Schwartz J H, Rosen S, Steinmetz P R
J Clin Invest. 1972 Oct;51(10):2653-62. doi: 10.1172/JCI107083.
The function of carbonic anhydrase in H(+) secretion by the turtle bladder was studied in vitro. Dose response curves were obtained for the carbonic anhydrase inhibitors, acetazolamide and ethoxzolamide, with and without addition of CO(2) to the system. In addition, carbonic anhydrase was assayed in homogenates of mucosal cells. The activity in the homogenates was 155+/-16 U/g dry wt, of which only 11 U represented contamination from erythrocytes; after addition of 5 x 10(-6)m acetazolamide, no enzyme activity was detectable. In the intact preparation free of exogenous CO(2), the dose response curve for acetazolamide showed two plateaus of inhibition, one at 50% and one at more than 80% inhibition. At 50% inhibition (from 5 x 10(-6) to 5 x 10(-5)m acetazolamide), H(+) secretion was restored or enhanced by CO(2) addition to the same extent as bladders not exposed to acetazolamide. At concentrations of more than 1 x 10(-4)m, H(+) secretion was no longer restorable by CO(2). Unlike acetazolamide, ethoxzolamide caused progressive inhibition of H(+) secretion in the CO(2)-free system. The maximal extent of inhibition with ethoxzolamide and the behavior of inhibition in the presence of 2.5% CO(2) were the same as for acetazolamide. Evidence is presented that all surface epithelial cells secrete H(+) and generate OH(-) within the cell interior. The capacity of cells to dispose of OH(-) by CO(2) hydroxylation varies with the availability of cytoplasmic carbonic anhydrase. A small population of cells contains abundant carbonic anhydrase and secretes at high rates even when CO(2) is in short supply. On the basis of these results and histochemical data on the distribution of carbonic anhydrase within the mucosa, an analysis is presented of the epithelial organization of acidification by the turtle bladder.
对乌龟膀胱碳酸酐酶在氢离子分泌中的作用进行了体外研究。分别在系统中添加和不添加二氧化碳的情况下,获得了碳酸酐酶抑制剂乙酰唑胺和乙氧唑胺的剂量反应曲线。此外,还对黏膜细胞匀浆中的碳酸酐酶进行了测定。匀浆中的活性为155±16 U/g干重,其中只有11 U代表来自红细胞的污染;添加5×10⁻⁶m乙酰唑胺后,未检测到酶活性。在无外源二氧化碳的完整制剂中,乙酰唑胺的剂量反应曲线显示出两个抑制平台,一个在50%抑制率处,另一个在超过80%抑制率处。在50%抑制率时(5×10⁻⁶至5×10⁻⁵m乙酰唑胺),添加二氧化碳可使氢离子分泌恢复或增强,程度与未接触乙酰唑胺的膀胱相同。在浓度超过1×10⁻⁴m时,二氧化碳不再能恢复氢离子分泌。与乙酰唑胺不同,乙氧唑胺在无二氧化碳系统中导致氢离子分泌逐渐受到抑制。乙氧唑胺的最大抑制程度以及在2.5%二氧化碳存在下的抑制行为与乙酰唑胺相同。有证据表明,所有表面上皮细胞都在细胞内部分泌氢离子并产生氢氧根离子。细胞通过二氧化碳羟基化处理氢氧根离子的能力随细胞质碳酸酐酶的可用性而变化。一小部分细胞含有丰富的碳酸酐酶,即使在二氧化碳供应不足时也能以高速率分泌。基于这些结果以及关于碳酸酐酶在黏膜内分布的组织化学数据,对乌龟膀胱酸化的上皮组织进行了分析。
