Department of Biomedical Engineering, University of North Carolina, Chapel Hill, NC 27599, USA.
Toxicol In Vitro. 2011 Dec;25(8):1953-65. doi: 10.1016/j.tiv.2011.06.019. Epub 2011 Jul 4.
The pathogenesis of disease resulting from exposure to diesel exhaust particles (DEP) is often studied using cultured lung cells. Frequently, researchers expose cells to DEP by spiking a suspension of particles in liquid onto the apical surface. This is not representative of in vivo exposure, where aerosols are deposited onto cell surfaces at the air-liquid interface (ALI). Inertial impaction provides an opportunity to deliver high doses of particles with aerodynamic diameters>∼1 μm to the surface of cells in seconds in a reproducible and predictable manner. A custom device was constructed to deposit DEP aerosols onto the surface of Calu-3 and A549 cells grown at the ALI. The pro-inflammatory and toxic cellular response to exposure to the deposited DEP aerosols was measured and compared to the response of cells exposed to DEP as suspensions. Calu-3 cells showed evidence of an oxidative stress response for both exposure types, while there was strong evidence to suggest that the method of aerosol delivery was harmful to the A549 cells.
暴露于柴油机排气颗粒(DEP)导致疾病的发病机制通常使用培养的肺细胞进行研究。研究人员经常通过将颗粒悬浮液喷射到细胞的顶表面上来使细胞暴露于 DEP。这与体内暴露情况并不相同,因为在体内暴露情况下,气溶胶沉积在气液界面(ALI)上的细胞表面。惯性冲击提供了一种机会,可以在几秒钟内以可重复且可预测的方式将具有>∼1 μm 空气动力学直径的高剂量颗粒递送到细胞表面。构建了一种定制设备,将 DEP 气溶胶沉积在生长于 ALI 的 Calu-3 和 A549 细胞的表面上。测量了暴露于沉积的 DEP 气溶胶后细胞的促炎和毒性细胞反应,并与暴露于悬浮液的 DEP 的细胞反应进行了比较。两种暴露类型均使 Calu-3 细胞显示出氧化应激反应的证据,而有强有力的证据表明,气溶胶的传递方法对 A549 细胞有害。
