Robert M Reed, Saif M Borgan, Michael Eberlein, Monica Goldklang, Joshua Lewis, Michael Miller, Mohamad Navab, Bo S Kim
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After 6 months of exposure, we assessed differences in lung air space, cholesterol, lipid, and lipoprotein profiles, as well as paraoxonase activity in mice exposed to cigarette smoke extract compared to unexposed control mice.</p><p><strong>Results: </strong>Cigarette smoke exposure by the protocol used was sufficient to result in pathologic changes in lung architecture consistent with emphysema. Specifically, we observed that mice exposed to cigarette smoke had a significantly higher mean linear chord length compared to animals that were exposed to filtered air (<i>p</i><0.02). Despite this exposure, no differences in total HDL-cholesterol levels or HDL-cholesterol sub-fractions (i.e. HDL2 and HDL3 fractions) were noted between smoke-exposed and unexposed animals (<i>p</i>=1.00, 0.6, and 0.4, respectively). Notably, mean HDL-cholesterol levels were identical between groups (92.8 vs 92.8 mg/dL, <i>p</i>=1.0). 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引用次数: 0
摘要
目的:研究香烟烟雾暴露对小鼠体内对氧磷酶1活性的直接抑制作用。方法:在8周龄时,我们将10只C57/bl6小鼠随机分配到由过滤空气或香烟烟雾组成的环境中6个月。烟暴露(每天7小时,每周5天)使用TE-10型吸烟机进行标准化,并调整以保持恒定的侧流和主流烟雾。暴露于香烟提取物6个月后,我们评估了暴露于香烟提取物的小鼠与未暴露于香烟提取物的对照小鼠在肺空间、胆固醇、脂质和脂蛋白谱以及对氧磷酶活性方面的差异。结果:香烟烟雾暴露足以导致肺结构的病理改变,与肺气肿一致。具体来说,我们观察到暴露于香烟烟雾中的小鼠的平均线性弦长明显高于暴露于过滤空气中的动物(pp分别=1.00,0.6和0.4)。值得注意的是,两组之间的平均hdl -胆固醇水平相同(92.8 vs 92.8 mg/dL, p=1.0)。然而,与未暴露于香烟烟雾的小鼠相比,暴露于香烟烟雾的小鼠对氧磷酶活性明显降低(102,SD=9.6 vs 144, SD=4.1单位活性,p=0.002)。结论:在该小鼠模型中,烟草烟雾暴露直接抑制对氧磷酶活性,而不是通过降低hdl -胆固醇水平间接抑制对氧磷酶活性,而不依赖于hdl -胆固醇水平。
Tobacco Smoke Exposure Reduces Paraoxonase Activity in a Murine Model.
Aim: To demonstrate a direct inhibitory effect of cigarette smoke exposure on paraoxonase 1 activity in a murine in vivo model.
Methods: At 8 weeks old, we randomized 10 C57/bl6 mice to an environment consisting of either filtered air or cigarette smoke for 6 months. Smoke exposure (7 hours per day, 5 days per week) was standardized using a model TE-10 smoking machine and adjusted to maintain constant sidestream and mainstream smoke. After 6 months of exposure, we assessed differences in lung air space, cholesterol, lipid, and lipoprotein profiles, as well as paraoxonase activity in mice exposed to cigarette smoke extract compared to unexposed control mice.
Results: Cigarette smoke exposure by the protocol used was sufficient to result in pathologic changes in lung architecture consistent with emphysema. Specifically, we observed that mice exposed to cigarette smoke had a significantly higher mean linear chord length compared to animals that were exposed to filtered air (p<0.02). Despite this exposure, no differences in total HDL-cholesterol levels or HDL-cholesterol sub-fractions (i.e. HDL2 and HDL3 fractions) were noted between smoke-exposed and unexposed animals (p=1.00, 0.6, and 0.4, respectively). Notably, mean HDL-cholesterol levels were identical between groups (92.8 vs 92.8 mg/dL, p=1.0). Paraoxonase activity, however, was markedly reduced in mice exposed to cigarette smoke compared to those who were not exposed (102, SD=9.6 vs 144, SD=4.1 units of activity, respectively, p=0.002).
Conclusion: In this murine model, tobacco smoke exposure directly inhibits paraoxonase activity independently of HDL-cholesterol levels rather than indirectly via reduction in HDL-cholesterol levels.
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