Zhang G H, Cragoe E J, Melvin J E
Department of Dental Research, University of Rochester, New York 14642.
J Membr Biol. 1992 Sep;129(3):311-21. doi: 10.1007/BF00232912.
The regulation of intracellular pH (pHi) in rat sublingual mucous acini was monitored using dual-wavelength microfluorometry of the pH-sensitive dye BCECF (2',7'-biscarboxyethyl-5(6)-carboxyfluorescein). Acini attached to coverslips and continuously superfused with HCO3(-)-containing medium (25 mM NaHCO3/5% CO2; pH 7.4) have a steady-state pHi of 7.25 +/- 0.02. Acid loading of acinar cells using the NH4+/NH3 prepulse technique resulted in a Na(+)-dependent, MIBA-inhibitable (5-(N-methyl-N-isobutyl) amiloride, Ki approximately 0.42 microM) pHi recovery, the kinetics of which were not influenced by the absence of extracellular Cl-. The rate and magnitude of the pHi recovery were dependent on the extracellular Na+ concentration, indicating that Na+/H+ exchange plays a critical role in maintaining pHi above the pH predicted for electrochemical equilibrium. When the NH4+/NH3 concentration was varied, the rate of pHi recovery was enhanced as the extent of the intracellular acidification increased, demonstrating that the activity of the Na+/H+ exchanger is regulated by the concentration of intracellular protons. Switching BCECF-loaded acini to a Cl(-)-free medium did not significantly alter resting pHi, suggesting the absence of Cl-/HCO3- exchange activity. Muscarinic stimulation resulted in a rapid and sustained cytosolic acidification (t 1/2 < 30 sec; 0.16 +/- 0.02 pH unit), the magnitude of which was amplified greater than two-fold in the presence of MIBA (0.37 +/- 0.05 pH unit) or in the absence of extracellular Na+ (0.34 +/- 0.03 pH unit). The agonist-induced intracellular acidification was blunted in HCO3(-)-free media and was inhibited by DPC (diphenylamine-2-carboxylate), an anion channel blocker. In contrast, the acidification was not influenced by removal of extracellular Cl-. The Ca2+ ionophore, ionomycin, mimicked the effects of stimulation, whereas preloading acini with BAPTA (bis-(o-aminophenoxy)-ethane-N,N,N',N'-tetra-acetic acid) to chelate intracellular Ca2+ blocked the agonist-induced cytoplasmic acidification. The above results indicate that during muscarinic stimulation an intracellular acidification occurs which: (i) is partially buffered by increased Na+/H+ exchange activity; (ii) is most likely mediated by HCO3- efflux via an anion channel; and (iii) requires an increase in cytosolic free [Ca2+].
利用对pH敏感的染料BCECF(2',7'-双羧乙基-5(6)-羧基荧光素)的双波长显微荧光测定法监测大鼠舌下粘液腺泡细胞内pH(pHi)的调节。附着在盖玻片上并持续用含HCO3(-)的培养基(25 mM NaHCO3/5% CO2;pH 7.4)灌流的腺泡细胞,其稳态pHi为7.25±0.02。采用NH4+/NH3预脉冲技术对腺泡细胞进行酸负荷处理后,pHi出现了依赖于Na(+)且可被MIBA(5-(N-甲基-N-异丁基)氨氯吡脒,Ki约为0.42 microM)抑制的恢复,其动力学不受细胞外Cl-缺失的影响。pHi恢复的速率和幅度取决于细胞外Na+浓度,这表明Na+/H+交换在将pHi维持在高于电化学平衡预测的pH值方面起着关键作用。当改变NH4+/NH3浓度时,随着细胞内酸化程度的增加,pHi恢复的速率加快,这表明Na+/H+交换体的活性受细胞内质子浓度的调节。将加载了BCECF的腺泡细胞切换到无Cl(-)的培养基中,静息pHi没有显著变化,这表明不存在Cl-/HCO3-交换活性。毒蕈碱刺激导致快速且持续的胞质酸化(t 1/2 < 30秒;0.16±0.02 pH单位),在存在MIBA(0.37±0.05 pH单位)或不存在细胞外Na+(0.34±0.03 pH单位)的情况下,酸化幅度增大了两倍以上。激动剂诱导的细胞内酸化在无HCO3(-)的培养基中减弱,并被阴离子通道阻滞剂DPC(二苯胺-2-羧酸盐)抑制。相反,去除细胞外Cl-对酸化没有影响。Ca2+离子载体离子霉素模拟了刺激的效果,而用BAPTA(双-(邻氨基苯氧基)-乙烷-N,N,N',N'-四乙酸)预加载腺泡细胞以螯合细胞内Ca2+则阻断了激动剂诱导的细胞质酸化。上述结果表明,在毒蕈碱刺激期间发生了细胞内酸化,其:(i)部分通过增加的Na+/H+交换活性得到缓冲;(ii)很可能是由通过阴离子通道的HCO3-外流介导的;(iii)需要细胞溶质游离[Ca2+]增加。
