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1.
Artículo en Inglés | MEDLINE | ID: mdl-33495223

RESUMEN

Screening strategies for antituberculosis compounds using Mycobacterium tuberculosis are time consuming and require biosafety level 3 (BSL3) facilities, which makes the development of high-throughput assays difficult and expensive. Mycobacterium marinum, a close genetic relative of M. tuberculosis, possesses several advantages as a suitable model for tuberculosis drug screening. However, despite the high genetic similarity, there are some obvious differences in susceptibility to some tuberculosis drugs between these two species, especially for the prodrugs ethionamide and isoniazid. In this study, we aimed to improve M. marinum as a model for antituberculosis drug identification by heterologous expression of two common drug activators, EthA and KatG. These two activators were overexpressed in M. marinum, and the strains were tested against ethionamide, isoniazid, and a library of established antimycobacterial compounds from TB Alliance to compare drug susceptibility. Both in vitro and in vivo using zebrafish larvae, these genetically modified M. marinum strains showed significantly higher susceptibility against ethionamide and isoniazid, which require activation by EthA and KatG. More importantly, a strain overexpressing both ethA and katG was potentially more susceptible to approximately 20% of the antituberculosis hit compounds from the TB Alliance library. Most of these compounds were activated by EthA in M. marinum Four of these compounds were selected for further analysis, and three of them showed obvious EthA-dependent activity against M. tuberculosis Overall, our developed M. marinum strains are valuable tools for high-throughput discovery of potential novel antituberculosis prodrugs.


Asunto(s)
Mycobacterium marinum , Mycobacterium tuberculosis , Profármacos , Tuberculosis Resistente a Múltiples Medicamentos , Animales , Antituberculosos/farmacología , Proteínas Bacterianas/genética , Isoniazida/farmacología , Mutación , Mycobacterium marinum/genética , Mycobacterium tuberculosis/genética , Profármacos/farmacología , Pez Cebra
2.
J Biol Chem ; 291(22): 11787-99, 2016 May 27.
Artículo en Inglés | MEDLINE | ID: mdl-27044743

RESUMEN

Mycobacterium tuberculosis is protected by an unusual and highly impermeable cell envelope that is critically important for the successful colonization of the host. The outermost surface of this cell envelope is formed by capsular polysaccharides that play an important role in modulating the initial interactions once the bacillus enters the body. Although the bioenzymatic steps involved in the production of the capsular polysaccharides are emerging, information regarding the ability of the bacterium to modulate the composition of the capsule is still unknown. Here, we study the mechanisms involved in regulation of mycobacterial capsule biosynthesis using a high throughput screen for gene products involved in capsular α-glucan production. Utilizing this approach we identified a group of mutants that all carried mutations in the ATP-binding cassette phosphate transport locus pst These mutants collectively exhibited a strong overproduction of capsular polysaccharides, including α-glucan and arabinomannan, suggestive of a role for inorganic phosphate (Pi) metabolism in modulating capsular polysaccharide production. These findings were corroborated by the observation that growth under low Pi conditions as well as chemical activation of the stringent response induces capsule production in a number of mycobacterial species. This induction is, in part, dependent on σ factor E. Finally, we show that Mycobacterium marinum, a model organism for M. tuberculosis, encounters Pi stress during infection, which shows the relevance of our findings in vivo.


Asunto(s)
Cápsulas Bacterianas/metabolismo , Embrión no Mamífero/metabolismo , Infecciones por Mycobacterium no Tuberculosas/tratamiento farmacológico , Mycobacterium marinum/efectos de los fármacos , Fosfatos/farmacología , Polisacáridos/metabolismo , Animales , Cápsulas Bacterianas/efectos de los fármacos , Embrión no Mamífero/efectos de los fármacos , Embrión no Mamífero/microbiología , Infecciones por Mycobacterium no Tuberculosas/microbiología , Pez Cebra
3.
Cell Microbiol ; 15(12): 2093-108, 2013 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-23902464

