Xue Rong Sun, Li Xin Chen, Jian Wen Mao, Lin Yan Zhu, Si Huai Nie, Ping Zhong, Pan Li, Li Wei Wang
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引用次数: 0
摘要
为了研究原代培养的胎人鼻咽上皮细胞的调节性体积减少(RVD)及其机制,采用活细胞成像技术检测低渗溶液暴露后的体积变化,并通过Cl-通道阻塞来阐明Cl-通道在RVD中的作用。结果表明,细胞外低渗处理使细胞肿胀,并诱发RVD。47%低渗溶液(160 mOsmol/L)可使细胞膨胀144.7%,20 min内细胞体积恢复38.7%,RVD与细胞外渗透压呈负相关(r=-0.99, P
[Regulatory volume decrease and its mechanism in nasopharyngeal epithelial cells].
To investigate regulatory volume decrease (RVD) and its mechanism in primary-culturing fetal human nasopharyngeal epithelial cells, living cell imaging technique was employed to detect the volume changes following exposure to hypotonic solution, and blockage of Cl- channels was used to clarify the role of Cl- channels in RVD. The results showed that extracellular hypotonic treatment swelled the cells and induced RVD. 47% hypotonic solution (160 mOsmol/L) swelled the cell by 144.7% and induced 38.7% recovery of cell volume within 20 min. RVD was correlated negatively to the extracellular osmolarity (r=-0.99, P<0.05) and positively to the swelling volume(r=0.99, P<0.05) in "S" shape, respectively. Chloride channel blockers, tamoxfen (20 micromol/ L), ATP (10 mmol/L) and NPPB (100 micromol/L), inhibited RVD by 100%, 76.3% and 62.7% (P< 0.01), respectively. The results indicated that primary-culturing fetal human nasopharyngeal epithelial cells are capable of RVD. Cl- efflux through Cl- channels is the key mechanism of RVD.
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