饮食钾负荷期间大鼠远端结肠的钾分泌:pH调节的顶端钾通道的作用
Potassium secretion in rat distal colon during dietary potassium loading: role of pH regulated apical potassium channels.
作者信息
Sandle G I, Butterfield I
机构信息
Molecular Medicine Unit, St James's University Hospital, Leeds, UK.
出版信息
Gut. 1999 Jan;44(1):40-6. doi: 10.1136/gut.44.1.40.
BACKGROUND
Chronic dietary K+ loading increases the abundance of large conductance (210 pS) apical K+ channels in surface cells of rat distal colon, resulting in enhanced K+ secretion in this epithelium. However, the factors involved in the regulation of these K+ channels are at present unclear.
AIMS
To evaluate the effect of dietary K+ loading on intracellular pH and its relation to large conductance apical K+ channel activity in surface cells of rat distal colon.
METHODS/RESULTS: As assessed by fluorescent imaging, intracellular pH was higher in K+ loaded animals (7.48 (0.09)) than in controls (7.07 (0.04); p<0.01) when surface cells were bathed in NaCl solution, and a similar difference in intracellular pH was observed when cells were bathed in Na2SO4 solution (7.67 (0.09) and 6.92 (0.05) respectively; p<0.001). Ethylisopropylamiloride (EIPA; an inhibitor of Na+-H+ exchange; 1 microM) decreased intracellular pH when surface cells from K+ loaded animals were bathed in either solution, although the decrease was greater when the solution contained NaCl (DeltapH 0.50 (0.03)) rather than Na2SO4 (DeltapH 0. 18 (0.02); p<0.05). In contrast, EIPA had no effect in cells from control animals. As assessed by patch clamp recording techniques, the activity of large conductance K+ channels in excised inside-out membrane patches from distal colonic surface cells of K+ loaded animals increased twofold when the bath pH was raised from 7.40 to 7. 60. As assessed by cell attached patches in distal colonic surface cells from K+ loaded animals, the addition of 1 M EIPA decreased K+ channel activity by 50%, consistent with reversal of Na+-H+ exchange mediated intracellular alkalinisation.
CONCLUSION
Intracellular alkalinisation stimulates pH sensitive large conductance apical K+ channels in rat distal colonic surface cells as part of the K+ secretory response to chronic dietary K+ loading. Intracellular alkalinisation seems to reflect an increase in EIPA sensitive Na+-H+ exchange, which may be a manifestation of the secondary hyperaldosteronism associated with this model of colonic K+ adaptation.
背景
长期饮食中钾负荷增加会使大鼠远端结肠表面细胞中大电导(210 pS)顶端钾通道的丰度增加,导致该上皮细胞钾分泌增强。然而,目前尚不清楚参与这些钾通道调节的因素。
目的
评估饮食中钾负荷对细胞内pH的影响及其与大鼠远端结肠表面细胞中大电导顶端钾通道活性的关系。
方法/结果:通过荧光成像评估,当表面细胞浸浴在NaCl溶液中时,钾负荷动物的细胞内pH(7.48(0.09))高于对照组(7.07(0.04);p<0.01),当细胞浸浴在Na2SO4溶液中时,也观察到细胞内pH有类似差异(分别为7.67(0.09)和6.92(0.05);p<0.001)。乙基异丙基氨氯吡咪(EIPA;一种Na+-H+交换抑制剂;1 μM)可降低钾负荷动物表面细胞浸浴在任何一种溶液中的细胞内pH,不过当溶液为NaCl时降低幅度更大(ΔpH 0.50(0.03)),而不是Na2SO4(ΔpH 0.18(0.02);p<0.05)。相比之下,EIPA对对照组动物的细胞没有影响。通过膜片钳记录技术评估,当浸浴液pH从7.40升至7.60时,钾负荷动物远端结肠表面细胞切除的内向外膜片中的大电导钾通道活性增加了两倍。通过对钾负荷动物远端结肠表面细胞进行细胞贴附膜片评估,添加1 M EIPA可使钾通道活性降低50%,这与Na+-H+交换介导的细胞内碱化的逆转一致。
结论
细胞内碱化刺激大鼠远端结肠表面细胞中对pH敏感的大电导顶端钾通道,这是对长期饮食中钾负荷的钾分泌反应的一部分。细胞内碱化似乎反映了EIPA敏感的Na+-H+交换增加,这可能是与这种结肠钾适应模型相关的继发性醛固酮增多症的一种表现。
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