RESUMEN

The causative agent of tuberculosis (TB), Mycobacterium tuberculosis, remains an important worldwide health threat. Although TB is one of the oldest infectious diseases of man, a detailed understanding of the mycobacterial mechanisms underlying pathogenesis remains elusive. Here, we studied the role of the α(1→2) mannosyltransferase MptC in mycobacterial virulence, using the Mycobacterium marinum zebrafish infection model. Like its M. tuberculosis orthologue, disruption of M. marinum mptC (mmar_3225) results in defective elongation of mannose caps of lipoarabinomannan (LAM) and absence of α(1→2)mannose branches on the lipomannan (LM) and LAM mannan core, as determined by biochemical analysis (NMR and GC-MS) and immunoblotting. We found that the M. marinum mptC mutant is strongly attenuated in embryonic zebrafish, which rely solely on innate immunity, whereas minor virulence defects were observed in adult zebrafish. Strikingly, complementation with the Mycobacterium smegmatis mptC orthologue, which restored mannan core branching but not cap elongation, was sufficient to fully complement the virulence defect of the mptC mutant in embryos. Altogether our data demonstrate that not LAM capping, but mannan core branching of LM/LAM plays an important role in mycobacterial pathogenesis in the context of innate immunity.


Asunto(s)
Lipopolisacáridos/metabolismo , Mycobacterium marinum/inmunología , Mycobacterium marinum/patogenicidad , Sistema de Fosfotransferasa de Azúcar del Fosfoenolpiruvato/metabolismo , Animales , Carga Bacteriana , Inmunidad Innata , Lipopolisacáridos/química , Manosa/química , Infecciones por Mycobacterium no Tuberculosas/inmunología , Mycobacterium marinum/genética , Mycobacterium smegmatis/patogenicidad , Mycobacterium tuberculosis/inmunología , Mycobacterium tuberculosis/patogenicidad , Sistema de Fosfotransferasa de Azúcar del Fosfoenolpiruvato/genética , Tuberculosis/inmunología , Pez Cebra/inmunología , Pez Cebra/microbiología
4.
Microbiol Spectr ; 12(6): e0316823, 2024 Jun 04.
Artículo en Inglés | MEDLINE | ID: mdl-38722177

RESUMEN

Vitamin B12 (B12) serves as a critical cofactor within mycobacterial metabolism. While some pathogenic strains can synthesize B12 de novo, others rely on host-acquired B12. In this investigation, we studied the transport of vitamin B12 in Mycobacterium marinum using B12-auxotrophic and B12-sensitive strains by deleting metH or metE, respectively. These two enzymes rely on B12 in different ways to function as methionine synthases. We used these strains to select mutants affecting B12 scavenging and confirmed their phenotypes during growth experiments in vitro. Our analysis of B12 uptake mechanisms revealed that membrane lipids and cell wall integrity play an essential role in cell envelope transport. Furthermore, we identified a potential transcription regulator that responds to B12. Our study demonstrates that M. marinum can take up exogenous B12 and that altering mycobacterial membrane integrity affects B12 uptake. Finally, during zebrafish infection using B12-auxotrophic and B12-sensitive strains, we found that B12 is available for virulent mycobacteria in vivo.IMPORTANCEOur study investigates how mycobacteria acquire essential vitamin B12. These microbes, including those causing tuberculosis, face challenges in nutrient uptake due to their strong outer layer. We focused on Mycobacterium marinum, similar to TB bacteria, to uncover its vitamin B12 absorption. We used modified strains unable to produce their own B12 and discovered that M. marinum can indeed absorb it from the environment, even during infections. Changes in the outer layer composition affect this process, and genes related to membrane integrity play key roles. These findings illuminate the interaction between mycobacteria and their environment, offering insights into combatting diseases like tuberculosis through innovative strategies. Our concise research underscores the pivotal role of vitamin B12 in microbial survival and its potential applications in disease control.


