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细胞外弱酸和弱碱对蜗牛神经元细胞内缓冲能力的影响。

The effect of extracellular weak acids and bases on the intracellular buffering power of snail neurones.

作者信息

Szatkowski M S

机构信息

Department of Physiology, School of Medical Sciences, University of Bristol.

出版信息

J Physiol. 1989 Feb;409:103-20. doi: 10.1113/jphysiol.1989.sp017487.

DOI:10.1113/jphysiol.1989.sp017487
PMID:2555474
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1190434/
Abstract
  1. Intracellular pH (pHi) was measured in snail neurones using pH-sensitive glass microelectrodes. The influence of externally applied weak acids and bases on the total intracellular buffering power (beta T) was investigated by monitoring the pHi changes caused by the intracellular ionophoretic injection of HCl. 2. In the absence of weak acids or bases a reduction in the extracellular HEPES concentration had no effect on pHi or on beta T. It did, however, reduce slightly the rate of pHi recovery following HCl injection. 3. The presence of CO2 greatly increased beta T. However, as predicted for an open buffer system, the contributions to intracellular buffering by CO2 (beta CO2) decreased as pHi decreased. 4. When added to the superfusate, procaine, 4-aminopyridine, trimethylamine and NH4Cl (1-10 mM) all increased steady-state pHi. Procaine was fastest at increasing pHi and 4-aminopyridine the slowest. All four of these weak bases increased beta T. 5. The intracellular buffering action by these weak bases varied. HCl injection in the presence of procaine usually resulted in steady-state pHi changes with no pHi transients. In the presence of the other three weak bases HCl injections resulted in intracellular acidifications which were followed by pHi recovery-like transients. However, these were not blocked by SITS (4-acetamido-4'-isothiocyanatostilbene-2,2'-disulphonic acid) or by CaCl2 and I thus conclude that these transients were as a result of slow or incomplete intracellular buffering by the weak bases. 6. In many cells there was a good correlation between the measured contributions to intracellular buffering by the weak bases (beta base) and those predicted assuming a simple two-compartment open system. In all cases, as predicted, beta base increased as pHi decreased. 7. I found a clear relationship between the concentration of external buffer (HEPES) and the rate at which weak bases, applied to the superfusate, were able to increase pHi. The greater the extracellular buffer concentration the greater was the speed of intracellular alkalinization. 8. Lowering the extracellular buffer concentration reduced the efficiency of intracellular buffering by weak bases in response to an intracellular acid load. HCl injection in the presence of weak base caused a larger initial intracellular acidification if the extracellular HEPES concentration was reduced. 9. In conclusion, both weak acids and weak bases can make very large, pHi-dependent contributions to intracellular buffering by way of open buffer systems.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 使用对pH敏感的玻璃微电极测量蜗牛神经元中的细胞内pH值(pHi)。通过监测细胞内离子电泳注射HCl引起的pHi变化,研究了外部施加的弱酸和弱碱对总细胞内缓冲能力(βT)的影响。2. 在不存在弱酸或弱碱的情况下,细胞外HEPES浓度的降低对pHi或βT没有影响。然而,它确实略微降低了HCl注射后pHi恢复的速率。3. CO2的存在大大增加了βT。然而,正如开放缓冲系统所预测的那样,随着pHi降低,CO2对细胞内缓冲的贡献(βCO2)减少。4. 当添加到灌流液中时,普鲁卡因、4-氨基吡啶、三甲胺和NH4Cl(1-10 mM)均增加了稳态pHi。普鲁卡因增加pHi的速度最快,4-氨基吡啶最慢。这四种弱碱均增加了βT。5. 这些弱碱的细胞内缓冲作用各不相同。在普鲁卡因存在下注射HCl通常导致稳态pHi变化,没有pHi瞬变。在其他三种弱碱存在下注射HCl导致细胞内酸化,随后是类似pHi恢复的瞬变。然而,这些瞬变未被SITS(4-乙酰氨基-4'-异硫氰酸根合芪-2,2'-二磺酸)或CaCl2阻断,因此我得出结论,这些瞬变是弱碱细胞内缓冲缓慢或不完全的结果。6. 在许多细胞中,弱碱对细胞内缓冲的测量贡献(β碱)与假设简单的两室开放系统所预测的贡献之间存在良好的相关性。在所有情况下,正如所预测的那样,β碱随着pHi降低而增加。7. 我发现外部缓冲液(HEPES)的浓度与施加到灌流液中的弱碱增加pHi的速率之间存在明显的关系。细胞外缓冲液浓度越高,细胞内碱化的速度就越快。8. 降低细胞外缓冲液浓度会降低弱碱对细胞内酸负荷的缓冲效率。如果细胞外HEPES浓度降低,在弱碱存在下注射HCl会导致更大的初始细胞内酸化。9. 总之,弱酸和弱碱都可以通过开放缓冲系统对细胞内缓冲做出非常大的、依赖于pHi的贡献。(摘要截断于400字)

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