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J Physiol. 1990 May;424:109-31. doi: 10.1113/jphysiol.1990.sp018058.
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本文引用的文献

1
The nature of the frog skin potential.蛙皮电位的性质。
Acta Physiol Scand. 1958 Jun 2;42(3-4):298-308. doi: 10.1111/j.1748-1716.1958.tb01563.x.
2
Excretion of sodium and potassium in human sweat.人体汗液中钠和钾的排泄。
J Clin Invest. 1956 Jan;35(1):114-20. doi: 10.1172/JCI103245.
3
Volume regulation of frog skin epithelium.青蛙皮肤上皮的容积调节
Acta Physiol Scand. 1982 Mar;114(3):363-9. doi: 10.1111/j.1748-1716.1982.tb06996.x.
4
Higher bioelectric potentials due to decreased chloride absorption in the sweat glands of patients with cystic fibrosis.囊性纤维化患者汗腺中氯化物吸收减少导致生物电位升高。
N Engl J Med. 1983 May 19;308(20):1185-9. doi: 10.1056/NEJM198305193082002.
5
Chloride impermeability in cystic fibrosis.囊性纤维化中的氯离子不渗透性
Nature. 1983 Feb 3;301(5899):421-2. doi: 10.1038/301421a0.
6
Voltage and Ca2+-activated K+ channel in baso-lateral acinar cell membranes of mammalian salivary glands.哺乳动物唾液腺基底外侧腺泡细胞膜中的电压和钙激活钾通道。
Nature. 1983 Apr 28;302(5911):827-9. doi: 10.1038/302827a0.
7
Effects of some ion transport inhibitors on secretion and reabsorption in intact and perfused single human sweat glands.某些离子转运抑制剂对完整及灌注的单个人汗腺分泌和重吸收的影响。
Pflugers Arch. 1981 Oct;391(4):309-13. doi: 10.1007/BF00581513.
8
Micropuncture studies of the sweat formation in cystic fibrosis patients.囊性纤维化患者汗液形成的微穿刺研究。
J Clin Invest. 1969 Aug;48(8):1470-7. doi: 10.1172/JCI106113.
9
Culture of sweat gland epithelial cells from normal individuals and patients with cystic fibrosis.来自正常个体和囊性纤维化患者的汗腺上皮细胞培养。
In Vitro Cell Dev Biol. 1985 Oct;21(10):597-602. doi: 10.1007/BF02620892.
10
Basolateral membrane chloride transport in isolated epithelia of frog skin.
Am J Physiol. 1985 Sep;249(3 Pt 1):C318-29. doi: 10.1152/ajpcell.1985.249.3.C318.

原代培养中汗腺导管的阳离子转运。胆碱能诱发电流振荡的离子机制。

Cation transport by sweat ducts in primary culture. Ionic mechanism of cholinergically evoked current oscillations.

作者信息

Larsen E H, Novak I, Pedersen P S

机构信息

Zoophysiological Laboratory A, August Krogh Institute, University of Copenhagen, Denmark.

出版信息

J Physiol. 1990 May;424:109-31. doi: 10.1113/jphysiol.1990.sp018058.

