Genotyping and Molecular Characterization of Fluoroquinolone's Resistance Among Multidrug-Resistant Mycobacterium tuberculosis in Southwest of China

Although fluoroquinolones (FQs) are the backbone drugs for the treatment of multidrug-resistant tuberculosis (MDR-TB), the knowledge about the resistance pattern and molecular characterization of new-generation FQs in Chongqing is limited. This study aimed to investigate the resistance rate and mutation types of later-generation FQs against MDR-TB in Chongqing, and further to explore the relationship between different genotypes and phenotypes. A total of 967 clinical strains were characterized using multilocus sequence typing and drug susceptibility testing, followed by analysis of genotype/phenotype association. The 229 (23.7%, 229/967) isolates were identified as MDR-TB. The most effective agent against MDR-TB was gatifloxacin (GFX) (20.1%, 46/229), and the highest resistant rate was observed in ofloxacin (OFX) (41.0%, 94/229). Of the 190 strains (83.0%) identified as Beijing genotype, 111 isolates were modern Beijing genotype (58.4%) and 79 isolates were ancient Beijing genotype (41.6%). By analyzing 94 OFX-resistant isolates, 13 isolates were clustered with the cumulative clustering rate of 13.8% (13/94). Of the 91 isolates (39.7%, 91/229) with a mutation in gyrA gene, mutation in codon 94 was the most prevalent. Only 15 isolates (6.6%, 15/229) harbored a mutation in gyrB gene. There was no significant difference in the mutation rate of gyrA gene between Beijing and non-Beijing genotype, clustered isolates, and nonclustered isolates (p > 0.05).