The Reason for an Increase in Decomposition of Rifampicin in the Presence of Isoniazid under Acid Conditions

Saranjit Singh, T. Mariappan, N. Sharda, Sanjeev Kumar, A. Chakraborti
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引用次数: 82

Abstract

The poor bioavailability of rifampicin from fixed-dose combinations containing isoniazid has been attributed to isoniazid-catalysed degradation under acid conditions in the stomach. The mechanism by which isoniazid enhances rifampicin degradation is not known. The aim of this study was to determine the role of isoniazid in rifampicin decomposition. Degradation studies were performed in 0.1 M HCl at 37°, in absence and presence of isoniazid. Both rifampicin and isoniazid were analysed. The degradation of rifampicin was increased approximately threefold in the presence of isoniazid. Isoniazid itself was degraded to a lesser extent amounting to one-fifth of the fall of rifampicin. HPLC studies revealed that decomposition of rifampicin in acidic conditions in the absence of isoniazid stopped at the formation of 3-formylrifamycin, while the reaction in the presence of isoniazid proceeded to form a hydrazone between 3-formylrifamycin and isoniazid. The existence of hydrazone was confirmed by its isolation on a preparative column and comparison with an authentic sample synthesized from reaction of 3-formylrifamycin with isoniazid. We suggest that once 3-formylrifamycin is formed, it interacts with isoniazid to form the hydrazone, through a fast second-order reaction. As hydrazones are unstable in acid conditions, 3-formylrifamycin and isoniazid are regenerated in a reversible manner through a slower first-order reaction. In this complex reaction process, rifampicin is further degraded, while isoniazid is recovered.
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酸条件下异烟肼存在下利福平分解增加的原因
含有异烟肼的固定剂量组合中利福平的生物利用度较差归因于异烟肼在胃酸条件下催化降解。异烟肼促进利福平降解的机制尚不清楚。本研究的目的是确定异烟肼在利福平分解中的作用。在37°0.1 M HCl中,在不存在和不存在异烟肼的情况下进行降解研究。对利福平和异烟肼进行分析。在异烟肼的存在下,利福平的降解增加了大约三倍。异烟肼本身的降解程度较轻,仅为利福平的五分之一。HPLC研究发现,在没有异烟肼的酸性条件下,利福平的分解停止于生成3-甲酰基利福霉素,而在有异烟肼的情况下,反应继续进行,在3-甲酰基利福霉素和异烟肼之间形成腙。在制备柱上分离得到该化合物,并与异烟肼与3-甲酰基利福霉素反应合成的样品进行比较,证实了该化合物的存在。我们认为,一旦形成3-甲酰基利福霉素,它与异烟肼相互作用形成腙,通过一个快速的二级反应。由于腙在酸性条件下不稳定,3-甲酰基利福霉素和异烟肼通过较慢的一级反应以可逆的方式再生。在这个复杂的反应过程中,利福平被进一步降解,异烟肼被回收。
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