Choi Jae Young, Son Eun Jin, Kim Jung Lim, Lee Joo-Hyeung, Park Hun Yi, Kim Sung Huhn, Song Mee Hyun, Yoon Joo-Heon
Department of Otorhinolaryngology, Yonsei University College of Medicine, 134 Shinchon-dong, Seodaemun-gu Seoul, 120-752, Republic of Korea.
Hear Res. 2006 Jan;211(1-2):26-32. doi: 10.1016/j.heares.2005.08.007. Epub 2005 Oct 12.
Ion channels, such as the epithelial sodium channel (ENaC), are essential for maintaining a fluid-free middle ear cavity by controlling periciliary fluid. Deviations from the normal volume or compositions of periciliary fluid are probably responsible for otitis media with effusion. To elucidate the physiologic roles of the ENaC and cystic fibrosis transmembrane conductance regulator (CFTR) in the middle ear mucosa, we compared the electrophysiological activity and protein expressions of ENaC and CFTR in normal human middle ear epithelial (NHMEE) cells with those in normal human nasal epithelial (NHNE) cells. We also evaluated the role of ENaC and CFTR in fluid transport by NHMEE cells. Short-circuit current (Isc) was measured in cell monolayers by modified Ussing chambers. Immunoblotting was performed for ENaC and CFTR. In addition, transepithelial fluid transport was measured after loading 100 microl of fluid onto the luminal cell surface. The amiloride-sensitive Isc in NHMEE cells was much larger than in NHNE cells, whereas the forskolin-induced Isc, presumably mediated by CFTR, was significantly smaller in NHMEE cells. ENaC subunits alpha, beta, and gamma were all detected in NHMEE cells, and their expressions were stronger than those in NHNE cells. In comparison, CFTR was also detected in the middle ear mucosa, but at a lower expression level than in NHNE cells. NHMEE cells showed more amiloride-sensitive fluid absorption than NHNE cells. In contrast, fluid absorption was less sensitive to forskolin/IBMX in NHMEE cells than in NHNE cells. The ATP induced Cl- efflux and the amplitude of ATP-induced current in NHMEE cells was much larger than in NHNE cells. In the present study, we have demonstrated an enhanced amiloride-sensitive Isc and fluid absorption in NHMEE cells, where the role of CFTR is limited. Our data also suggest that the ATP-induced Cl- channel could be an alternative Cl- channel to CFTR in NHMEE cells.
离子通道,如上皮钠通道(ENaC),对于通过控制纤毛周液来维持无液的中耳腔至关重要。纤毛周液的正常体积或成分出现偏差可能是导致分泌性中耳炎的原因。为了阐明ENaC和囊性纤维化跨膜传导调节因子(CFTR)在中耳黏膜中的生理作用,我们比较了正常人类中耳上皮(NHMEE)细胞与正常人类鼻上皮(NHNE)细胞中ENaC和CFTR的电生理活性及蛋白表达。我们还评估了ENaC和CFTR在NHMEE细胞液体转运中的作用。通过改良的尤斯灌流小室测量细胞单层的短路电流(Isc)。对ENaC和CFTR进行免疫印迹分析。此外,在向腔面细胞表面加载100微升液体后测量跨上皮液体转运。NHMEE细胞中对阿米洛利敏感的Isc比NHNE细胞中的大得多,而佛司可林诱导的Isc(可能由CFTR介导)在NHMEE细胞中明显较小。在NHMEE细胞中检测到了ENaC亚基α、β和γ,且它们的表达比NHNE细胞中的更强。相比之下,中耳黏膜中也检测到了CFTR,但表达水平低于NHNE细胞。NHMEE细胞比NHNE细胞表现出更多对阿米洛利敏感的液体吸收。相反,NHMEE细胞中的液体吸收对佛司可林/异丁基甲基黄嘌呤的敏感性低于NHNE细胞。NHMEE细胞中ATP诱导的Cl⁻外流和ATP诱导电流的幅度比NHNE细胞中的大得多。在本研究中,我们证明了NHMEE细胞中对阿米洛利敏感的Isc和液体吸收增强,其中CFTR的作用有限。我们的数据还表明,ATP诱导的Cl⁻通道可能是NHMEE细胞中CFTR的替代Cl⁻通道。
