Optimized Tube Dilution Technique and Sole Carbon Utilization Assay for Anti-leptospiral In Vitro Screening of Plant Extracts
https://doi.org/10.56964/pidspj20202102002
- Author:
Ailyn G. Manglicmot-Yabes
1
;
Sharon Yvette Angelina M. Villanueva
1
;
Nina G. Gloriani
2
Author Information
1. University of the Philippines
2. St. Lukes Medical Center
- Publication Type:Journal Article
- Keywords:
Anti-leptospiral;
Tube dilution technique;
Phenotype microarray
- MeSH:
Leptospira;
Serogroup
- From:
Pediatric Infectious Disease Society of the Philippines Journal
2020;21(2):3-12
- CountryPhilippines
- Language:English
-
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.
- Full text:002_Vol-21-No-2_Yabes_Vitro_Screening_formattedv2.pdf