Asunto(s)
Membrana Externa Bacteriana , Mycobacterium marinum , Vitamina B 12 , Pez Cebra , Mycobacterium marinum/genética , Mycobacterium marinum/metabolismo , Vitamina B 12/metabolismo , Animales , Pez Cebra/microbiología , Membrana Externa Bacteriana/metabolismo , Proteínas Bacterianas/metabolismo , Proteínas Bacterianas/genética , Permeabilidad de la Membrana Celular , Transporte Biológico , Membrana Celular/metabolismo , Infecciones por Mycobacterium no Tuberculosas/microbiología
5.
Mol Microbiol ; 73(3): 329-40, 2009 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-19602152

RESUMEN

ESX-5 is one of the five type VII secretion systems found in mycobacteria. These secretion systems are also known as ESAT-6-like secretion systems. Here, we have determined the secretome of ESX-5 by a proteomic approach in two different strains of Mycobacterium marinum. Comparison of the secretion profile of wild-type strains and their ESX-5 mutants showed that a number of PE_PGRS and PPE-MPTR proteins are dependent on ESX-5 for transport. The PE and PPE protein families are unique to mycobacteria, are highly expanded in several pathogenic species, such as Mycobacterium tuberculosis and M. marinum, and certain family members are cell surface antigens associated with virulence. Using a monoclonal antibody directed against the PGRS domain we showed that nearly all PE_PGRS proteins that are recognized by this antibody are missing in the supernatant of ESX-5 mutants. In addition to PE_PGRS and PPE proteins, the ESX-5 secretion system is responsible for the secretion of a ESAT-6-like proteins. Together, these data show that ESX-5 is probably a major secretion pathway for mycobacteria and that this system is responsible for the secretion of recently evolved PE_PGRS and PPE proteins.


Asunto(s)
Proteínas Bacterianas/metabolismo , Proteínas de la Membrana/metabolismo , Mycobacterium marinum/metabolismo , Proteoma , Antígenos Bacterianos/genética , Proteínas Bacterianas/genética , Clonación Molecular , ADN Bacteriano/genética , Genes Bacterianos , Prueba de Complementación Genética , Genoma Bacteriano , Proteínas de la Membrana/genética , Mycobacterium marinum/genética , Vías Secretoras
6.
Clin Transl Sci ; 13(6): 1060-1064, 2020 11.
Artículo en Inglés | MEDLINE | ID: mdl-32267997

RESUMEN

The zebrafish infected with Mycobacterium marinum (M. marinum) is an attractive tuberculosis disease model, showing similar pathogenesis to Mycobacterium tuberculosis (M. tuberculosis) infections in humans. To translate pharmacological findings from this disease model to higher vertebrates, a quantitative understanding of the natural growth of M. marinum in comparison to the natural growth of M. tuberculosis is essential. Here, the natural growth of two strains of M. marinum, E11 and MUSA , is studied over an extended period using an established model-based approach, the multistate tuberculosis pharmacometric (MTP) model, for comparison to that of M. tuberculosis. Poikilotherm-derived strain E11 and human-derived strain MUSA were grown undisturbed up to 221 days and viability of cultures (colony forming unit (CFU)/mL) was determined by plating at different time points. Nonlinear mixed effects modeling using the MTP model quantified the bacterial growth, the transfer among fast, slow, and non-multiplying states, and the inoculi. Both strains showed initial logistic growth, reaching a maximum after 20-25 days for E11 and MUSA , respectively, followed by a decrease to a new plateau. Natural growth of both E11 and MUSA was best described with Gompertz growth functions. For E11, the inoculum was best described in the slow-multiplying state, for MUSA in the fast-multiplying state. Natural growth of E11 was most similar to that of M. tuberculosis, whereas MUSA showed more aggressive growth behavior. Characterization of natural growth of M. marinum and quantitative comparison with M. tuberculosis brings the zebrafish tuberculosis disease model closer to the quantitative translational pipeline of antituberculosis drug development.


