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1.
PLoS Pathog ; 20(10): e1012451, 2024 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-39405360

RESUMO

The ability of the attaching and effacing pathogens enterohaemorrhagic Escherichia coli (EHEC) and Citrobacter rodentium to overcome colonisation resistance is reliant on a type 3 secretion system used to intimately attach to the colonic epithelium. This crucial virulence factor is encoded on a pathogenicity island known as the Locus of Enterocyte Effacement (LEE) but its expression is regulated by several core-genome encoded transcription factors. Here, we unveil that the core transcription factor PdhR, traditionally known as a regulator of central metabolism in response to cellular pyruvate levels, is a key activator of the LEE. Through genetic and molecular analyses, we demonstrate that PdhR directly binds to a specific motif within the LEE master regulatory region, thus activating type 3 secretion directly and enhancing host cell adhesion. Deletion of pdhR in EHEC significantly impacted the transcription of hundreds of genes, with pathogenesis and protein secretion emerging as the most affected functional categories. Furthermore, in vivo studies using C. rodentium, a murine model for EHEC infection, revealed that PdhR is essential for effective host colonization and maximal LEE expression within the host. Our findings provide new insights into the complex regulatory networks governing bacterial pathogenesis. This research highlights the intricate relationship between virulence and metabolic processes in attaching and effacing pathogens, demonstrating how core transcriptional regulators can be co-opted to control virulence factor expression in tandem with the cell's essential metabolic circuitry.


Assuntos
Citrobacter rodentium , Infecções por Enterobacteriaceae , Escherichia coli Êntero-Hemorrágica , Regulação Bacteriana da Expressão Gênica , Fatores de Virulência , Citrobacter rodentium/genética , Citrobacter rodentium/patogenicidade , Animais , Camundongos , Escherichia coli Êntero-Hemorrágica/patogenicidade , Escherichia coli Êntero-Hemorrágica/genética , Escherichia coli Êntero-Hemorrágica/metabolismo , Virulência , Fatores de Virulência/genética , Fatores de Virulência/metabolismo , Infecções por Enterobacteriaceae/microbiologia , Infecções por Enterobacteriaceae/metabolismo , Infecções por Enterobacteriaceae/genética , Humanos , Proteínas de Escherichia coli/metabolismo , Proteínas de Escherichia coli/genética , Infecções por Escherichia coli/microbiologia , Infecções por Escherichia coli/metabolismo , Carbono/metabolismo , Fatores de Transcrição/metabolismo , Fatores de Transcrição/genética , Fosfoproteínas/metabolismo , Fosfoproteínas/genética , Aderência Bacteriana , Proteínas de Bactérias/metabolismo , Proteínas de Bactérias/genética
2.
Microbiology (Reading) ; 166(8): 683-694, 2020 08.
Artigo em Inglês | MEDLINE | ID: mdl-32558638

RESUMO

The actinomycetes are Gram-positive bacteria belonging to the order Actinomycetales within the phylum Actinobacteria. They include members with significant economic and medical importance, for example filamentous actinomycetes such as Streptomyces species, which have a propensity to produce a plethora of bioactive secondary metabolites and form symbioses with higher organisms, such as plants and insects. Studying these bacteria is challenging, but also fascinating and very rewarding. As a Microbiology Society initiative, members of the actinomycete research community have been developing a Wikipedia-style resource, called ActinoBase, the purpose of which is to aid in the study of these filamentous bacteria. This review will highlight 10 publications from 2019 that have been of special interest to the ActinoBase community, covering 4 major components of actinomycete research: (i) development and regulation; (ii) specialized metabolites; (iii) ecology and host interactions; and (iv) technology and methodology.


