Laurent Kremer scite author profile

Mycobacterium abscessus is a rapidly growing Mycobacterium causing a wide spectrum of clinical syndromes. It now is recognized as a pulmonary pathogen to which cystic fibrosis patients have a particular susceptibility. The M. abscessus rough (R) variant, devoid of cell-surface glycopeptidolipids (GPLs), causes more severe clinical disease than the smooth (S) variant, but the underlying mechanisms of R-variant virulence remain obscure. Exploiting the optical transparency of zebrafish embryos, we observed that the increased virulence of the M. abscessus R variant compared with the S variant correlated with the loss of GPL production. The virulence of the R variant involved the massive production of serpentine cords, absent during S-variant infection, and the cords initiated abscess formation leading to rapid larval death. Cording occurred within the vasculature and was highly pronounced in the central nervous system (CNS). It appears that M. abscessus is transported to the CNS within macrophages. The release of M. abscessus from apoptotic macrophages initiated the formation of cords that grew too large to be phagocytized by macrophages or neutrophils. This study is a description of the crucial role of cording in the in vivo physiopathology of M. abscessus infection and emphasizes cording as a mechanism of immune evasion.morphotype | pathogenesis | granuloma | innate immunity T he rapidly growing mycobacterium (RGM) Mycobacterium abscessus (M. abscessus) is an emerging pathogen that infects a wide spectrum of tissues in humans, including lungs, skin, and soft tissues (1, 2). M. abscessus lung disease is highly prevalent in patients with cystic fibrosis (CF) and is becoming a major issue for most CF centers worldwide (3-6). Although M. abscessus is an RGM, it can persist and cause lung disease with caseous lesions (7).M. abscessus exists as two variants: rough (R) and smooth (S). Ex vivo and in vivo studies have described the hypervirulence phenotype of the R versus the S morphotype (8, 9), and epidemiological studies have confirmed the persistence and acute respiratory syndromes caused by the R morphotype (4, 10, 11). The major difference between the R and S variants is the loss of a surface-associated glycopeptidolipid (GPL) (12). Analysis of the pathogenicity of M. abscessus has been hampered by the lack of genetic tools and the restricted panel of cellular/animal models. However, new genetic tools, including conditional gene expression, recently have been applied to both the S and R morphotypes (13, 14), but developing new animal models amenable to the manipulation of the host response is still challenging. The M. abscessus genome harbors a mercury-resistance plasmid sharing 99% identity with an episome from the slowgrowing fish pathogen Mycobacterium marinum, indicating that these species have exchanged this plasmid in a shared ecosystem (15). M. abscessus has been described in wild and captive fish species (16,17), and hand infections caused by M. abscessus have been reported in healthy fish handlers (18), sug...

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Growth of Mycobacterium tuberculosis biofilms containing free mycolic acids and harbouring drug‐tolerant bacteria

Ojha

Baughn

Sambandan

et al. 2008

Molecular Microbiology

482

492

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SummarySuccessful treatment of human tuberculosis requires 6-9 months' therapy with multiple antibiotics. Incomplete clearance of tubercle bacilli frequently results in disease relapse, presumably as a result of reactivation of persistent drug-tolerant Mycobacterium tuberculosis cells, although the nature and location of these persisters are not known. In other pathogens, antibiotic tolerance is often associated with the formation of biofilms -organized communities of surface-attached cells -but physiologically and genetically defined M. tuberculosis biofilms have not been described. Here, we show that M. tuberculosis forms biofilms with specific environmental and genetic requirements distinct from those for planktonic growth, which contain an extracellular matrix rich in free mycolic acids, and harbour an important drug-tolerant population that persist despite exposure to high levels of antibiotics.

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Laurent Kremer

Mycobacterium abscessus cording prevents phagocytosis and promotes abscess formation

Growth of Mycobacterium tuberculosis biofilms containing free mycolic acids and harbouring drug‐tolerant bacteria

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