通过脉冲响应分析在体内确定大鼠结肠的上皮运输途径。
Epithelial transport pathways of rat colon determined in vivo by impulse response analysis.
作者信息
Edmonds C J, Smith T
出版信息
J Physiol. 1979 Nov;296:471-85. doi: 10.1113/jphysiol.1979.sp013017.
Abstract
- A method is described for studying transepithelial pathways for the movement of different solutes and water. Using the blood and the secretory curves of changing tracer activity following an intravenous bolus, the rate of transit of molecules together with their impulse response functions, which reflect the transfer processes can be examined. 2. Movements of Na, Cl, I, urea and water from blood to lumen across rat colonic epithelium were all consistent with simple diffusion through a paracellular route. Most of the secreted K, however, passed through a K selective route associated with a significant K epithelial pool. 3. Adding cyanide to the luminal solution caused a reversible fall of transepithelial potential difference associated with changes in the impulse response functions of water, urea and K indicating reduction of the restriction on diffusion. Cellular K content was unaffected. 4. K entered the bulk of the epithelial cellular K almost exclusively from the blood side. A small epithelial K pool, identified by studies with a miniature GM counter, had kinetic characteristics like those of the K selective pathway observed in the studies of impulse response functions.
摘要
- 本文描述了一种研究不同溶质和水跨上皮转运途径的方法。通过静脉推注后血液和示踪剂活性变化的分泌曲线,可以检测分子的转运速率及其反映转运过程的脉冲响应函数。2. 大鼠结肠上皮中钠、氯、碘、尿素和水从血液到肠腔的转运均符合通过细胞旁途径的简单扩散。然而,大部分分泌的钾通过与一个显著的钾上皮池相关的钾选择性途径转运。3. 向肠腔溶液中添加氰化物会导致跨上皮电位差可逆下降,同时水、尿素和钾的脉冲响应函数发生变化,表明扩散限制降低。细胞内钾含量不受影响。4. 钾几乎完全从血液侧进入上皮细胞的大部分钾。通过微型GM计数器研究确定的一个小的上皮钾池,其动力学特征与在脉冲响应函数研究中观察到的钾选择性途径的特征相似。
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Epithelial transport pathways of rat colon determined in vivo by impulse response analysis.通过脉冲响应分析在体内确定大鼠结肠的上皮运输途径。
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本文引用的文献
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The gradient of electrical potential difference and of sodium and potassium of the gut contents along the caecum and colon of normal and sodium-depleted rats.正常大鼠和缺钠大鼠盲肠及结肠内肠内容物的电势差梯度以及钠和钾的梯度。
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