Assuntos
Actinobacteria/fisiologia , Bases de Dados Factuais , Actinobacteria/genética , Actinobacteria/crescimento & desenvolvimento , Actinobacteria/metabolismo , Animais , Técnicas Bacteriológicas , Produtos Biológicos/metabolismo , Pesquisa Biomédica/instrumentação , Pesquisa Biomédica/organização & administração , Microbiologia Ambiental , Regulação Bacteriana da Expressão Gênica , Streptomyces/genética , Streptomyces/crescimento & desenvolvimento , Streptomyces/metabolismo , Streptomyces/fisiologia , Simbiose
3.
Microb Genom ; 8(7)2022 07.
Artigo em Inglês | MEDLINE | ID: mdl-35775972

RESUMO

Actinobacteria is an ancient phylum of Gram-positive bacteria with a characteristic high GC content to their DNA. The ActinoBase Wiki is focused on the filamentous actinobacteria, such as Streptomyces species, and the techniques and growth conditions used to study them. These organisms are studied because of their complex developmental life cycles and diverse specialised metabolism which produces many of the antibiotics currently used in the clinic. ActinoBase is a community effort that provides valuable and freely accessible resources, including protocols and practical information about filamentous actinobacteria. It is aimed at enabling knowledge exchange between members of the international research community working with these fascinating bacteria. ActinoBase is an anchor platform that underpins worldwide efforts to understand the ecology, biology and metabolic potential of these organisms. There are two key differences that set ActinoBase apart from other Wiki-based platforms: [1] ActinoBase is specifically aimed at researchers working on filamentous actinobacteria and is tailored to help users overcome challenges working with these bacteria and [2] it provides a freely accessible resource with global networking opportunities for researchers with a broad range of experience in this field.


Assuntos
Actinobacteria , Streptomyces , Actinobacteria/genética , Antibacterianos , Streptomyces/genética
4.
Microb Genom ; 7(11)2021 11.
Artigo em Inglês | MEDLINE | ID: mdl-34779763

RESUMO

Here, we characterize an uncommon set of telomeres from Streptomyces rimosus ATCC 10970, the parental strain of a lineage of one of the earliest-discovered antibiotic producers. Following the closure of its genome sequence, we compared unusual telomeres from this organism with the other five classes of replicon ends found amongst streptomycetes. Closed replicons of streptomycete chromosomes were organized with respect to their phylogeny and physical orientation, which demonstrated that different telomeres were not associated with particular clades and are likely shared amongst different strains by plasmid-driven horizontal gene transfer. Furthermore, we identified a ~50 kb origin island with conserved synteny that is located at the core of all streptomycete chromosomes and forms an axis around which symmetrical chromosome inversions can take place. Despite this chromosomal bilateral symmetry, a bias in parS sites to the right of oriC is maintained across the family Streptomycetaceae and suggests that the formation of ParB/parS nucleoprotein complexes on the right replichore is a conserved feature in streptomycetes. Consequently, our studies reveal novel features of linear bacterial replicons that, through their manipulation, may lead to improvements in growth and productivity of this important industrial group of bacteria.


Assuntos
Cromossomos Bacterianos , Replicon , Bactérias/genética , Cromossomos Bacterianos/genética , Plasmídeos/genética , Replicon/genética
5.
Front Bioeng Biotechnol ; 9: 740722, 2021.
Artigo em Inglês | MEDLINE | ID: mdl-34712653

RESUMO

Endophytic actinobacteria offer great potential as a source of novel bioactive compounds. In order to investigate the potential for the production of secondary metabolites by endophytes, we recovered a filamentous microorgansism from the tree Antidesma neurocarpum Miq. After phenotypic analysis and whole genome sequencing we demonstrated that this organism, SUK42 was a member of the actinobacterial genus Kitasatospora. This strain has a small genome in comparison with other type strains of this genus and has lost metabolic pathways associated with Stress Response, Nitrogen Metabolism and Secondary Metabolism. Despite this SUK42 can grow well in a laboratory environment and encodes a core genome that is consistent with other members of the genus. Finally, in contrast to other members of Kitasatospora, SUK42 encodes saccharide secondary metabolite biosynthetic gene clusters, one of which with similarity to the acarviostatin cluster, the product of which displays α-amylase inhibitory activity. As extracts of the host plant demonstrate this inhibitory activity, it suggests that the potential medicinal properties of A. neurocarpum Miq might be provided by the endophytic partner and illustrate the potential for exploitation of endophytes for clinical or industrial uses.

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