DOI:10.1113/jphysiol.1990.sp018058
PMID:2167967
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1189804/
Abstract
  1. The coiled reabsorptive segment of human sweat ducts was cultured in vitro. Cells were then harvested and plated onto a dialysis membrane which was glued over a hole in a small disc. Cultures were maintained in a low serum, hormone-supplemented medium that allowed the cells to grow to confluency. The disc was then placed as a partition between two compartments of a miniature Ussing chamber. The chamber was mounted on the stage of an inverted microscope and intracellular potentials were recorded under transepithelial open-circuit or voltage clamp conditions. All values are given as means +/- S.E.M. and n refers to the number of preparations or duct cells. 2. Under control conditions, the cultured epithelia developed mucosa-negative transepithelial potentials (Vt) ranging from -2.5 to -38 mV (-13.5 +/- 1.5 mV, n = 36). The basolateral membrane potential (Vb) was -39.4 +/- 0.7 mV (n = 50 cells), and the apical membrane potential (Va) was linearly correlated with Vt:Va = 1.0 Vt -39.3 mV (r = -0.78, n = 50). 3. The epithelium generated inwardly directed short-circuit currents (Isc) of 12-95 microA cm-2 (45 +/- 4 microA cm-2, n = 36) with a steady-state intracellular potential. Vc = -31.1 +/- 0.6 mV and a fractional resistance of the apical membrane, fR = 0.59 +/- 0.01 (n = 115 cells). 4. The Na+ channel blocker amiloride (mucosal bath, 10 microM) abolished Isc -0.8 +/- 0.6 microA cm-2), the cells hyperpolarized to -61.0 +/- 1.2 mV, and fR increased to 0.85 +/- 0.01 (n = 44). These effects were fully reversible. 5. During initial stimulation with the cholinergic agonist, methacholine (serosa, 5 or 10 microM), the short-circuit current increased to 80 +/- 10 microA cm-2, the cells hyperpolarized to -55.8 +/- 1.2 mV, and fR increased to 0.82 +/- 0.01 (n = 35). 6. In short-circuited preparations stimulated with methacholine an increase in mucosal potassium concentration ([K+]m) from 5 to 25 mM had no significant effect, while a similar increase in the serosal K+ concentration ([K+]s) produced a change in Vc of 44 +/- 3 mV per log10[K+]s (n = 9). In non-stimulated preparations this change was only 16 +/- 2 mV per log10[K+]s (n = 13). After blocking the apical Na+ channels with amiloride the slope was 24 +/- 5 mV per log10[K+]s in unstimulated preparations.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 人汗腺导管的盘曲重吸收段进行体外培养。然后收集细胞并接种到透析膜上,该透析膜粘贴在小圆盘的孔上。培养物在低血清、添加激素的培养基中维持,使细胞生长至汇合。然后将圆盘作为隔板置于微型乌斯森槽的两个隔室之间。将槽安装在倒置显微镜的载物台上,在跨上皮开路或电压钳制条件下记录细胞内电位。所有数值均以平均值±标准误给出,n表示标本或导管细胞的数量。2. 在对照条件下,培养的上皮细胞产生的黏膜负跨上皮电位(Vt)范围为-2.5至-38 mV(-13.5±1.5 mV,n = 36)。基底外侧膜电位(Vb)为-39.4±0.7 mV(n = 50个细胞),顶端膜电位(Va)与Vt呈线性相关:Va = 1.0Vt - 39.3 mV(r = -0.78,n = 50)。3. 上皮细胞产生内向的短路电流(Isc)为12 - 95 μA/cm²(45±4 μA/cm²,n = 36),具有稳定的细胞内电位。Vc = -31.1±0.6 mV,顶端膜的分数电阻,fR = 0.59±0.01(n = 115个细胞)。4. Na⁺通道阻滞剂阿米洛利(黏膜浴,10 μM)使Isc消失(-0.8±0.6 μA/cm²),细胞超极化至-61.0±1.2 mV,fR增加至0.85±0.01(n = 44)。这些效应完全可逆。5. 在最初用胆碱能激动剂乙酰甲胆碱(浆膜侧,5或10 μM)刺激期间,短路电流增加至80±10 μA/cm²,细胞超极化至-55.8±1.2 mV,fR增加至0.82±0.01(n = 35)。6. 在乙酰甲胆碱刺激的短路标本中,黏膜钾浓度([K⁺]m)从5 mM增加到25 mM无显著影响,而浆膜侧K⁺浓度([K⁺]s)类似的增加使Vc每log₁₀[K⁺]s变化44±3 mV(n = 9)。在未刺激的标本中,这种变化仅为每log₁₀[K⁺]s 16±2 mV(n = 13)。用阿米洛利阻断顶端Na⁺通道后,未刺激标本中的斜率为每log₁₀[K⁺]s 24±5 mV。(摘要截短于400字)