Development and Application of Multiprobe Real-Time PCR Method Targeting the hsp65 Gene for Differentiation of Mycobacterium Species from Isolates and Sputum Specimens

Abstract

ABSTRACT We developed a multiprobe real-time PCR assay targeting hsp65 (HMPRT-PCR) to detect and identify mycobacterial isolates and isolates directly from sputum specimens. Primers and probes for HMPRT-PCR were designed on the basis of the hsp65 gene sequence, enabling the recognition of seven pathogenic mycobacteria, including Mycobacterium tuberculosis , M. avium , M. intracellulare , M. kansasii , M. abscessus , M. massiliense , and M. fortuitum. This technique was applied to 24 reference and 133 clinical isolates and differentiated between all strains with 100% sensitivity and specificity. Furthermore, this method was applied to sputum specimens from 117 consecutive smear-positive patients with smear results of from a trace to 3+. These results were then compared to those obtained using the rpoB PCR-restriction analysis method with samples from cultures of the same sputum specimens. The HMPRT-PCR method correctly identified the mycobacteria in 89 samples (76.0%, 89/117), and moreover, the sensitivity level was increased to 94.3% (50/53) for sputa with an acid-fast bacillus score equal to or greater than 2+. Our data suggest that this novel HMPRT-PCR method could be a promising approach for detecting pathogenic mycobacterial species from sputum samples and culture isolates routinely in a clinical setting.