Optimized Tube Dilution Technique and Sole Carbon Utilization Assay for Anti-leptospiral In Vitro Screening of Plant Extracts

Pediatric Infectious Disease Society of the Philippines Journal Pub Date : 2020-12-01 DOI:10.56964/pidspj20202102002

Ailyn Manglicmot-Yabes, S. Y. Villanueva, N. Gloriani

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Abstract

Introduction: Leptospirosis is one of the neglected reemerging zoonoses that is of public health concern globally. The need to discover novel therapeutic alternatives for leptospirosis through screening for and elucidating the mechanism/s of the anti-leptospiral activity of plant extracts is therefore necessary. This study analyzes the optimized tube dilution technique and the BiologTM sole carbon utilization phenotype microarray as screening tool for anti-leptospiral activity of plant extracts. Methods: The suitability of the optimized tube dilution technique was evaluated by determining the minimum inhibitory concentration (MIC), minimum bactericidal concentration (MBC), and motility inhibition property of a plant extract and an antimicrobial control (pen G) against 4 dominantly circulating Leptospira serovars/serogroup in the Philippines. Likewise, the suitability of the BiologTM sole carbon utilization assay was evaluated using a plant extract and selected antimicrobials against L. interrogans serovar Manilae strain K64 and L. interrogans serovar Losbanos strain K37. Results: The MIC, MBC, and motility inhibition property of a plant extract and the antibiotic controls as well as its effect on the carbon utilization phenome of the Leptospira serovars gave consistent results, within and between several runs. With standard deviation = 0 for all serovars. The MIC and MBC of the antimicrobial control (pen G), the positive control, was 10 ug/ml. The growth control (leptospires without treatment), the negative control, showed presence of motile leptospires. The MIC and the MBC of the test plant extract was 250 ug/ml – 500 ug/ml. Results of the carbon utilization phenome or pattern of carbon utilization were consistent within the 3 replicates and between two runs. Conclusion: The optimized tube dilution technique and the BiologTM sole carbon utilization assay is a potential in vitro screening tool for determining anti-leptospiral activity of plant extracts.

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优化试管稀释技术及单碳利用法体外筛选抗钩端螺旋体植物提取物

钩端螺旋体病是一种被忽视的再次出现的人畜共患病，是全球公共卫生关注的问题。因此，有必要通过筛选和阐明植物提取物抗钩端螺旋体活性的机制来发现新的治疗方案。本研究分析了优化后的管稀释技术和BiologTM单碳利用表型芯片作为筛选植物提取物抗钩端螺旋体活性的工具。方法:通过测定一种植物提取物和一种抗菌对照(pen G)对菲律宾4种主要流行的钩端螺旋体血清型/血清群的最低抑菌浓度(MIC)、最低杀菌浓度(MBC)和运动抑制性能，评价优化后的管稀释技术的适用性。同样地，用一种植物提取物和选定的抗菌剂来评估BiologTM单一碳利用试验的适用性，这些抗菌剂分别针对审问L.菌株马尼拉菌株K64和审问L.菌株Losbanos菌株K37。结果:一种植物提取物的MIC、MBC和运动抑制特性与抗生素对照以及其对钩端螺旋体血清型碳利用现象的影响在几组内和几组之间的结果一致。所有变量的标准差均为0。阳性对照抗菌对照(笔G)的MIC和MBC为10 ug/ml。生长对照(未处理的钩体)为阴性对照，有活动钩体存在。试验植物提取物的MIC和MBC为250 ug/ml ~ 500 ug/ml。碳利用表型或碳利用模式在3个重复内和2个运行之间是一致的。结论:优化后的试管稀释技术和BiologTM单碳利用法是测定植物提取物抗钩端螺旋体活性的一种有潜力的体外筛选工具。

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Pediatric Infectious Disease Society of the Philippines Journal

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