Abstract:Background
Mycobacterium intracellulare is a representative etiological agent of emerging pulmonary M. avium-intracellulare complex disease in the industrialized countries worldwide. The recent genome sequencing of clinical strains isolated from pulmonary M. avium-intracellulare complex disease has provided insight into the genomic characteristics of pathogenic mycobacteria, especially for M. avium; however, the genomic characteristics of M. intracellulare remain to be elucidated.
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“…On the other hand, the VNTR analysis, which has proved to be a very useful and highly discriminatory tool in molecular epidemiology studies, is unable to recognize species related to M. intracellulare , such as Mycobacterium paraintracellulare and Mycobacterium indicus pranii . The identification of clinical isolates genetically close to M. intracellulare , addressed by multigene sequence-based analysis [ 18 ] or comparative genomic analysis [ 19 ], is important to define virulence determinants and evolution of MAC strains causing pulmonary disease. Fig.…”
Background
M. intracellulare is a frequent causative pathogen of nontuberculous mycobacteria infection that causes infections in the respiratory tract, whose incidence is increasing in many countries. This study aimed at determining the VNTR-based genetic diversity of a collection of 39 M. intracellulare human strains isolated from respiratory specimens over the last 5 years.
Results
The VNTR analysis showed that M. intracellulare strains displayed a high genetic diversity, indicating that the M. intracellulare genotypes are quite heterogeneous in our geographical area. Moreover, a comparison with VNTR profiles of strains from other countries confirmed that genotypes of clinical strains of M. intracellulare are not related to geographical origin.
Conclusions
VNTR typing has proved to be a highly discriminatory method for better understanding the molecular epidemiology of M. intracellulare.
“…On the other hand, the VNTR analysis, which has proved to be a very useful and highly discriminatory tool in molecular epidemiology studies, is unable to recognize species related to M. intracellulare , such as Mycobacterium paraintracellulare and Mycobacterium indicus pranii . The identification of clinical isolates genetically close to M. intracellulare , addressed by multigene sequence-based analysis [ 18 ] or comparative genomic analysis [ 19 ], is important to define virulence determinants and evolution of MAC strains causing pulmonary disease. Fig.…”
Background
M. intracellulare is a frequent causative pathogen of nontuberculous mycobacteria infection that causes infections in the respiratory tract, whose incidence is increasing in many countries. This study aimed at determining the VNTR-based genetic diversity of a collection of 39 M. intracellulare human strains isolated from respiratory specimens over the last 5 years.
Results
The VNTR analysis showed that M. intracellulare strains displayed a high genetic diversity, indicating that the M. intracellulare genotypes are quite heterogeneous in our geographical area. Moreover, a comparison with VNTR profiles of strains from other countries confirmed that genotypes of clinical strains of M. intracellulare are not related to geographical origin.
Conclusions
VNTR typing has proved to be a highly discriminatory method for better understanding the molecular epidemiology of M. intracellulare.
“…Our understanding of the mechanism underlying MAC pathogenicity has been hindered by the lack of a universal animal model that reflects human progressive MAC-LD. Since MAC is generally less virulent than M. tuberculosis and has high genetic and virulence diversity ( 16 – 18 ), selecting a suitable strain is an important process for model establishment. In the present study, we developed a screening method for identifying virulent strains in immunocompetent mice by combining mixed infection and WGS analysis.…”
Section: Discussionmentioning
confidence: 99%
“…Since NTM are generally less virulent than M. tuberculosis , the difficulty in inducing a productive and sustained infection in immunocompetent mice is the current hurdle for the development of an experimental model ( 14 , 15 ). In addition, because there is high genetic diversity ( 16 , 17 ) and corresponding large diversity in virulence among MAC strains ( 18 ), choosing suitable strains could be an important process.…”
To promote research on
Mycobacterium avium
complex (MAC) pathogenicity, animal models reflecting human progressive MAC lung disease (MAC-LD) are needed. Because there is high genetic and virulence diversity among clinical MAC strains, choosing a suitable strain is an important process for developing a mouse model.
“…Besides efflux proteins, the ABC-F ATP-binding cassette ribosomal protection proteins (RPPs), excluding lsaB and poxtA, were also prevalently detected in MABC (> 1,575 strains). In addition, fourteen 23S rRNA methyltransferases (Erm (33), Erm (43), Erm (44), Erm (45), Erm (46), Erm (48), ErmA, ErmB, ErmC, ErmG, ErmH, ErmO, ErmT and ErmY) were also abundant. A betalactamase, blaLAP-1 which is also responsible for fluoroquinolone, aminoglycoside, tetracycline and rifamycin resistance [35], was detected in all but one (1,580) strain.…”
Section: Multidrug Resistancementioning
confidence: 99%
“…Before studying phylogenetic relatedness and evolutionary pressure on MABC resistomes, recombination in ARPs was first excluded as recombination can confound a selection analysis by causing mutation rate heterogeneity among sites [39]. After recombination analysis, 14 ARPs (arr-8, Erm (33), Erm (43), Erm (44), Erm (45), Erm (48), ErmA, ErmB, ErmC, ErmG, ErmT, ErmY, sul1 and sul2) were found to show recombination signals (homoplasies, recombination breakpoints and non-uniform distribution of sequence variations in alignments) in all three recombination detection methods (Additional file 1: Table S11) and were excluded from selection analysis.…”
Section: Recombination and Selection Analysesmentioning
Background
Mycobacteroides abscessus complex (MABC), an emerging pathogen, causes human infections resistant to multiple antibiotics. In this study, the genome data of 1,581 MABC strains were downloaded from NCBI database for phylogenetic relatedness inference, resistance profile identification and the estimation of evolutionary pressure on resistance genes in silico.
Results
From genes associated with resistance to 28 antibiotic classes, 395 putative proteins (ARPs) were identified, based on the information in two antibiotic resistance databases (CARD and ARG-ANNOT). The ARPs most frequently identified in MABC were those associated with resistance to multiple antibiotic classes, beta-lactams and aminoglycosides. After excluding ARPs that had undergone recombination, two ARPs were predicted to be under diversifying selection and 202 under purifying selection. This wide occurrence of purifying selection suggested that the diversity of commonly shared ARPs in MABC have been reduced to achieve stability. The unequal distribution of ARPs in members of the MABC could be due to horizontal gene transfer or ARPs pseudogenization events. Most (81.5%) of the ARPs were observed in the accessory genome and 72.2% ARPs were highly homologous to proteins associated with mobile genetic elements such as plasmids, prophages and viruses. On the other hand, with TBLASTN search, only 18 of the ARPs were identified as pseudogenes.
Conclusion
Altogether, our results suggested an important role of horizontal gene transfer in shaping the resistome of MABC.
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