Sporulation of Clostridium difficile in aerobic conditions is significantly protracted when exposed to sodium taurocholate

Journal of Medical Microbiology and Diagnosis Pub Date : 2016-05-31 DOI:10.4172/2161-0703.1000230

T. Worthington, A. Hilton

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引用次数: 1

Abstract

Elimination of Clostridium difficile spores from the clinical setting requires stringent application of infection control procedures including the use of hard-surface disinfectants. A unique combination of sodium taurocholate together with amino acids has been reported as an alternative approach to potentially eliminating spores of C. difficile by increasing their sensitivity to common disinfectants. In this study, the efficacy of this spore germination solution was investigated to explore its effect on the sporulation process under aerobic conditions. Vegetative cells of C. difficile NCTC 11204 (Ribotype 001) and R20291 (Ribotype 027) were exposed to the germination solution comprising 6.9 mM sodium taurocholate and 50 mM of the following amino acids: histidine, glycine, arginine, aspartic acid, valine in TRIS buffer, and a control solution. Total viable counts, the rate and extent of sporulation, and percentage recovery of vegetative cells in both ribotypes were assessed by culture. At 24 hours, sporulation was protracted in ribotypes 001 and 027 and there were significantly more (p=<0.01) vegetative cells following exposure to the germination solution compared to those exposed to the control. No vegetative cells of either ribotype exposed to the control solution were detected at 24 hours. At 48 and 72 hours, vegetative cells of ribotype 027 were not detected however a significantly higher (p<0.001) percentage (43%) of viable vegetative cells of C. difficile 001 were recovered by culture. Exposing vegetative cells of C. difficile to a germination solution protracts the sporulation process in aerobic conditions. In previous studies, the application this solution to spores of C. difficile has been shown to initiate germination thus rendering them more sensitive to common disinfectants. In this investigation, the findings demonstrate that sodium taurocholate protracts the sporulation process and may provide an additional adjunct to future C. difficile infection control strategies.

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当暴露于牛磺胆酸钠时，艰难梭菌在有氧条件下的产孢明显延长

从临床环境中消除艰难梭菌孢子需要严格执行感染控制程序，包括使用硬表面消毒剂。牛磺胆酸钠与氨基酸的独特组合已被报道为通过增加艰难梭菌对常见消毒剂的敏感性来潜在地消除其孢子的替代方法。本研究考察了该孢子萌发液在有氧条件下对产孢过程的影响。将艰难梭菌NCTC 11204 (Ribotype 001)和R20291 (Ribotype 027)的营养细胞暴露于含有6.9 mM牛牛胆酸钠和50 mM以下氨基酸的萌发液中:组氨酸、甘氨酸、精氨酸、天冬氨酸、缬氨酸(TRIS缓冲液)和对照液。通过培养评估两种核型的总活菌数、产孢率和程度以及营养细胞的回收率。24小时后，001型和027型核型的产孢延迟，与对照相比，暴露于萌发液后的营养细胞数量显著增加(p=<0.01)。暴露于对照液24小时未检测到任何一种核型的营养细胞。在48和72 h时，没有检测到027型的营养细胞，但通过培养恢复的艰难梭菌001的存活营养细胞比例(p<0.001)显著高于(43%)。在有氧条件下，艰难梭菌的营养细胞暴露在萌发液中可以延长产孢过程。在以前的研究中，将这种溶液应用于艰难梭菌孢子已被证明可以启动发芽，从而使它们对普通消毒剂更敏感。在这项研究中，研究结果表明牛磺胆酸钠延长了孢子形成过程，并可能为未来的艰难梭菌感染控制策略提供额外的辅助手段。

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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Journal of Medical Microbiology and Diagnosis

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