渗透敏感性氯离子电流及其与人类肠道T84细胞调节性容积减小的相关性:外向整流电流与内向整流电流
Osmosensitive C1- currents and their relevance to regulatory volume decrease in human intestinal T84 cells: outwardly vs. inwardly rectifying currents.
作者信息
Bond T D, Ambikapathy S, Mohammad S, Valverde M A
机构信息
Physiology Group, Biomedical Sciences Division, King's College London, Strand, London WC2R 2LS, UK.
出版信息
J Physiol. 1998 Aug 15;511 ( Pt 1)(Pt 1):45-54. doi: 10.1111/j.1469-7793.1998.045bi.x.
Abstract
- The swelling-activated outwardly rectifying Cl- current (ICl(swell)) recorded in T84 human intestinal cells was completely blocked by 10 microM tamoxifen, while 300 microM Cd2+ had no effect. 2. A ClC-2-like, inwardly rectifying Cl- current was activated after strong hyperpolarization in T84 cells. This current was completely inhibited by 300 microM Cd2+, unaffected by 10 microM tamoxifen, and its magnitude increased slightly in response to cell swelling under hyposmotic conditions. However, the swelling-dependent modulation occurred only after prior activation by hyperpolarizing voltages. 3. T84 cells behaved initially close to perfect osmometers in response to changes in external osmolalities between +20 and -30 %. The cells underwent full regulatory volume decrease (RVD) within 16 min when exposed to 30 or 10 % hyposmotic shocks. 4. Pharmacological tools were used to determine the anionic pathway(s) involved in RVD in T84 cells. Tamoxifen (10 microM), 1,9-dideoxyforskolin (DDFSK; 100 microM) and 4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid (DIDS; 100 microM) blocked RVD while 300 microM Cd2+ had no effect upon RVD following a 30 % hyposmotic shock. The RVD response was similarly unaffected by Cd2+ when cells were exposed to a smaller (10 %) hyposmotic shock. 5. In conclusion, these data show that the anionic pathway primarily activated by cell swelling and relevant to RVD in T84 cells is the tamoxifen-, DDFSK- and DIDS-sensitive ICl(swell) and not the hyperpolarization-activated, Cd2+-sensitive Cl- current associated with the ClC-2 Cl- channel.
摘要
- 在T84人肠道细胞中记录到的肿胀激活外向整流性氯离子电流(ICl(swell))被10微摩尔他莫昔芬完全阻断,而300微摩尔Cd2+则无作用。2. 在T84细胞中,强超极化后激活了一种类似ClC-2的内向整流性氯离子电流。该电流被300微摩尔Cd2+完全抑制,不受10微摩尔他莫昔芬影响,在低渗条件下细胞肿胀时其幅度略有增加。然而,肿胀依赖性调节仅在超极化电压预先激活后才会发生。3. 响应于+20%至-30%的外部渗透压变化,T84细胞最初表现得近乎完美的渗透计。当暴露于30%或10%的低渗冲击时,细胞在16分钟内经历完全调节性容积减小(RVD)。4. 使用药理学工具来确定T84细胞中RVD所涉及的阴离子途径。他莫昔芬(10微摩尔)、1,9-二脱氧佛司可林(DDFSK;100微摩尔)和4,4'-二异硫氰酸根合芪-2,2'-二磺酸(DIDS;100微摩尔)阻断RVD,而300微摩尔Cd2+在30%低渗冲击后对RVD无影响。当细胞暴露于较小(10%)的低渗冲击时,RVD反应同样不受Cd2+影响。5. 总之,这些数据表明,在T84细胞中主要由细胞肿胀激活并与RVD相关的阴离子途径是对他莫昔芬、DDFSK和DIDS敏感的ICl(swell),而不是与ClC-2氯离子通道相关的超极化激活、对Cd2+敏感的氯离子电流。
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