Jans A W, Amsler K, Griewel B, Kinne R K
Biochim Biophys Acta. 1987 Feb 18;927(2):203-12. doi: 10.1016/0167-4889(87)90136-4.
31P-NMR spectroscopy was used to monitor intracellular pH (pHi) in a suspension of LLC-PK1 cells, a renal epithelial cell line. The regulation of intracellular pH (pHi) was studied during intracellular acidification with 20% CO2 or intracellular alkalinization with 30 mM NH4Cl. The steady-state pHi in bicarbonate-containing Ringer's solution (pHo 7.40) was 7.14 +/- 0.04 and in bicarbonate-free Ringer's solution (pHo 7.40) 7.24 +/- 0.04. When pHo was altered in nominally HCO3(-)-free Ringer's, the intracellular pHi changed to only a small extent between pHo 6.6 and pHo 7.6; beyond this range pHi was linearly related to pHo. Below pHo 6.6 the cell was capable of maintaining a delta pH of 0.2 pH unit (inside more alkaline), above pH 7.6 a delta pH of 0.4 unit could be generated (inside more acid). During exposure to 20% CO2 in HCO3(-)-free Ringer's solution, pHi dropped initially to 6.9 +/- 0.05, the rate of realkalinisation was found to be 0.071 pH unit X min-1. After removal of CO2 the pHi increased by 0.65 and the rate of reacidification was 0.056 pH unit X min-1. Exposure to 30 mM NH4Cl caused a raise of pHi by 0.48 pH unit and an initial rate of re-acidification of 0.063 pH unit X min-1, after removal of NH4Cl the pHi fell by 0.58 pH unit below the steady-state pHi, followed by a subsequent re-alkalinization of 0.083 pH unit X min-1. Under both experimental conditions, the pHi recovery after an intracellular acidification, introduced by exposure to 20% CO2 and by removal of NH4+, was found to be inhibited by 53% and 63%, respectively, in the absence of sodium and 60% and 72%, respectively, by 1 mM amiloride. These studies indicate that 31P-NMR can be used to monitor steady-state intracellular pH as well a pHi transients in suspensions of epithelial cells. The results support the view that LLC-PK1 cells use an Na+-H+ exchange system to readjust their internal pH after acid loading of the cell.
采用31P - 核磁共振波谱法监测肾上皮细胞系LLC - PK1细胞悬液中的细胞内pH值(pHi)。在细胞用20%二氧化碳进行细胞内酸化或用30 mM氯化铵进行细胞内碱化的过程中,研究了细胞内pH值(pHi)的调节情况。含碳酸氢盐的林格氏液(pHo 7.40)中的稳态pHi为7.14±0.04,无碳酸氢盐的林格氏液(pHo 7.40)中的稳态pHi为7.24±0.04。当在名义上无HCO3(-)的林格氏液中改变pHo时,在pHo 6.6至pHo 7.6之间细胞内pHi仅发生小幅度变化;超出此范围,pHi与pHo呈线性相关。在pHo低于6.6时,细胞能够维持0.2个pH单位的ΔpH(内部更碱性),在pH高于7.6时,能够产生0.4个单位的ΔpH(内部更酸性)。在用无HCO3(-)的林格氏液暴露于20%二氧化碳期间,pHi最初降至6.9±0.05,发现再碱化速率为0.071 pH单位×min-1。去除二氧化碳后,pHi升高0.65,再酸化速率为0.056 pH单位×min-1。暴露于30 mM氯化铵导致pHi升高0.48个pH单位,初始再酸化速率为0.063 pH单位×min-1,去除氯化铵后,pHi降至稳态pHi以下0.58个pH单位,随后以0.083 pH单位×min-1的速率进行再碱化。在两种实验条件下,发现暴露于20%二氧化碳和去除氯化铵所引起的细胞内酸化后,pHi恢复分别在无钠时被抑制53%和63%,在1 mM氨氯吡脒存在时分别被抑制60%和72%。这些研究表明,31P - 核磁共振可用于监测上皮细胞悬液中的稳态细胞内pH值以及pHi瞬变。结果支持LLC - PK1细胞在细胞酸负荷后利用Na+-H+交换系统重新调节其内部pH值的观点。
