Belén R Imperiale1, Ángel A Cataldi2, Nora S Morcillo1. 1. Reference Laboratory of Tuberculosis Control Program of Buenos Aires Province, Dr. Cetrangolo Hospital, Italia 1750, Florida 1602, Buenos Aires Province, Argentina. 2. Biotechnology Institute, National Institute of Agricultural Technology (INTA), Los Reseros y Nicolás Repetto s/n, 1686 Hurlingham, Buenos Aires Province, Argentina. Electronic address: cataldi.angeladrian@inta.gob.ar.
Abstract
BACKGROUND: Latent tuberculosis has been associated with the persistence of dormant Mycobacterium tuberculosis in the organism of infected individuals, who are reservoirs of the bacilli and the source for spreading the disease in the community. New active anti-TB drugs exerting their metabolic action at different stages and on latent/dormant bacilli are urgently required to avoid endogenous reactivations and to be part of treatments of multi- and extensively-drug resistant tuberculosis (M/XDR-TB). It was previously reported that azole drugs are active against M. tuberculosis. For that reason, the aims of this study were to determine the in vitro activity of azole drugs, imidazole (clotrimazole, CLO and econazole, ECO) and nitroimidazole (metronidazole, MZ and ipronidazole, IPZ), against a collection of MDR M. tuberculosis clinical isolates; and to analyze their potential use in both the LTB and the active forms of M/XDR-TB treatments. METHODS: A total of 55 MDR M. tuberculosis isolates and H37Rv were included. MZ and IPZ activity against M. tuberculosis isolates were tested using anaerobic culture conditions. The activity of ECO and CLO was measured by the minimal inhibitory concentration (MIC) using a microdilution colorimetric method. RESULTS: MZ and IPZ showed bacteriostatic activity against M. tuberculosis strains. MIC50 and MIC90 to ECO was 4.0μg/ml, while MIC50 to CLO was 4.0μg/ml and MIC90 was 8.0μg/ml respectively. CONCLUSION: All azole compounds tested in the study showed inhibitory activity against MDR M. tuberculosis clinical isolates.
BACKGROUND: Latent tuberculosis has been associated with the persistence of dormant Mycobacterium tuberculosis in the organism of infected individuals, who are reservoirs of the bacilli and the source for spreading the disease in the community. New active anti-TB drugs exerting their metabolic action at different stages and on latent/dormant bacilli are urgently required to avoid endogenous reactivations and to be part of treatments of multi- and extensively-drug resistant tuberculosis (M/XDR-TB). It was previously reported that azole drugs are active against M. tuberculosis. For that reason, the aims of this study were to determine the in vitro activity of azole drugs, imidazole (clotrimazole, CLO and econazole, ECO) and nitroimidazole (metronidazole, MZ and ipronidazole, IPZ), against a collection of MDR M. tuberculosis clinical isolates; and to analyze their potential use in both the LTB and the active forms of M/XDR-TB treatments. METHODS: A total of 55 MDR M. tuberculosis isolates and H37Rv were included. MZ and IPZ activity against M. tuberculosis isolates were tested using anaerobic culture conditions. The activity of ECO and CLO was measured by the minimal inhibitory concentration (MIC) using a microdilution colorimetric method. RESULTS: MZ and IPZ showed bacteriostatic activity against M. tuberculosis strains. MIC50 and MIC90 to ECO was 4.0μg/ml, while MIC50 to CLO was 4.0μg/ml and MIC90 was 8.0μg/ml respectively. CONCLUSION: All azole compounds tested in the study showed inhibitory activity against MDR M. tuberculosis clinical isolates.