Identification of genetic determinants of bedaquiline resistance in Mycobacterium tuberculosis in Ural region, Russia.

Collecting data on rare Mycobacterium tuberculosis (Mtb) clinical isolates with resistance to the new anti-tuberculosis drug bedaquiline is an important task for improving antimicrobial susceptibility testing methods. Nanopore whole genome sequencing, the proportion method on Middlebrook 7H11 medium, and BACTEC MGIT 960 assays were used to analyze genotypic and phenotypic resistance to bedaquiline. We found four mutations: atpE I66M, atpE А63Р, Rv0678 А36Т, and Rv0678 S53P in five isolates with different levels of phenotypic bedaquiline resistance. IMPORTANCE: Bedaquiline (BDQ) is a new anti-tuberculosis drug. The phenotypic and genotypic data describing the mechanism of drug resistance are critical for the design of rapid and accurate diagnostic tests. We consider that our work, which describes genotypic and phenotypic resistance to BDQ, can contribute to the standardization of drug susceptibility testing.

Molecular characteristics of Mycobacterium tuberculosis drug-resistant isolates from HIV- and HIV+ tuberculosis patients in Russia.

BACKGROUND: High burden of drug-resistant (DR) tuberculosis (TB) is a significant threat to national TB control programs all over the world and in the Russian Federation. Different Mycobacterium tuberculosis (MTB) genotypes are hypothesized to have specific characteristics affecting TB control programs. For example, Beijing strains are supposed to have higher mutation rates compared to strains of other genotypes and subsequently higher capability to develop drug-resistance. RESULTS: Clinical MTB isolates from HIV- and HIV+ patients from four regions of Russia were analyzed for genotypes and mutations conferring resistance to Isoniazid, Rifampicin, Ethambutol, aminoglycosides, and fluoroquinolones. Analysis of genotypes and polymorphism of genomic loci according to the HIV status of the patients - sources of MTB isolates were performed. Studied MTB isolates from HIV- TB patients belonged to 15 genotypes and from HIV + TB patients - to 6 genotypes. Beijing clinical isolates dominated in HIV- (64,7%) and HIV+ (74,4%) groups. Other isolates were of LAM (including LAM1 and LAM9), Ural, and 4 minor groups of genotypes (including 5 subclones T). The spectrum of genotypes in the HIV- group was broader than in the HIV+ group. PR of B0/W148 Beijing was significantly lower than of other Beijing genotypes in susceptible and MDR-XDR isolates. Rates of isolates belonging to non-Beijing genotypes were higher than Beijing in susceptible isolates from HIV- patients. CONCLUSIONS: Beijing genotype isolates prevailed in clinical isolates of all drug susceptibility profiles both from HIV- and HIV+ patients, although B0/W148 Beijing genotype did not dominate in this study. Genome loci and mutations polymorphisms were more pronounced in clinical isolates from HIV- patients, than from HIV+.

Practical approach to detection and surveillance of emerging highly resistant Mycobacterium tuberculosis Beijing 1071-32-cluster.

Ancient sublineage of the Mycobacterium tuberculosis Beijing genotype is endemic and prevalent in East Asia and rare in other world regions. While these strains are mainly drug susceptible, we recently identified a novel clonal group Beijing 1071-32 within this sublineage emerging in Siberia, Russia and present in other Russian regions. This cluster included only multi/extensive drug resistant (MDR/XDR) isolates. Based on the phylogenetic analysis of the available WGS data, we identified three synonymous SNPs in the genes Rv0144, Rv0373c, and Rv0334 that were specific for the Beijing 1071-32-cluster and developed a real-time PCR assay for their detection. Analysis of the 2375 genetically diverse M. tuberculosis isolates collected between 1996 and 2020 in different locations (European and Asian parts of Russia, former Soviet Union countries, Albania, Greece, China, Vietnam, Japan and Brazil), confirmed 100% specificity and sensitivity of this real-time PCR assay. Moreover, the epidemiological importance of this strain and the newly developed screening assay is further stressed by the fact that all identified Beijing 1071-32 isolates were found to exhibit MDR genotypic profiles with concomitant resistance to additional first-line drugs due to a characteristic signature of six mutations in rpoB450, rpoC485, katG315, katG335, rpsL43 and embB497. In conclusion, this study provides a set of three concordant SNPs for the detection and screening of Beijing 1071-32 isolates along with a validated real-time PCR assay easily deployable across multiple settings for the epidemiological tracking of this significant MDR cluster.

Mycobacterium tuberculosis Load in Host Cells and the Antibacterial Activity of Alveolar Macrophages Are Linked and Differentially Regulated in Various Lung Lesions of Patients with Pulmonary Tuberculosis.

