Lucci M S, Warnock D G, Rector F C
Am J Physiol. 1979 Jan;236(1):F58-65. doi: 10.1152/ajprenal.1979.236.1.F58.
The extent to which bicarbonate reabsorption in the rat proximal convoluted tubule depends on carbonic anhydrase has been examined by in vivo microperfusion and the measurement of total CO2 concentration by microcalorimetry. Tubules were perfused with an ultrafiltrate-like solution at 13 nl/min, and volume reabsorptive rate (JV) was measured using [14C]inulin. Addition of either 800 or 100 microM acetazolamide to the perfusion solution completely inhibited the reabsorption of total CO2. The control total CO2 reabsorptive rate (JtCO2) was 147 +/- 23 pmol/mm.min, and acetazolamide reduced JtCO2 to -3 +/- 5 pmol/mm.min. Acetazolamide reduced JV by 65% from a control of 2.3 +/- 0.4 to 0.8 +/- 0.1 nl/mm.min. The dose-response curve for acetazolamide showed that the I50 for inhibition of JtCO2 was 4 microM. The inactive congener of acetazolamide, t-butyl acetazolamide, did not reduce JV or inhibit bicarbonate reabsorption, indicating that the effect of acetazolamide on JtCO2 was specific for carbonic anhydrase inhibition. Since bicarbonate reabsorption was completely blocked by carbonic anhydrase inhibition, there is no need to postulate either carbonic acid recycling or carbonic anhydrase-independent bicarbonate reabsorption.
通过体内微灌注和微量热法测量总二氧化碳浓度,研究了大鼠近端曲管中碳酸氢盐重吸收对碳酸酐酶的依赖程度。以13 nl/分钟的速度用类似超滤液的溶液灌注肾小管,并使用[14C]菊粉测量体积重吸收率(JV)。向灌注溶液中添加800或100 microM乙酰唑胺可完全抑制总二氧化碳的重吸收。对照总二氧化碳重吸收率(JtCO2)为147±23 pmol/mm·分钟,乙酰唑胺将JtCO2降至-3±5 pmol/mm·分钟。乙酰唑胺使JV从2.3±0.4的对照值降低了65%,降至0.8±0.1 nl/mm·分钟。乙酰唑胺的剂量反应曲线表明,抑制JtCO2的半数抑制浓度(I50)为4 microM。乙酰唑胺的无活性类似物叔丁基乙酰唑胺不会降低JV或抑制碳酸氢盐重吸收,这表明乙酰唑胺对JtCO2的作用是特异性的碳酸酐酶抑制作用。由于碳酸酐酶抑制作用完全阻断了碳酸氢盐重吸收,因此无需假设碳酸循环或不依赖碳酸酐酶的碳酸氢盐重吸收。
