The emergence of rifampin-resistant strains of pathogenic mycobacteria has threatened the usefulness of this drug in treating mycobacterial diseases. Critical to the treatment of individuals infected with resistant strains is the rapid identification of these strains directly from clinical specimens. It Rifampin is an important component of effective multidrug therapies for tuberculosis and leprosy; however, widespread use has led to the emergence of rifampin-resistant (Rif) strains, threatening its usefulness in treating mycobacterial diseases (4-6, 8, 26, 27). Rapid information about drug susceptibility patterns is critical to the treatment of individuals with mycobacterial disease for which rifampin is indicated. Since conventional drug susceptibility testing can require 2 to 4 weeks after growth detection (Mycobacterium tuberculosis) or up to a year (Mycobacterium leprae) in mouse footpads, improvements are needed to yield accurate analysis in a shorter time. DNA diagnostic assays have the potential to provide rapid analysis of rifampin resistance in mycobacteria because of their high degree of sensitivity and specificity and the fact that they do not rely on in vitro growth for results. Shortening the time between diagnosis and the onset of effective therapy should improve patients' survival (tuberculosis) or decrease physical deformities and ocular manifestations resulting in disabilities and blindness (leprosy).Developing such assays requires knowledge of the molecular basis of Rif' in pathogenic mycobacteria. Mutations resulting in the Rif' phenotype in prokaryotes have been mapped to the gene encoding the 1-subunit of the DNA-dependent RNA polymerase (rpoB gene) (10, 11). Recently, the entire rpoB genes of M. leprae (7) resistance have been identified in both species (8,12,28,29). To further characterize mutations associated with the Rif phenotype in M. tuberculosis, M. leprae, and other pathogenic mycobacteria, we developed a rapid PCR-based, DNA sequencing protocol targeted to a 305-bp region of rpoB. By direct DNA sequencing of PCR products, the nucleic acid sequence within this region was determined in 4 rifampinsusceptible (Rifs) and 4 Rif' strains of M. leprae and in 12 Rif' and 110 Rif' strains of M. tuberculosis. In addition, mutations were identified in this region of Rif' strains of Mycobacterium africanum and Mycobacterium avium, the latter causing frequent opportunistic infections in immunocompromised hosts. On the basis of these results we have established conditions for a PCR-heteroduplex formation assay (PCR-HDF) for the rapid detection of the Rif' phenotype in pathogenic mycobacteria. MATERUILS AND METHODSMycobacterial strains. Rifampin-susceptible and -resistant strains of M. leprae were isolated initially from homogenates of skin biopsy samples from lepromatous leprosy patients not responding to antileprosy therapy, which included rifampin, and were subsequently defined as resistant to rifampin by the standard mouse footpad drug susceptibility assay (23). These strains were amplifie...
The 81-bp region of the rpoB gene in 66 Rif r Mycobacterium tuberculosis isolates from China, Japan, Korea, and Taiwan was analyzed. Twelve single-nucleotide substitutions in the rpoB gene were detected. The most prevalent mutations were at Ser-531 (52%), Asp-516 (17%), and His-526 (11%). Mutations were not found in seven (11%) of the isolates. Higher mutation rates in 50 Beijing family isolates were found than in other isolates for mutations at Asp-516 (18 and 12.5%, respectively) and His-526 (12 and 6.3%, respectively). The different rates of mutation may reflect the choice of rifamycin analogs.
Previously we reported the development of a highly sensitive enzyme-linked immunosorbent assay specific for anti-tuberculous glycolipid (anti-TBGL) for the rapid serodiagnosis of tuberculosis. In this study, the usefulness of an anti-TBGL antibody assay kit for rapid serodiagnosis was evaluated in a controlled multicenter study. Antibody titers in sera from 318 patients with active pulmonary tuberculosis (216 positive for Mycobacterium tuberculosis in smear and/or culture tests and 102 smear and culture negative and clinically diagnosed), 58 patients with old tuberculosis, 177 patients with other respiratory diseases, 156 patients with nonrespiratory diseases, and 454 healthy subjects were examined. Sera from 256 younger healthy subjects from among the 454 healthy subjects were examined as a control. When the cutoff point of anti-TBGL antibody titer was determined as 2.0 U/ml, the sensitivity for active tuberculosis patients was 81.1% and the specificity was 95.7%. Sensitivity in patients with smear-negative and culture-negative active pulmonary tuberculosis was 73.5%. Even in patients with noncavitary minimally advanced lesions, the positivity rate (60.0%) and the antibody titer (4.6 ؎ 9.4 U/ml) were significantly higher than those in the healthy group. These results indicate that this assay using anti-TBGL antibody is useful for the rapid serodiagnosis of active pulmonary tuberculosis.To eradicate tuberculosis, it is important to improve diagnostic techniques so that active tuberculosis can be treated at an early stage before tuberculous bacilli can be detected in the sputa. The tuberculin skin test is not useful in subjects with a previous history of active tuberculosis or Mycobacterium bovis BCG vaccination. Gene technology utilizing nucleic acid amplification has been successfully introduced for rapid diagnosis of pulmonary tuberculosis. Clinically, however, its usefulness is reduced in patients without sputum expectoration. In fact, in previous papers, including a report of the American Thoracic Society (ATS) Workshop in 1997, the sensitivity of gene diagnosis was reported to be about 50% in patients with acid-fast bacillus smear-negative pulmonary tuberculosis (4, 6, 8) and was particularly low (5 to 20%) in smear and culture-negative patients with active pulmonary tuberculosis (5, 12). A further drawback is that this test is expensive. Therefore, there has been strong demand for the development of rapid, reliable, and less costly diagnostic methods for the detection of pulmonary tuberculosis.We previously developed an enzyme immunoassay in which the glycolipid antigen trehalose 6,6Ј-dimycolate (TDM) purified from Mycobacterium tuberculosis H37Rv was used as an antigen for detecting antituberculosis immunoglobulins and showed that a glycolipid was an effective antigen for serodiagnosis (13, 16). Subsequently, by mixing TDM with more hydrophilic glycolipids, we constructed a new tuberculous glycolipid (TBGL) antigen and successfully established a sensitive serodiagnostic kit for tuberculosis using this ant...
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