Mango G W, Johnston C J, Reynolds S D, Finkelstein J N, Plopper C G, Stripp B R
Department of Environmental Medicine, University of Rochester, School of Medicine and Dentistry, Rochester, New York 14642, USA.
Am J Physiol. 1998 Aug;275(2):L348-56. doi: 10.1152/ajplung.1998.275.2.L348.
Little is known about the molecular basis for differential pulmonary oxidant sensitivity observed between genetically disparate members of the same species. We have generated mice that are deficient in Clara cell secretory protein (CCSP -/-) and that exhibit an oxidant-sensitive phenotype. We characterized the kinetics and distribution of altered stress-response [interleukin-6 (IL-6) and metallothionein (MT)] and epithelial cell-specific [cytochrome P-450 2F2 (CYP2F2)] gene expression to further understand the cellular and molecular basis for altered oxidant sensitivity in 129 strain CCSP -/- mice. Increases in IL-6 and MT mRNA abundance were detected by 2 h of exposure to 1 part/million ozone and preceded reductions in Clara cell CYP2F2 mRNA expression. Despite being qualitatively similar, increases in IL-6 and MT mRNA expression were enhanced in CCSP -/- mice with respect to coexposed 129 strain wild-type mice. Increased MT mRNA expression, indicative of the stress response, localized to the airway epithelium, surrounding mesenchyme, and endothelium of blood vessels. These results demonstrate a protective role for Clara cells and their secretions and indicate potential genetic mechanisms that may influence susceptibility to oxidant stress.
关于同一物种基因不同的成员之间观察到的肺对氧化剂敏感性差异的分子基础,人们了解甚少。我们培育了缺乏克拉拉细胞分泌蛋白的小鼠(CCSP -/-),这些小鼠表现出对氧化剂敏感的表型。我们对改变的应激反应[白细胞介素-6(IL-6)和金属硫蛋白(MT)]以及上皮细胞特异性[细胞色素P-450 2F2(CYP2F2)]基因表达的动力学和分布进行了表征,以进一步了解129品系CCSP -/-小鼠中氧化剂敏感性改变的细胞和分子基础。暴露于百万分之一臭氧2小时后,检测到IL-6和MT mRNA丰度增加,且早于克拉拉细胞CYP2F2 mRNA表达的降低。尽管在性质上相似,但与共同暴露的129品系野生型小鼠相比,CCSP -/-小鼠中IL-6和MT mRNA表达的增加更为明显。表明应激反应的MT mRNA表达增加定位于气道上皮、周围间充质和血管内皮。这些结果证明了克拉拉细胞及其分泌物的保护作用,并指出了可能影响对氧化剂应激易感性的潜在遗传机制。
