Abstract
OBJECTIVES: Whole-genome sequencing (WGS) was employed to investigate antibiotic resistance, virulence and transmission profiles of multidrug-resistant tuberculosis (MDR-TB) isolates from Shanghai, China. METHODS: A total of 306 MDR-TB clinical isolates were collected from Shanghai Pulmonary Hospital and underwent phenotypic drug susceptibility testing (DST) for common anti-TB drugs and WGS. Combined 778 published bacterial sequences, we performed phylogenetic analysis, resistance and virulence gene identification to understand the genetic relationships and resistance mechanisms among those strains. RESULTS: WGS determination, supported by DST, revealed high resistance rates for isoniazid (83.66%) and rifampicin (90.20%) among the MDR-TB isolates. Key resistance-associated mutations included katG Ser315Thr for isoniazid, rpoB mutations for rifampicin, and embB Met306Val for ethambutol. WGS demonstrated >90% concordance with culture-based DST for most drugs, except ethambutol that showed a 76.80% concordance. Analyses of virulence factors and phylogenetics revealed the genetically homogeneous, endemic MDR-TB population in Shanghai, with no evidence of recent transmission. CONCLUSIONS: This study highlights the genetic homogeneity and endemic nature of MDR-TB in Shanghai, providing insights into key resistance mechanisms of TB.