Brian Ranger scite author profile

Mycobacterium ulcerans, the causative agent of Buruli ulcer, produces a macrolide toxin, mycolactone A/B, which is thought to play a major role in virulence. A disease similar to Buruli ulcer recently appeared in United States frog colonies following importation of the West African frog, Xenopus tropicalis. The taxonomic position of the frog pathogen has not been fully elucidated, but this organism, tentatively designated Mycobacterium liflandii, is closely related to M. ulcerans and Mycobacterium marinum, and as further evidence is gathered, it will most likely be considered a subspecies of one of these species. In this paper we show that M. liflandii produces a novel plasmid-encoded mycolactone, mycolactone E. M. liflandii contains all of the genes in the mycolactone cluster with the exception of that encoding CYP140A2, a putative p450 monooxygenase. Although the core lactone structure is conserved in mycolactone E, the fatty acid side chain differs from that of mycolactone A/B in the number of hydroxyl groups and double bonds. The cytopathic phenotype of mycolactone E is identical to that of mycolactone A/B, although it is less potent. To further characterize the relationship between M. liflandii and M. ulcerans, strains were analyzed for the presence of the RD1 region genes, esxA (ESAT-6) and esxB (CFP-10). The M. ulcerans genome strain has a deletion in RD1 and lacks these genes. The results of these studies show that M. liflandii contains both esxA and esxB.

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Globally Distributed Mycobacterial Fish Pathogens Produce a Novel Plasmid-Encoded Toxic Macrolide, Mycolactone F

Ranger

et al. 2006

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Mycobacterium ulcerans and Mycobacterium marinum are closely related pathogens which share an aquatic environment. The pathogenesis of these organisms in humans is limited by their inability to grow above 35°C. M. marinum causes systemic disease in fish but produces localized skin infections in humans. M. ulcerans causes Buruli ulcer, a severe human skin lesion. At the molecular level, M. ulcerans is distinguished from M. marinum by the presence of a virulence plasmid which encodes a macrolide toxin, mycolactone, as well as by hundreds of insertion sequences, particularly IS2404. There has been a global increase in reports of fish mycobacteriosis. An unusual clade of M. marinum has been reported from fish in the Red and Mediterranean Seas and a new mycobacterial species, Mycobacterium pseudoshottsii, has been cultured from fish in the Chesapeake Bay, United States. We have discovered that both groups of fish pathogens produce a unique mycolactone toxin, mycolactone F. Mycolactone F is the smallest mycolactone (molecular weight, 700) yet identified. The core lactone structure of mycolactone F is identical to that of M. ulcerans mycolactones, but a unique side chain structure is present. Mycolactone F produces apoptosis and necrosis on cultured cells but is less potent than M. ulcerans mycolactones. Both groups of fish pathogens contain IS2404. In contrast to M. ulcerans and conventional M. marinum, mycolactone F-producing mycobacteria are incapable of growth at above 30°C. This fact is likely to limit their virulence for humans. However, such isolates may provide a reservoir for horizontal transfer of the mycolactone plasmid in aquatic environments.Mycobacterium marinum is a globally distributed pathogen of marine and freshwater fish which also causes skin infections in humans (7, 9). M. marinum is phenotypically distinguished from other mycobacteria by its low optimal growth temperature, light-induced carotenoid production, and relatively rapid growth rate compared to other slow-growing Mycobacterium species. There is considerable heterogeneity among M. marinum isolates, and several subgroups have been described (28,(33)(34)(35).Mycobacteriosis was first diagnosed in fish from the Red Sea in 1990 (5). The infection was initially found in cultured sea bass (Dicentrarchus labrax) in Eilat and has since been found in over 20 different fish species and a hawksbill sea turtle. The Red Sea isolates differed phenotypically from other M. marinum strains by being scotochromogenic (having constitutive pigment production). Whereas most M. marinum strains form colonies on mycobacterial media within 8 days, initial growth was not obtained from these isolates for at least 2 weeks. Similar isolates have also been found in the Mediterranean Sea in Greece and Italy. Molecular characterization of the Israeli isolates from fish confirmed their identity as M. marinum, but analysis of the 16S rRNA gene showed that the isolates formed clades within the species (33, 34). Molecular comparison of the fish isolates with human isolates of...

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Raman Spectroscopy Reveals Phylogenetic and Physiological Signals for Carbonate Content in Bone Mineral

Petermann¹,

Skinner²,

Fabbri³

et al. 2016

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Brian Ranger

A Newly Discovered Mycobacterial Pathogen Isolated from Laboratory Colonies of Xenopus Species with Lethal Infections Produces a Novel Form of Mycolactone, the Mycobacterium ulcerans Macrolide Toxin

Globally Distributed Mycobacterial Fish Pathogens Produce a Novel Plasmid-Encoded Toxic Macrolide, Mycolactone F

Raman Spectroscopy Reveals Phylogenetic and Physiological Signals for Carbonate Content in Bone Mineral

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