COMPARISON OF THE ACID STABILITY OF AZITHROMYCIN AND ERYTHROMYCIN-A

被引:153
作者
FIESE, EF
STEFFEN, SH
机构
[1] Central Research Division, Pfizer Inc., Groton, CT
来源
JOURNAL OF ANTIMICROBIAL CHEMOTHERAPY | 1990年 / 25卷
关键词
D O I
10.1093/jac/25.suppl_A.39
中图分类号
R51 [传染病];
学科分类号
100401 ;
摘要
In acidic aqueous media, erythromycin A is rapidly degraded via intramolecular dehydration to form erythromycin-6, 9-hemiketal and then anhydroerythromycin, both of which possess little antimicrobial activity. Azithromycin, a new azalide antibiotic, has a methyl-substituted nitrogen in place of the carbonyl at the 9a position of the aglycone ring, thus blocking the internal dehydration pathway. As a result, azithromycin decomposition occurs primarily via acid-catalysed hydrolysis of the ether bond to the neutral cladinose sugar. Rate constants and the time for 10% decay (T1/10) were determined for both azithromycin and erythromycin A at pH 2 using various levels of acetonitrile cosolvent and constant ionic strength. Semi-log plots of the decay rate constants versus the reciprocal of the solution dielectric constants were used to extrapolate to totally aqueous conditions. In solution at 37ºC and pH 2 with ionic strength µ = 0.02, azithromycin was degraded with a T1/10 of 20.1 min while erythromycin underwent 10% decay in only 3.7 sec. The activation energy for hydrolysis of the ether bond connecting cladinose to azithromycin was 25.3 kcal/mol while the internal dehydration reaction of erythromycin had an activation energy of 15.6 kcal/mol. A solution stability profile was generated for azithromycin over the pH range of 1.0 to 4.1 at 30ºC. Stability was found to improve ten-fold for each unit increase in pH. © 1990 The British Society for Antimicrobial Chemotherapy.
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页码:39 / 47
页数:9
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