Engstrom F L, White H S, Kemp J W, Woodbury D M
Epilepsia. 1986 Jan-Feb;27(1):19-26. doi: 10.1111/j.1528-1157.1986.tb03496.x.
The clinical utility of the carbonic anhydrase (CA) inhibitor acetazolamide (ACTZ) is limited because of rapid development of tolerance to its effects. Tolerance is thought to develop as a result of glial cell proliferation and/or increased CA synthesis. DBA mice, susceptible to audiogenic seizures (AGSs) in an age-dependent manner, have increased CA activity as compared with C57 (non-audiogenic seizure susceptible) mice at 21 and 110 days of age. The present work utilized ACTZ to help determine the relationship between increased CA activity in brain and AGSs in DBA mice. Also, minimal electroshock seizure threshold (EST) was measured at various ages in DBA and C57 mice to determine age-related changes in CNS excitability. EST was significantly lower in DBA as compared with C57 mice at 18 days and between 40 and 115 days of age, suggesting that DBA mice remain hyperexcitable to electrical stimulation after they develop resistance to AGSs. ACTZ ED50s against maximal electroshock seizures (MES) were significantly higher in DBA as compared with C57 mice at 26,36, and 115 days of age. This finding correlates with higher CA activity in this strain at 110 days of age, noted previously. However, at 21 days of age, when CA activity is also higher in DBA versus C57 mice, there were no significant differences in ACTZ ED50s against MES between the strains. ACTZ ED50s against AGSs in DBA mice were considerably lower than ACTZ ED50s against MES in either strain, suggesting that a particular fraction of CA is intimately involved in the production of AGSs.(ABSTRACT TRUNCATED AT 250 WORDS)
碳酸酐酶(CA)抑制剂乙酰唑胺(ACTZ)的临床应用受到限制,因为其作用效果会迅速产生耐受性。耐受性被认为是由于胶质细胞增殖和/或CA合成增加所致。DBA小鼠以年龄依赖性方式易患听源性癫痫发作(AGS),在21日龄和110日龄时,与C57(不易患听源性癫痫发作)小鼠相比,其CA活性增加。本研究利用ACTZ来帮助确定DBA小鼠脑中CA活性增加与AGS之间的关系。此外,在不同年龄测量DBA和C57小鼠的最小电休克惊厥阈值(EST),以确定中枢神经系统兴奋性的年龄相关变化。在18日龄以及40至115日龄之间,DBA小鼠的EST显著低于C57小鼠,这表明DBA小鼠在对AGS产生抗性后,对电刺激仍保持高度兴奋。在26、36和115日龄时,DBA小鼠对抗最大电休克惊厥(MES)的ACTZ半数有效剂量(ED50)显著高于C57小鼠。这一发现与之前观察到的该品系在110日龄时较高的CA活性相关。然而,在21日龄时,DBA小鼠的CA活性也高于C57小鼠,但两品系之间对抗MES的ACTZ ED50没有显著差异。DBA小鼠对抗AGS的ACTZ ED50远低于两品系中对抗MES的ACTZ ED50,这表明特定部分的CA与AGS的产生密切相关。(摘要截断于250字)
