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本文引用的文献

1
A putative H(+)-K(+)-ATPase is selectively expressed in surface epithelial cells of rat distal colon.一种假定的H(+)-K(+)-ATP酶在大鼠远端结肠的表面上皮细胞中选择性表达。
Am J Physiol. 1993 Oct;265(4 Pt 1):C1080-9. doi: 10.1152/ajpcell.1993.265.4.C1080.
2
Stimulation of Cl permeability in colonic crypts of Lieberkühn measured with a fluorescent indicator.用荧光指示剂测量利伯kühn结肠隐窝中氯离子通透性的刺激情况。
Am J Physiol. 1993 Sep;265(3 Pt 1):G423-31. doi: 10.1152/ajpgi.1993.265.3.G423.
3
Aldosterone stimulates K secretion prior to onset of Na absorption in guinea pig distal colon.醛固酮在豚鼠远端结肠开始吸收钠之前刺激钾分泌。
Am J Physiol. 1994 Feb;266(2 Pt 1):C552-8. doi: 10.1152/ajpcell.1994.266.2.C552.
4
Characterization of PGE2 receptors in isolated rabbit colonic crypt cells.兔离体结肠隐窝细胞中前列腺素E2受体的特性分析
Am J Physiol. 1995 Feb;268(2 Pt 1):G270-5. doi: 10.1152/ajpgi.1995.268.2.G270.
5
The effect of secretagogues on ion conductances of in vitro perfused, isolated rabbit colonic crypts.促分泌素对体外灌注的离体兔结肠隐窝离子电导的影响。
Pflugers Arch. 1995 Feb;429(4):494-502. doi: 10.1007/BF00704154.
6
Functional expression and segmental localization of rat colonic K-adenosine triphosphatase.大鼠结肠K-三磷酸腺苷酶的功能表达及节段定位
J Clin Invest. 1995 Oct;96(4):2002-8. doi: 10.1172/JCI118247.
7
Potassium transport by flounder intestinal mucosa.比目鱼肠道黏膜的钾离子转运
Am J Physiol. 1984 Jun;246(6 Pt 2):F946-51. doi: 10.1152/ajprenal.1984.246.6.F946.
8
Potassium transport by turtle colon: active secretion and active absorption.乌龟结肠的钾离子转运:主动分泌和主动吸收。
Am J Physiol. 1984 Mar;246(3 Pt 1):C315-22. doi: 10.1152/ajpcell.1984.246.3.C315.
9
A23187-induced changes in colonic K and Cl transport are mediated by separate mechanisms.A23187诱导的结肠钾离子和氯离子转运变化是由不同机制介导的。
Am J Physiol. 1984 Dec;247(6 Pt 1):G695-702. doi: 10.1152/ajpgi.1984.247.6.G695.
10
Control of potassium transport by turtle colon: role of membrane potential.龟结肠对钾转运的控制:膜电位的作用
Am J Physiol. 1984 Jul;247(1 Pt 1):C26-32. doi: 10.1152/ajpcell.1984.247.1.C26.

豚鼠远端结肠的主动钾转运:促分泌剂的作用

Active potassium transport across guinea-pig distal colon: action of secretagogues.

作者信息

Rechkemmer G, Frizzell R A, Halm D R

机构信息

Federal Research Centre for Nutrition, Institute of Nutritional Physiology, Eggenstein-Leopoldshafen, Germany.

出版信息

J Physiol. 1996 Jun 1;493 ( Pt 2)(Pt 2):485-502. doi: 10.1113/jphysiol.1996.sp021398.

DOI:10.1113/jphysiol.1996.sp021398
PMID:8782111
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1158932/
Abstract
  1. Adrenaline (5 microM) stimulated a K+ secretory current by 2.2 mu equiv h-1 cm-2 in isolated guinea-pig distal colonic epithelium. This secretory activity was inhibited entirely by addition of the loop diuretic bumetanide to the serosal solution. On-going K+ uptake via the absorptive pathway was unaltered by these changes. 2. Prostaglandin E2 (PGE2, 2 microM) stimulated electrogenic K+ secretion and Cl- secretion by 3.0 and 3.6 mu equiv h-1 cm-2, respectively. Serosal addition of bumetanide completely inhibited this K+ secretion but blocked only approximately 70% of Cl- secretion. The bumetanide-insensitive Cl- secretory current was dependent on the presence of Cl- and HCO3- in the bathing solutions. 3. Stimulation of electrogenic K+ secretion by PGE2 occurred with a half-maximal concentration of 4 nM, an affinity approximately 300 times higher than that for stimulation of Cl- secretion by PGE2. 4. Forskolin (10 microM) stimulated Cl- secretion by 4.9 mu equiv h-1 cm-2. The apparent K+ secretory rate was increased by only 1.5 mu equiv h-1 cm-2. A bumetanide-insensitive short-circuit current (ISC) was apparent and of the same size as that stimulated by PGE2. 5. Addition of the Ca2+ ionophore A23187 (10 microM), in the presence of indomethacin (1 microM) to reduce prostaglandin production, inhibited the K+ absorptive pathway by 40% and concurrently stimulated a small rate of electrogenic K+ secretion. 6. Active K+ absorption was inhibited by the addition of ouabain, omeprazole or SCH28080 to the mucosal solution. Both omeprazole and SCH28080 also stimulated a small negative ISC, consistent with electrogenic K+ secretion. 7. Association of K+ absorption, K+ secretion and Cl- secretion is indicated by similarities in transport mechanism and by secretagogue regulation. In particular, maximal rates of K+ secretory current require uptake via apical membrane K+ pumps. Such interrelations support a common cellular locus for these ion transport pathways.
摘要

  1. 肾上腺素(5微摩尔)可使豚鼠离体远端结肠上皮细胞的钾分泌电流增加2.2微当量·小时⁻¹·厘米⁻²。在浆膜溶液中加入髓袢利尿剂布美他尼可完全抑制这种分泌活性。通过吸收途径持续进行的钾摄取不受这些变化的影响。

  2. 前列腺素E2(PGE2,2微摩尔)分别使电生性钾分泌和氯分泌增加3.0和3.6微当量·小时⁻¹·厘米⁻²。在浆膜侧加入布美他尼可完全抑制这种钾分泌,但仅阻断约70%的氯分泌。布美他尼不敏感的氯分泌电流取决于浴液中氯和碳酸氢根的存在。

  3. PGE2刺激电生性钾分泌的半数最大浓度为4纳摩尔,其亲和力比刺激氯分泌的亲和力高约300倍。

  4. 福斯可林(10微摩尔)使氯分泌增加4.9微当量·小时⁻¹·厘米⁻²。钾的表观分泌速率仅增加1.5微当量·小时⁻¹·厘米⁻²。出现了一种布美他尼不敏感的短路电流(ISC),其大小与PGE2刺激产生的相同。

  5. 在吲哚美辛(1微摩尔)存在下加入钙离子载体A23187(10微摩尔)以减少前列腺素生成,可使钾吸收途径抑制40%,同时刺激小速率的电生性钾分泌。

  6. 在黏膜溶液中加入哇巴因、奥美拉唑或SCH28080可抑制钾的主动吸收。奥美拉唑和SCH28080还均刺激产生小的负向ISC,这与电生性钾分泌一致。

  7. 钾吸收、钾分泌和氯分泌之间的关联通过转运机制的相似性和促分泌剂调节得以体现。特别是,最大速率的钾分泌电流需要通过顶端膜钾泵进行摄取。这些相互关系支持了这些离子转运途径存在共同的细胞位点。