囊性纤维化人类原代细胞培养物中氯离子通透性降低和钠离子通透性增加的证据。
Evidence for reduced Cl- and increased Na+ permeability in cystic fibrosis human primary cell cultures.
作者信息
Boucher R C, Cotton C U, Gatzy J T, Knowles M R, Yankaskas J R
机构信息
Department of Medicine, University of North Carolina, Chapel Hill 27514.
出版信息
J Physiol. 1988 Nov;405:77-103. doi: 10.1113/jphysiol.1988.sp017322.
Abstract
- Employing a primary cell culture system and intracellular microelectrodes, we quantitated and compared the Na+ and Cl- pathways in apical membranes of normal and cystic fibrosis (CF) human airway epithelia. 2. Like the transepithelial difference (PD) in situ, the PD of CF epithelia in culture (-27 +/- 4 mV, mean +/- S.E.M.; n = 28) exceeded the PD of normal epithelia (-10 +/- 1 mV; n = 22). The raised PD principally reflected an increase in the rate of active transport (equivalent short circuit, Ieq) for CF epithelia (61 +/- 9 microA cm-2) as compared with normal epithelia (23 +/- 3 microA cm-2). No significant differences in transepithelial resistance were detected. 3. As indicated by ion replacement studies (gluconate for Cl-), the apical membrane of normal cells exhibits an apical membrane Cl- conductance (GCl) that can be activated by isoprenaline. CF cells do not exhibit an apical membrane GCl, nor can a GCl be activated by isoprenaline. 4. CF cells exhibited a larger amiloride-sensitive Ieq and amiloride-sensitive apical membrane conductance (GNa) than normal cells. Further, the amiloride-sensitive Ieq was increased by isoprenaline in CF but not normal airway epithelia. 5. Equivalent circuit analysis yielded evidence for a more positive electromotive force (EMF) across the apical membrane and a more negative EMF across the basolateral membrane of CF cells as compared with normal cells. Baseline resistances of the apical (Ra) and basolateral (Rb) membranes did not differ for normal and CF cells. 6. Estimates of the resistance of the paracellular path to ion flow (Rs) by equivalent circuit analysis or ion substitution detected no differences in Rs between CF and normal cells. 7. We conclude that abnormalities in both cellular Cl- permeability (reduced) and Na+ permeability (increased) are characteristic of the cultured CF respiratory epithelial cell. These data suggest that a defect in the regulation of apical membrane permeabilities is a central feature of this disease.
摘要
- 我们采用原代细胞培养系统和细胞内微电极,对正常和囊性纤维化(CF)人呼吸道上皮细胞顶端膜中的Na⁺和Cl⁻通道进行了定量和比较。2. 与原位跨上皮电位差(PD)一样,培养的CF上皮细胞的PD(-27±4 mV,平均值±标准误;n = 28)超过了正常上皮细胞的PD(-10±1 mV;n = 22)。升高的PD主要反映了CF上皮细胞(61±9 μA/cm²)与正常上皮细胞(23±3 μA/cm²)相比,主动转运速率(等效短路电流,Ieq)增加。未检测到跨上皮电阻有显著差异。3. 如离子替代研究(用葡萄糖酸盐替代Cl⁻)所示,正常细胞的顶端膜表现出可被异丙肾上腺素激活的顶端膜Cl⁻电导(GCl)。CF细胞不表现出顶端膜GCl,异丙肾上腺素也不能激活GCl。4. CF细胞比正常细胞表现出更大的amiloride敏感Ieq和amiloride敏感顶端膜电导(GNa)。此外,在CF气道上皮细胞中,异丙肾上腺素可增加amiloride敏感Ieq,但在正常气道上皮细胞中则不然。5. 等效电路分析表明,与正常细胞相比,CF细胞顶端膜上的电动势(EMF)更正,基底外侧膜上的EMF更负。正常细胞和CF细胞的顶端(Ra)和基底外侧(Rb)膜的基线电阻没有差异。6. 通过等效电路分析或离子替代对细胞旁离子流电阻(Rs)的估计表明,CF细胞和正常细胞之间的Rs没有差异。7. 我们得出结论,细胞Cl⁻通透性降低和Na⁺通透性增加这两种异常是培养的CF呼吸道上皮细胞的特征。这些数据表明,顶端膜通透性调节缺陷是该疾病的核心特征。
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