胃壁细胞Cl/HCO3交换的调控。

H A Thomas, T E Machen
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引用次数: 39

摘要

采用荧光指标2′,7′-双-(2-羧基乙基)-5(和6)羧基荧光素和6-甲氧基- n -(3-磺丙基)-喹啉的显微荧光法测定离体兔胃腺单壁细胞(PC)的细胞内pH (pHi)、细胞内Cl (Cli)和HCO3和Cl的跨膜通量。静息(50 μ m西咪替丁)和刺激(100 μ m组胺)pc的稳态pHi均为7.2。在静息和受刺激的pc中,Cl从灌注液中去除或再入时的跨膜阴离子(HCO3或Cl)通量率相同。这些比率在碱性pHi下增加,尽管这种pHi依赖性在生理范围内很小。ph7.6 ~ 7.8时Cl内流或HCO3外排的最大流速(Vmax)为80 ~ 110 mM/min,细胞外Cl (Clo)浓度Km为25 mM;在生理范围(pHi 7.1-7.3),阴离子通量的Vmax约为50 mM/min。未受刺激的PC的稳态Cli为62 +/- 5 mM,但在组胺刺激下,Cli迅速下降到25 mM,然后又上升到44 mM的稳态水平。0.5 mM 4,4'-二异硫氰酸二氢二苯乙烯-2,2'-二磺酸(H2DIDS)完全阻断了因Cl去除或再添加而产生的HCO3通量,但Cl通量仅被抑制80%。H2DIDS没有抑制组胺处理后Cli的下降。二苯胺羧酸酯(0.5 mM)对Cl通量的抑制作用仅为50%,与H2DIDS联合使用时,对Cl通量没有额外的抑制作用。溶液Cl去除或再入过程中的跨膜阴离子通量80%通过基膜上的阴离子交换器,20%通过其他途径,可能是根尖膜上的Cl通道。我们得出结论,在组胺诱导的HCl分泌增加过程中,通过Cl/HCO3交换体的运输活性增加主要是由于Cli的减少。在Cli = 62 mM, Clo = 120 mM, pHi = 7.2,胞外pH = 7.4的静息细胞中,阴离子交换剂处于热力学平衡附近。在组胺刺激下,Cli从62 mM下降到44 mM,基底膜阴离子交换器的热力学平衡被破坏,阴离子交换器将细胞内的HCO3交换为细胞外的Cl。Cli在PC的刺激-分泌耦合中起着重要的调节作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Regulation of Cl/HCO3 exchange in gastric parietal cells.

Microspectrofluorimetry of the fluorescent indicators 2',7'-bis-(2-carboxyethyl)-5(and-6)carboxyfluorescein and 6-methoxy-N-(3-sulfopropyl)-quinolinium was used to measure intracellular pH (pHi), intracellular Cl (Cli), and transmembrane fluxes of HCO3 and Cl in single parietal cells (PC) in isolated rabbit gastric glands incubated in HCO3/CO2-buffered solutions. Steady-state pHi was 7.2 in both resting (50 microM cimetidine) and stimulated (100 microM histamine) PCs. Transmembrane anion (HCO3 or Cl) flux rates during Cl removal from or readdition to the perfusate were the same in resting and stimulated PCs. These rates increased at alkaline pHi, though this pHi dependence was small in the physiological range. Maximum velocity (Vmax) for Cl influx or HCO3 efflux was 80-110 mM/min at pHi 7.6-7.8, and the Km for extracellular concentrations of Cl (Clo) was 25 mM; in the physiological range (pHi 7.1-7.3), Vmax for anion fluxes was approximately 50 mM/min. Steady-state Cli in the unstimulated PC was 62 +/- 5 mM, but on histamine stimulation, Cli decreased rapidly to 25 mM and then increased back to a steady-state level of 44 mM. HCO3 fluxes due to Cl removal or readdition were completely blocked by 0.5 mM 4,4'-diisothiocyanatodihydrostilbene-2,2'-disulfonic acid (H2DIDS), but Cl fluxes were only inhibited by 80%. H2DIDS did not inhibit the decrease in Cli that occurred with histamine treatment. Diphenylamine carboxylate (0.5 mM) inhibited Cl flux by only 50% and caused no additional inhibition of Cl flux when used in conjunction with H2DIDS. Transmembrane anion fluxes during solution Cl removal or readdition occurred 80% through the anion exchanger at the basal membrane and 20% through other pathway(s), presumably the Cl channel in the apical membrane. We conclude that the increase in transport activity via the Cl/HCO3 exchanger that occurs during histamine-induced increases in HCl secretion is due mostly to the decrease in Cli. In the resting cell with Cli = 62 mM, Clo = 120 mM, pHi = 7.2, and extracellular pH = 7.4, the anion exchanger is poised near its thermodynamic equilibrium. During histamine stimulation Cli drops from 62 mM to 44 mM, the thermodynamic equilibrium of the anion exchanger at the basolateral membrane is disturbed, and the anion exchanger then exchanges cellular HCO3 for extracellular Cl. Cli serves a crucial regulatory role in stimulus-secretion coupling in the PC.

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