In vitro and in vivo activities of acylated derivatives of isoniazid against mycobacterium tuberculosis.

M. Hearn, M. Cynamon
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引用次数: 27

Abstract

Enzymatic acylation of the antitubercular isoniazid (INH) by N-acetyl transferases reduces the therapeutic effectiveness of the drug. Because it represents a major metabolic pathway for INH in human beings, such acetylation has serious consequences for tuberculosis treatment regimens. Among patients in whom this process is efficient, the "rapid acetylators," the resultant chronic underdosing of INH may give rise to the development of resistance, as well as inadequate therapy. Not much work has been done previously to characterize the antitubercular properties of other N2-acylisoniazids. In order to address the fundamental issue of the activities of these acylated derivatives of INH, a number of such compounds 1a-f were chemically synthesized for investigation by a method providing good yield and purity. In experiments in vitro against Mycobacterium tuberculosis, these compounds displayed minimum inhibitory concentration (MIC) values between several fold and several hundred fold greater than that of INH itself, on a molar basis, with some of the more active compounds having higher calculated values of log P. Among these derivatives, compound 1b, closely homologous to the INH metabolite 1a, N2-acetylisoniazid, provided unexpected protection in tuberculosis-infected mice. The authors conclude that such close structural congeners of metabolites of INH may serve as significant leads in antitubercular drug discovery and in the exploration of the mode of action of INH.
异烟肼酰化衍生物抗结核分枝杆菌的体内外活性研究。
n -乙酰转移酶对抗结核异烟肼(INH)的酶促酰化作用降低了药物的治疗效果。因为它代表了人类INH的主要代谢途径,这种乙酰化对结核病的治疗方案有严重的后果。在这一过程有效的患者中,“快速乙酰化”,由此导致的INH慢性剂量不足可能导致耐药性的发展,以及治疗不充分。以前对其他n2 -酰基异烟肼的抗结核性质的描述工作并不多。为了解决这些酰化INH衍生物活性的根本问题,我们用一种收率高、纯度高的方法合成了许多这类化合物。在体外抗结核分枝杆菌实验中,这些化合物的最小抑制浓度(MIC)值在摩尔基础上比INH本身高几倍到几百倍,其中一些活性更强的化合物具有更高的log p计算值。在这些衍生物中,与INH代谢物1a密切同源的化合物1b - n2 -乙酰异烟肼对结核病感染小鼠提供了意想不到的保护。作者认为,这种与INH代谢物结构相近的同源物可能为发现抗结核药物和探索INH的作用方式提供重要的线索。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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