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ACTIVE POTASSIUM TRANSPORT ACROSS COLONIC EPITHELIUM

跨结肠上皮的活性钾转运

基本信息

批准号：
3462932
负责人：
DAN R HALM
金额：
$ 3.17万
依托单位：
UNIVERSITY OF ALABAMA AT BIRMINGHAM
依托单位国家：
美国
项目类别：
财政年份：
1987
资助国家：
美国
起止时间：
1987-08-01 至 1990-11-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/3462932
关键词：
biological fluid transport chloride channels colon gastrointestinal absorption /transport gastrointestinal epithelium guinea pigs ion transport laboratory rabbit microelectrodes potassium channel secretion tissue /cell culture

项目摘要

The central goal of this projet is the characterization of the epithelial location and transport mechanisms responsible for active K secretion and absorption across the mammalian colon as well as the mechanisms that regulate these processes. Mammalian colon absorbs and secretes fluid by processes dependent on Na absorption and Cl secretion, respectively. Active K secretion and absorption occur and could be associated with either Na absorbing cells or Cl secreting cells. The location of the K transport processes will be determined using conventional and ion-selective microelectrodes, electron microprobe analysis of tissue composition, and fluorescence mocroscopy of living tissue. Electrophysiologic techniques will be employed to detect changes in cell membrane electrical potential and intracellular ion activity consistent with K secretion and absorption. Electron microprobe analysis of intracellular Na, K and Cl concentration will confirm the morphologic location of active K secretion an dabsorption. The possibility that K absorption is coupled to acid secretion will be examined using fluorescent probes of pH in conjunction with direct visualization using differential interference contrast microscopy. Regulation of K transport will be examined using the patch clamp technique and morphologic techniques. Activation of K and Cl channels by stimulators of transport will be examined with single channel recording from isolated colonic epithelia and primary cultures of these cells. Stimulation of Cl secretion alters the morphology of the vacuolated, columnar cell type in the colonic epithelium. Direct visualization of the morphologic changes involved in stimulation of secretion will be accomplished with differential interference contrast microscopy. These studies will provide a complete characterization of the location of active K transport in the colonic epithelium and permit an understanding of the ion transport events associated with intestinal fluid absorption and secretion.

该项目的中心目标是表征上皮定位和运输机制负责哺乳动物结肠中的活性钾分泌和吸收以及调节这些过程的机制。哺乳动物结肠通过过程吸收和分泌液体分别取决于 Na 的吸收和 Cl 的分泌。活性钾的分泌和吸收的发生可能与其相关与Na吸收细胞或Cl分泌细胞。地点 K 个传输过程将通过以下方式确定传统和离子选择性微电极、电子组织成分和荧光的微探针分析活体组织的显微镜检查。电生理技术将用于检测细胞膜电位的变化和细胞内离子活性与 K 分泌一致吸收。细胞内 Na、K 的电子探针分析 Cl 浓度将确认形态位置活性钾的分泌和吸收。 K 的可能性吸收与酸分泌耦合将使用检查 pH 荧光探针与直接可视化相结合使用微分干涉对比显微镜。规定 K 运输将使用膜片钳技术进行检查和形态学技术。 K 和 Cl 通道的激活运输刺激器将用单通道进行检查从分离的结肠上皮和原代培养物中记录这些细胞。 Cl 分泌的刺激改变了形态结肠上皮中的空泡柱状细胞类型。直接可视化所涉及的形态变化分泌的刺激将通过微分来完成干涉对比显微镜。这些研究将提供完整表征活性钾转运的位置结肠上皮并允许了解离子与肠液吸收相关的转运事件和分泌。