To C H, Mok K H, Do C W, Lee K L, Millodot M
Department of Optometry and Radiography, The Hong Kong Polytechnic University, China.
Curr Eye Res. 1998 Sep;17(9):896-902. doi: 10.1076/ceyr.17.9.896.5138.
To study the chloride and sodium ion transports across the bovine ciliary body/epithelium (CBE) by a modified Ussing-Zerahn type chamber.
Isolated bovine CBE preparations were mounted in a modified Ussing-type chamber and the transepithelial electrical parameters were monitored. The inward (stroma to aqueous) and outward (aqueous to stroma) fluxes of 36[Cl] chloride and 22[Na] sodium ions across the CBE were measured under short-circuited conditions. The effect of 0.1 mM of furosemide and bumetanide on the chloride transport were studied.
The potential difference (PD), the resistance and the short-circuit current (SCC) across the isolated bovine ciliary body were found to be -0.20+/-0.01 mV (aqueous negative), 75+/-1 omegacm2 and -2.70+/-0.17 microAcm(-2) (mean+/-SEM, n=50) respectively. A statistically significant net inward chloride ion flux of 1.12+/-0.41 microEq h(-1)cm(-2) (p < 0.01) was found (n=15). The net chloride transport was abolished when 0.1 mM furosemide (82% inhibition) and 0.1 mM bumetanide (100% inhibition) were applied bilateral. No significant net sodium ion flux was detected.
Electrolyte and fluid transport across the bovine CBE may be via a bumetanide and furosemide-sensitive chloride transport mechanism. The Na-K-2Cl cotransporter plays a significant role in the trans-CBE chloride transport. The net chloride flux/current was about 12 times higher than the measured SCC, suggesting that the chloride ion transport may be coupled to other ion species.
使用改良的乌斯琴-泽拉恩(Ussing-Zerahn)型小室研究氯离子和钠离子跨牛眼睫状体/上皮组织(CBE)的转运。
将分离的牛CBE制剂安装在改良的乌斯琴型小室中,并监测跨上皮电参数。在短路条件下测量36[Cl]氯离子和22[Na]钠离子跨CBE的内向(基质到房水)和外向(房水到基质)通量。研究了0.1 mM呋塞米和布美他尼对氯离子转运的影响。
发现分离的牛睫状体的电位差(PD)、电阻和短路电流(SCC)分别为-0.20±0.01 mV(房水为负)、75±1 Ω·cm2和-2.70±0.17 μA·cm-2(平均值±标准误,n = 50)。发现有统计学意义的净内向氯离子通量为1.12±0.41 μEq·h-1·cm-2(p < 0.01)(n = 15)。双侧应用0.1 mM呋塞米(82%抑制)和0.1 mM布美他尼(100%抑制)时,净氯离子转运被消除。未检测到明显的净钠离子通量。
跨牛CBE的电解质和液体转运可能通过布美他尼和呋塞米敏感的氯离子转运机制进行。Na-K-2Cl共转运体在跨CBE的氯离子转运中起重要作用。净氯离子通量/电流比测得的SCC高约12倍,表明氯离子转运可能与其他离子种类偶联。
