Sandle G I, Wills N K, Alles W, Binder H J
Gut. 1986 Sep;27(9):999-1005. doi: 10.1136/gut.27.9.999.
The electrical properties of epithelial cell membranes in human descending and ascending colon were studied using microelectrodes and the Na channel blocker amiloride. Under control (pre-amiloride) conditions, the transepithelial electrical measurements in the two colonic segments were similar. The mucosal addition of 0.1 mM amiloride to descending colon totally abolished the transepithelial voltage (Vt) and short-circuit current (Isc), and significantly increased the total tissue resistance (Rt) by 19% (p less than 0.005). Intracellular recordings in descending colon obtained with microelectrodes revealed that the transepithelial effects of amiloride reflected hyperpolarization of the apical membrane and a significant increase in apical membrane resistance, changes which were consistent with amiloride-blockade of apical Na channels and complete inhibition of electrogenic Na transport. An appreciable amiloride-insensitive conductance was also present in the apical membrane of the descending colon. In contrast, the mucosal addition of 0.1 mM amiloride to ascending colon decreased Vt by only 30% (p less than 0.02) and Isc by 43% (p less than 0.05), but had no significant effect on Rt. These results indicate that electrogenic Na transport accounts totally for Isc in human descending colon in vitro, but only partly for Isc in human ascending colon, suggesting that Na transport in ascending colon is mediated primarily by electroneutral processes, and the apical membrane of human descending colon contains an amiloride-sensitive conductance for Na in parallel with an amiloride-insensitive conductance, which may transport K.
利用微电极和钠通道阻滞剂氨氯吡咪,对人降结肠和升结肠上皮细胞膜的电特性进行了研究。在对照(氨氯吡咪给药前)条件下,两个结肠段的跨上皮电测量结果相似。在降结肠黏膜添加0.1 mM氨氯吡咪可完全消除跨上皮电压(Vt)和短路电流(Isc),并使总组织电阻(Rt)显著增加19%(p<0.005)。用微电极在降结肠进行的细胞内记录显示,氨氯吡咪的跨上皮效应反映了顶端膜的超极化和顶端膜电阻的显著增加,这些变化与顶端钠通道的氨氯吡咪阻断和电生性钠转运的完全抑制一致。降结肠顶端膜中也存在明显的氨氯吡咪不敏感电导。相比之下,在升结肠黏膜添加0.1 mM氨氯吡咪仅使Vt降低30%(p<0.02),Isc降低43%(p<0.05),但对Rt无显著影响。这些结果表明,在体外,电生性钠转运完全构成了人降结肠Isc的来源,但仅部分构成了人升结肠Isc的来源,这表明升结肠中的钠转运主要由电中性过程介导,人降结肠的顶端膜含有与氨氯吡咪不敏感电导并行的氨氯吡咪敏感钠电导,后者可能转运钾。