Spread of a low-fitness drug-resistant Mycobacterium tuberculosis strain in a setting of high human immunodeficiency virus prevalence.

The fitness cost associated with the evolution of resistance to rifampin in Mycobacterium tuberculosis may be different in clinical isolates compared to in vitro-generated mutants. An atypical Beijing strain (attenuated phenotype) demonstrated the ability to spread despite acquiring resistance to rifampin. Transmission was linked to human immunodeficiency virus coinfection (P = 0.029), raising concern for the spread of drug resistance in vulnerable populations.

An outbreak of drug-resistant tuberculosis caused by a Beijing strain in the western Cape, South Africa.

During October 2005, four children in a school in Cape Town were identified with multidrug-resistant tuberculosis (MDR-TB). Genetic analysis confirmed that these isolates belonged to a single cluster (Beijing cluster 220) and that all harboured a -15 inhA(C-T) promoter mutation demonstrating transmission. Genetic analysis of isolates cultured from patients from the Boland-Overberg-South Cape-Karoo and Cape Town regions showed that 28% (58/209) of patients infected with a Beijing strain had the cluster 220 genotypes and that all harboured the same -15 inhA(C-T) promoter mutation. The presence of these transmissible MDR-TB strains may pose a threat to the community, and rigorous infection control measures are needed to ensure the safety of those exposed.