Asunto(s)
Antituberculosos/farmacología , Mycobacterium marinum/crecimiento & desarrollo , Tuberculosis/tratamiento farmacológico , Animales , Antituberculosos/uso terapéutico , Recuento de Colonia Microbiana , Modelos Animales de Enfermedad , Evaluación Preclínica de Medicamentos/métodos , Humanos , Modelos Biológicos , Mycobacterium marinum/efectos de los fármacos , Mycobacterium marinum/aislamiento & purificación , Mycobacterium marinum/patogenicidad , Mycobacterium tuberculosis/efectos de los fármacos , Mycobacterium tuberculosis/crecimiento & desarrollo , Mycobacterium tuberculosis/patogenicidad , Tuberculosis/microbiología , Pez Cebra/microbiología
7.
Biol Open ; 7(2)2018 Feb 02.
Artículo en Inglés | MEDLINE | ID: mdl-29437557

RESUMEN

The central nervous system (CNS) has specific barriers that protect the brain from potential threats and tightly regulate molecular transport. Despite the critical functions of the CNS barriers, the mechanisms underlying their development and function are not well understood, and there are very limited experimental models for their study. Claudin 5 is a tight junction protein required for blood brain barrier (BBB) and, probably, choroid plexus (CP) structure and function in vertebrates. Here, we show that the gene claudin 5a is the zebrafish orthologue with high fidelity expression, in the BBB and CP barriers, that demonstrates the conservation of the BBB and CP between humans and zebrafish. Expression of claudin 5a correlates with developmental tightening of the BBB and is restricted to a subset of the brain vasculature clearly delineating the BBB. We show that claudin 5a-expressing cells of the CP are ciliated ependymal cells that drive fluid flow in the brain ventricles. Finally, we find that CP development precedes BBB development and that claudin 5a expression occurs simultaneously with angiogenesis. Thus, our novel transgenic zebrafish represents an ideal model to study CNS barrier development and function, critical in understanding the mechanisms underlying CNS barrier function in health and disease.

8.
Sci Rep ; 7(1): 10665, 2017 09 06.
Artículo en Inglés | MEDLINE | ID: mdl-28878275

RESUMEN

Cytochrome bd is a component of the oxidative phosphorylation pathway in many Gram-positive and Gram-negative bacteria. Next to its role as a terminal oxidase in the respiratory chain this enzyme plays an important role as a survival factor in the bacterial stress response. In Mycobacterium tuberculosis and related mycobacterial strains, cytochrome bd is an important component of the defense system against antibacterial drugs. In this report we describe and evaluate an mCherry-based fluorescent reporter for detection of cytochrome bd expression in Mycobacterium marinum. Cytochrome bd was induced by mycolic acid biosynthesis inhibitors such as isoniazid and most prominently by drugs targeting oxidative phosphorylation. We observed no induction by inhibitors of protein-, DNA- or RNA-synthesis. The constructed expression reporter was suitable for monitoring mycobacterial cytochrome bd expression during mouse macrophage infection and in a zebrafish embryo infection model when using Mycobacterium marinum. Interestingly, in both these infection models cytochrome bd levels were considerably higher than during in vitro culturing of M. marinum. The expression reporter described here can be a valuable tool for elucidating the role of cytochrome bd as a survival factor.


