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首页> 外文期刊>American Journal of Physiology >Functional coupling of apical Cl-/HCO3- exchange with CFTR in stimulated HCO3- secretion by guinea pig interlobular pancreatic duct.
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Functional coupling of apical Cl-/HCO3- exchange with CFTR in stimulated HCO3- secretion by guinea pig interlobular pancreatic duct.

机译:用豚鼠间胰管管刺激的HCO3分泌型CFTR型CFTR的功能耦合。

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Pancreatic ductal epithelium produces a HCO(3)(-)-rich fluid. HCO(3)(-) transport across ductal apical membranes has been proposed to be mediated by both SLC26-mediated Cl(-)/HCO(3)(-) exchange and CFTR-mediated HCO(3)(-) conductance, with proportional contributions determined in part by axial changes in gene expression and luminal anion composition. In this study we investigated the characteristics of apical Cl(-)/HCO(3)(-) exchange and its functional interaction with Cftr activity in isolated interlobular ducts of guinea pig pancreas. BCECF-loaded epithelial cells of luminally microperfused ducts were alkalinized by acetate prepulse or by luminal Cl(-) removal in the presence of HCO(3)(-)-CO(2). Intracellular pH recovery upon luminal Cl(-) restoration (nominal Cl(-)/HCO(3)(-) exchange) in cAMP-stimulated ducts was largely inhibited by luminal dihydro-DIDS (H(2)DIDS), accelerated by luminal CFTR inhibitor inh-172 (CFTRinh-172), and was insensitive to elevated bath K(+) concentration. Luminal introduction of CFTRinh-172 into sealed duct lumens containing BCECF-dextran in HCO(3)(-)-free, Cl(-)-rich solution enhanced cAMP-stimulated HCO(3)(-) secretion, as calculated from changes in luminal pH and volume. Luminal Cl(-) removal produced, after a transient small depolarization, sustained cell hyperpolarization of approximately 15 mV consistent with electrogenic Cl(-)/HCO(3)(-) exchange. The hyperpolarization was inhibited by H(2)DIDS and potentiated by CFTRinh-172. Interlobular ducts expressed mRNAs encoding CFTR, Slc26a6, and Slc26a3, as detected by RT-PCR. Thus Cl(-)-dependent apical HCO(3)(-) secretion in pancreatic duct is mediated predominantly by an Slc26a6-like Cl(-)/HCO(3)(-) exchanger and is accelerated by inhibition of CFTR. This study demonstrates functional coupling between Cftr and Slc26a6-like Cl(-)/HCO(3)(-) exchange activity in apical membrane of guinea pig pancreatic interlobular duct.
机译:胰腺导管上皮产生HCO(3)( - )富含液体。已经提出了通过SLC26介导的Cl( - )/ HCO(3)( - )交换和CFTR介导的HCO(3)( - )电导介导的用于导管顶端膜的HCO(3)( - )转运部分通过基因表达和腔阴离子组合物中的轴向变化部分确定的比例贡献。在这项研究中,我们研究了豚鼠胰腺分离的豚鼠胰腺中的顶部Cl( - )/ HCO(3)( - )交换及其与CFTR活性的功能相互作用的特征。通过在HCO(3)( - ) - CO(2)的存在下,通过醋酸盐预填充或通过腔Cl( - )除去含有醋酸盐的加入的宫颈微熔管的上皮细胞。在腔Cl()恢复时( - )恢复(标称Cl( - )恢复(标称Cl( - )/ HCO(3)( - )交换)在很大程度上被腔中的二氢滴(H(2)含量)抑制(H(2)),通过腔加速CFTR抑制剂INH-172(CFTRINH-172),对升高的浴K(+)浓度不敏感。 CFTRINH-172的腔内引入密封管腔,含有HCO(3)( - ) - 无浓溶液的BCECF-DEXTRAN,CL( - ) - 富含溶液增强营养刺激的HCO(3)( - )分泌,如因变化计算腔液pH和体积。在短暂的小去极化后,生产的腔Cl( - )去除,持续细胞超极化约15mV与电Cl( - )/ HCO(3)( - )交换一致。 H(2)抑制了超极化,并通过CFTRINH-172增强。如RT-PCR检测到的检测到,中间管道表示编码CFTR,SLC26A6和SLC26A3的MRNA。因此,胰管中的Cl( - ) - 依赖性顶端HCO(3)( - )分泌物主要由SLC26A6样Cl( - )/ HCO(3)( - )交换器主要介导,并通过CFTR的抑制加速。该研究证明了在豚鼠胰腺间管道的顶端膜中CFTR和SLC26A6样CL( - )/ HCO(3)( - )交换活性之间的功能耦合。

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