracheally instilled with saline or 0.2, 2, or 20 mg of alpha-quartz. Seven days after exposure, bronchoalveolar lavage (BAL) was performed, and the BAL fluid was evaluated for cell number, type, and LDH. In addition, lung tissue was evaluated for the expression of various pro- and anti-inflammatory mediators. Both species showed dose-related increases in neutrophils and LDH after alpha-quartz exposure; however, the changes were significantly greater in the rat, and rats showed greater expression of several pro-inflammatory mediators and lower levels of the anti-inflammatory mediators. These differences in pro- and anti-inflammatory mediators may contribute to the apparent species differences in tumor response. A basic understanding of the different responses of various species to these inhaled toxins will contribute to our understanding of the mechanisms involved in human disease.
炎症、氧化应激和增殖在二氧化硅诱导的肺部疾病中的作用:一个物种比较。
为了更好地了解二氧化硅诱发肺部疾病的复杂机制,我们进行了研究,比较了大鼠和仓鼠对二氧化硅(α -石英)的反应。据推测,大鼠肺对低溶解度颗粒(如二氧化硅)的反应可能是由于炎症细胞募集、激活和随后释放损伤介质所致。研究表明,与大鼠相比,仓鼠和小鼠对这些低溶解度颗粒的炎症和致瘤作用可能不那么敏感。防御机制的差异,如抗氧化水平或修复机制,可能在不同物种对这些颗粒的反应中发挥关键作用。为了研究硅致肺反应的物种差异,本研究比较了α -石英对大鼠和仓鼠的影响。简单地说,大鼠和仓鼠气管内灌注生理盐水或0.2、2或20毫克的α -石英。暴露后7天,进行支气管肺泡灌洗(BAL),并评估BAL液的细胞数量、类型和LDH。此外,评估肺组织中各种促炎和抗炎介质的表达。α -石英暴露后,这两个物种的中性粒细胞和LDH均显示出剂量相关的增加;然而,大鼠的变化明显更大,大鼠表现出几种促炎介质的表达增加,而抗炎介质的表达水平较低。这些促炎介质和抗炎介质的差异可能导致肿瘤反应的明显物种差异。对不同物种对这些吸入毒素的不同反应的基本了解将有助于我们了解人类疾病的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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