Asunto(s)
Antibacterianos/farmacología , Citocromos/genética , Regulación Bacteriana de la Expresión Génica , Genes Reporteros , Infecciones por Mycobacterium/microbiología , Mycobacterium/efectos de los fármacos , Mycobacterium/genética , Animales , Macrófagos , Pruebas de Sensibilidad Microbiana , Plásmidos/genética , Pez Cebra
9.
Sci Rep ; 5: 15443, 2015 Oct 21.
Artículo en Inglés | MEDLINE | ID: mdl-26487098

RESUMEN

Although Bacillus Calmette-Guérin (BCG) vaccines against tuberculosis have been available for more than 90 years, their effectiveness has been hindered by variable protective efficacy and a lack of lasting memory responses. One factor contributing to this variability may be the diversity of the BCG strains that are used around the world, in part from genomic changes accumulated during vaccine production and their resulting differences in gene expression. We have compared the genomes and transcriptomes of a global collection of fourteen of the most widely used BCG strains at single base-pair resolution. We have also used quantitative proteomics to identify key differences in expression of proteins across five representative BCG strains of the four tandem duplication (DU) groups. We provide a comprehensive map of single nucleotide polymorphisms (SNPs), copy number variation and insertions and deletions (indels) across fourteen BCG strains. Genome-wide SNP characterization allowed the construction of a new and robust phylogenic genealogy of BCG strains. Transcriptional and proteomic profiling revealed a metabolic remodeling in BCG strains that may be reflected by altered immunogenicity and possibly vaccine efficacy. Together, these integrated-omic data represent the most comprehensive catalogue of genetic variation across a global collection of BCG strains.


Asunto(s)
Vacuna BCG/genética , Pared Celular/genética , Proteómica , Tuberculosis/genética , Aclimatación/genética , Vacuna BCG/administración & dosificación , Pared Celular/efectos de los fármacos , Variaciones en el Número de Copia de ADN/genética , Regulación de la Expresión Génica , Genoma Bacteriano , Humanos , Mycobacterium bovis/efectos de los fármacos , Mycobacterium bovis/patogenicidad , Filogenia , Polimorfismo de Nucleótido Simple , Tuberculosis/microbiología , Tuberculosis/prevención & control
10.
Mol Microbiol ; 62(3): 667-79, 2006 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-17076665

RESUMEN

Mycobacterial genomes contain two unique gene families, the so-called PE and PPE gene families, which are highly expanded in the pathogenic members of this genus. Here we report that one of the PPE proteins, i.e. PPE41, is secreted by pathogenic mycobacteria, both in culture and in infected macrophages. As PPE41 lacks a signal sequence a dedicated secretion system must be involved. A single gene was identified in Mycobacterium marinum that showed strongly reduced PPE41 secretion. This gene was located in a gene cluster whose predicted proteins encode components of an ESAT-6-like secretion system. This cluster, designated ESX-5, is conserved in various pathogenic mycobacteria, but not in the saprophytic species Mycobacterium smegmatis. Therefore, different regions of this cluster were introduced in M. smegmatis. Only introduction of the complete ESX-5 locus resulted in efficient secretion of heterologously expressed PPE41. This PPE secretion system is also involved in the virulence of pathogenic mycobacteria, as the ESX-5 mutant of M. marinum was affected in spreading to uninfected macrophages.


Asunto(s)
Antígenos Bacterianos/metabolismo , Proteínas Bacterianas/metabolismo , Mycobacterium/fisiología , Mycobacterium/patogenicidad , Animales , Antígenos Bacterianos/genética , Proteínas Bacterianas/genética , Células Cultivadas , Humanos , Macrófagos/microbiología , Familia de Multigenes , Mutación , Transporte de Proteínas
11.
Infect Immun ; 71(5): 2907-10, 2003 May.
Artículo en Inglés | MEDLINE | ID: mdl-12704167

RESUMEN

Genetic analysis of two Helicobacter pylori strains isolated from a single gastric biopsy showed evidence of extensive horizontal gene transfer. Several large recombinations were identified in the rdxA gene, which is involved in metronidazole resistance.


Asunto(s)
Cromosomas Bacterianos , Mucosa Gástrica/microbiología , Helicobacter pylori/genética , Recombinación Genética , Alelos , Secuencia de Bases , Farmacorresistencia Bacteriana , Helicobacter pylori/efectos de los fármacos , Metronidazol/farmacología , Datos de Secuencia Molecular , Nitrorreductasas/genética
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