基底外侧钾离子电导在维持小鼠鼻和结肠上皮细胞氯离子分泌中的重要性。
Importance of basolateral K+ conductance in maintaining Cl- secretion in murine nasal and colonic epithelia.
作者信息
MacVinish L J, Hickman M E, Mufti D A, Durrington H J, Cuthbert A W
机构信息
Department of Pharmacology, University of Cambridge, Tennis Court Road, Cambridge CB2 1QJ, UK.
出版信息
J Physiol. 1998 Jul 1;510 ( Pt 1)(Pt 1):237-47. doi: 10.1111/j.1469-7793.1998.237bz.x.
Abstract
- Epithelia lining the nasal passages and descending colon of wild-type and cystic fibrosis (CF) mice were examined by the short-circuit current technique. Additionally, intracellular Ca2+ ion determinations were made in nasal epithelial cells. Forskolin produced anion secretory currents in wild-type and CF nasal epithelia. It produced similar effects in wild-type colonic epithelia, but not in colonic epithelia from CF mice. 2. After electrogenic Na+ transport was blocked with amiloride and electrogenic Cl- secretion was stimulated with forskolin, the ability of K+ channel blockers to inhibit the forskolin-induced Cl- current was determined. The order of efficiency for nasal epithelium was: Ba2+ > clofilium >>> TEA = azimilide >>> trans-6-cyano-4-(N-ethylsulphonyl-N-methylamino)-3-hydroxy-2, 2-dimethyl-chromane (293B) = charybdotoxin, whereas for the colonic epithelium the order was: Ba2+ = 293B >>> azimilide = TEA >>> clofilium = charybdotoxin. 3. 1-Ethyl-2-benzimdazolinone (1-EBIO) was able to generate large Cl--secretory currents in colonic epithelia which were partially sensitive to charybdotoxin, with the remaining current being inhibited by 293B. In nasal epithelia 1-EBIO produced only a small transient effect on current. 4. Forskolin released intracellular Ca2+ in nasal epithelial cells; this activity was attenuated when more powerful Ca2+-releasing agents were applied first. 5. It is concluded that an action on basolateral cAMP-sensitive K+ channels is an important determinant of the maintained responses to forskolin in nasal and colonic epithelia, in addition to the effects on the cystic fibrosis transmembrane conductance regulator (CFTR) in the apical membrane. In CF nasal epithelia the activation of calcium-activated chloride channels (CACs) substitutes for the effect on CFTR. On the basis of the different orders of potency of the blocking agents and the differential response to 1-EBIO it is concluded that the cAMP-sensitive K+ channels are different in the airways and the gut.
摘要
- 采用短路电流技术检测野生型和囊性纤维化(CF)小鼠鼻腔通道和降结肠的上皮组织。此外,还对鼻上皮细胞内的Ca2+离子进行了测定。福斯可林在野生型和CF鼻上皮中产生阴离子分泌电流。它在野生型结肠上皮中产生类似的作用,但在CF小鼠的结肠上皮中则不然。2. 在用氨氯吡咪阻断电中性Na+转运并用福斯可林刺激电中性Cl-分泌后,测定K+通道阻滞剂抑制福斯可林诱导的Cl-电流的能力。鼻上皮的效率顺序为:Ba2+>氯非铵>>四乙铵 = 阿齐米利特>>反式-6-氰基-4-(N-乙基磺酰基-N-甲氨基)-3-羟基-2,2-二甲基苯并二氢吡喃(293B) = 蝎毒素,而结肠上皮的顺序为:Ba2+ = 293B>>阿齐米利特 = 四乙铵>>氯非铵 = 蝎毒素。3. 1-乙基-2-苯并咪唑啉酮(1-EBIO)能够在结肠上皮中产生大的Cl-分泌电流,该电流对蝎毒素部分敏感,其余电流被293B抑制。在鼻上皮中,1-EBIO对电流仅产生小的瞬时效应。4. 福斯可林在鼻上皮细胞中释放细胞内Ca2+;当首先应用更强效的Ca2+释放剂时,这种活性会减弱。5. 得出结论,除了对顶膜囊性纤维化跨膜电导调节因子(CFTR)的作用外,对基底外侧cAMP敏感K+通道的作用是鼻和结肠上皮对福斯可林维持反应的重要决定因素。在CF鼻上皮中,钙激活氯通道(CACs)的激活替代了对CFTR的作用。基于阻断剂的不同效力顺序和对1-EBIO的不同反应,得出结论,气道和肠道中的cAMP敏感K+通道不同。
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