Tuberculosis (TB) is a disease caused by Mycobacterium tuberculosis (Mtb) infection with the formation of a broad range of abnormal lung lesions within a single patient. Although host-pathogen interactions determine disease outcome, they are poorly understood within individual lesions at different stages of maturation. We compared Mtb load in a tuberculoma wall and the lung tissue distant from tuberculomas in TB patients. These data were combined with an analysis of activation and bactericidal statuses of alveolar macrophages and other cell subtypes examined both in ex vivo culture and on the histological sections obtained from the same lung lesions. The expression of pattern recognition receptors CD14, CD11b, and TLR-2, transcription factors HIF-1α, HIF-2α, and NF-κB p50 and p65, enzymes iNOS and COX-2, reactive oxygen species (ROS) biosynthesis, and lipid production were detected for various lung lesions, with individual Mtb loads in them. The walls of tuberculomas with insufficient inflammation and excessive fibrosis were identified as being the main niche for Mtb survival (single or as colonies) in non-foamy alveolar macrophages among various lung lesions examined. The identification of factors engaged in the control of Mtb infection and tissue pathology in local lung microenvironments, where host-pathogen relationships take place, is critical for the development of new therapeutic strategies.

Analysis of Mycobacterium tuberculosis Uptake by Alveolar Macrophages after Ex vivo Expansion Indicates Processing Host Cells with Pathogen Actually from Lung Tissue of Patients with Pulmonary Tuberculosis.

Background: Previously, the ex vivo cultures of alveolar macrophages were developed from the surgical samples of the lungs in patients with pulmonary tuberculosis (TB) to establish the unique features of Mycobacterium tuberculosis (Mtb) lifestyle in host cells, but the question has remained whether Mtb-infected cells are isolated from the human lungs or they may be the result of Mtb phagocytosis in ex vivo culture. The study was aimed to investigate Mtb uptake by TB patients' cells after ex vivo expansion. Methods: Alveolar macrophages were infected with the Mtb clinical isolates in ex vivo culture, and the acid-fast Mtb loads in the cells were analyzed. Immunofluorescent staining and the examination of cytological and histological preparations by confocal microscopy were applied to detect Mtb ligands and macrophage surface markers. Results: The studies shown the lack of Mtb uptake by patients' alveolar macrophages during experimental infection with highly virulent Mtb clinical isolates containing pathogen-associated molecular patterns lipoarabinomannan and Ag38 at all used multiplicity of infection including a very high dose of infection. This fact was probably determined by the absence of pattern recognition receptors CD14, TLR2, and CD11b on the plasma membrane of human cells, likely, as a result of cellular processing from the resected lung tissues of patients. Conclusion: The findings indicate that alveolar macrophages with single Mtb or Mtb in colonies, including those with cord-morphology, found in the ex vivo cell cultures of all TB patients examined, were isolated from the lungs, and they characterize the Mtb infection in patients at the time of surgery.

Molecular characteristics of Mycobacterium tuberculosis in the "closed" Russian town with limited population migration.

The aim of this study was to perform a molecular characterization of Mycobacterium tuberculosis strains circulating in one of the "closed" Russian cities under conditions of the limited population migration and high HIV coinfection rate. We analyzed 109 M. tuberculosis isolates recovered from TB patients in the Novouralsk municipality in the Ural area of Russia; 38.5% were from HIV coinfected TB patients and 19.3% patients were former prison inmates. The Beijing genotype was predominant (78.9%) while 57.8% and 17.4% of isolates belonged to the Beijing B0/W148 and Beijing 94-32-clusters, respectively. An atypical allele of the QUB26 VNTR locus (2 repeat units) was detected in 11 of 63 Beijing B0/W148 isolates. The non-Beijing isolates were subdivided into nine spoligotypes of the four genetic families (Ural, LAM, Haarlem, T), SIT35/Ural being the largest group (n = 9; 8.3%). Multidrug resistance (MDR) was detected in 63.6% and 83.7% of isolates from newly diagnosed and previously treated patients, respectively. Almost all isolates of the B0/W148-cluster were MDR (92.1%) compared to the Beijing 94-32-cluster (47.4%). No association was found between HIV status of patients and MDR-TB or particular genetic cluster. A combined contact and molecular investigation confirmed three family foci; in two of them, Ural SIT35 and Beijing B0/W148 strains were transmitted from HIV-infected sons to their fathers. To conclude, M. tuberculosis population in Novouralsk features an exceptionally high prevalence of the strongly MDR Beijing B0/W148-cluster and emergence of the B0/W148 substrain with unusual QUB26 allele. This situation was likely synergistically shaped by the limited population migration, high prevalence of the HIV coinfection and high proportion of the former prisoners. The existing organizational approaches to prevent TB transmission are insufficient and require a serious revision.

Mycobacterium tuberculosis with different virulence reside within intact phagosomes and inhibit phagolysosomal biogenesis in alveolar macrophages of patients with pulmonary tuberculosis.

Tuberculosis (TB) is a dangerous airborne disease caused by Mycobacterium tuberculosis (Mtb) and characterized by a tight interplay between pathogen and host cells, mainly alveolar macrophages. Studies of the mechanisms of Mtb survival within human cells during TB disease are extremely important for the development of new strategies and drugs for TB treatment. We have used the ex vivo cultures of alveolar macrophages and histological sections obtained from the resected lungs of patients with pulmonary TB to establish the unique features of Mtb lifestyle in host cells. Our data indicate that Mtb with different virulence, as single and in colonies, with or without cording morphology, are exclusively intravacuolar pathogens with intact phagosomal membranes in viable host cells of TB patients and Mtb-infected guinea pig. Mycobacteria were detected in the cytoplasm and/or damaged vacuoles only in alveolar macrophages with morphological signs of cell death after prolonged ex vivo culture, however Mtb were found inside phagosomes in viable alveolar macrophages or cells with apoptotic/necrotic morphology in the same ex vivo cell culture. The Mtb phagosomes interacted with human different endocytic pathways, but inhibited phagolysosomal biogenesis, while intracellular vesicles containing Mtb products were fused with lysosomes in the same host cells.

Mycobacterium tuberculosis cording in alveolar macrophages of patients with pulmonary tuberculosis is likely associated with increased mycobacterial virulence.

Mycobacterium tuberculosis (Mtb) is an infectious agent that causes tuberculosis (TB) in humans. A study of the volume of Mtb population and the detection of Mtb virulence in the lungs of patients with pulmonary TB are of great importance for understanding the infectious process and the outcome of the disease. We analyzed the functional state of Mtb and their number in alveolar macrophages obtained from the resected lungs of patients with TB in ex vivo culture and determined that the number of Mtb, referred mainly to the Beijing genotype family (A0 and B0/W148 clusters), were significantly different in cells between different patients. Only single Mtb were found in alveolar macrophages of some patients, while Mtb were actively replicated in colonies in alveolar macrophages of other patients, including cord morphology of Mtb growth (the indicator of Mtb virulence). Our data demonstrated association between the formation of Mtb cording in alveolar macrophages of patients and increased virulence of Mtb from the lungs of these patients in guinea pig TB model. The find of cording formation by replicating Mtb in human alveolar macrophages may be used for preliminary quick estimation of increased Mtb virulence in individual patients with pulmonary TB.

Ex vivo expansion of alveolar macrophages with Mycobacterium tuberculosis from the resected lungs of patients with pulmonary tuberculosis.

Tuberculosis (TB), with the Mycobacterium tuberculosis (Mtb) as the causative agent, remains to be a serious world health problem. Traditional methods used for the study of Mtb in the lungs of TB patients do not provide information about the number and functional status of Mtb, especially if Mtb are located in alveolar macrophages. We have developed a technique to produce ex vivo cultures of cells from different parts of lung tissues surgically removed from patients with pulmonary TB and compared data on the number of cells with Mtb inferred by the proposed technique to the results of bacteriological and histological analyses used for examination of the resected lungs. The ex vivo cultures of cells obtained from the resected lungs of all patients were largely composed of CD14-positive alveolar macrophages, foamy or not, with or without Mtb. Lymphocytes, fibroblasts, neutrophils, and multinucleate Langhans giant cells were also observed. We found alveolar macrophages with Mtb in the ex vivo cultures of cells from the resected lungs of even those TB patients, whose sputum smears and lung tissues did not contain acid-fast Mtb or reveal growing Mtb colonies on dense medium. The detection of alveolar macrophages with Mtb in ex vivo culture as soon as 16-18 h after isolation of cells from the resected lungs of all TB patients suggests that the technique proposed for assessing the level of infection in alveolar macrophages of TB patients has higher sensitivity than do prolonged bacteriological or pathomorphological methods. The proposed technique allowed us to rapidly (in two days after surgery) determine the level of infection with Mtb in the cells of the resected lungs of TB patients and, by the presence or absence of Mtb colonies, including those with cording morphology, the functional status of the TB agent at the time of surgery.

Latin-American-Mediterranean lineage of Mycobacterium tuberculosis: Human traces across pathogen's phylogeography.

Currently, Mycobacterium tuberculosis isolates of Latin-American Mediterranean (LAM) family may be detected far beyond the geographic areas that coined its name 15years ago. Here, we established the framework phylogeny of this geographically intriguing and pathobiologically important mycobacterial lineage and hypothesized how human demographics and migration influenced its phylogeography. Phylogenetic analysis of LAM isolates from all continents based on 24 variable number of tandem repeats (VNTR) loci and other markers identified three global sublineages with certain geographic affinities and defined by large deletions RD115, RD174, and by spoligotype SIT33. One minor sublineage (spoligotype SIT388) appears endemic in Japan. One-locus VNTR signatures were established for sublineages and served for their search in published literature and geographic mapping. We suggest that the LAM family originated in the Western Mediterranean region. The most widespread RD115 sublineage seems the most ancient and encompasses genetically and geographically distant branches, including extremely drug resistant KZN in South Africa and LAM-RUS recently widespread across Northern Eurasia. The RD174 sublineage likely started its active spread in Brazil; its earlier branch is relatively dominated by isolates from South America and the derived one is dominated by Portuguese and South/Southeastern African isolates. The relatively most recent SIT33-sublineage is marked with enigmatic gaps and peaks across the Americas and includes South African clade F11/RD761, which likely emerged within the SIT33 subpopulation after its arrival to Africa. In addition to SIT388-sublineage, other deeply rooted, endemic LAM sublineages may exist that remain to be discovered. As a general conclusion, human mass migration appears to be the major factor that shaped the M. tuberculosis phylogeography over large time-spans.