- Volume 168, Issue 11, 2022
Volume 168, Issue 11, 2022
- Reviews
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Efflux-mediated tolerance to cationic biocides, a cause for concern?
More LessAbstract
With an increase in the number of isolates resistant to multiple antibiotics, infection control has become increasingly important to help combat the spread of multi-drug-resistant pathogens. An important component of this is through the use of disinfectants and antiseptics (biocides). Antibiotic resistance has been well studied in bacteria, but little is known about potential biocide resistance genes and there have been few reported outbreaks in hospitals resulting from a breakdown in biocide effectiveness. Development of increased tolerance to biocides has been thought to be more difficult due to the mode of action of biocides which affect multiple cellular targets compared with antibiotics. Very few genes which contribute towards increased biocide tolerance have been identified. However, the majority of those that have are components or regulators of different efflux pumps or genes which modulate membrane function/modification. This review will examine the role of efflux in increased tolerance towards biocides, focusing on cationic biocides and heavy metals against Gram-negative bacteria. As many efflux pumps which are upregulated by biocide presence also contribute towards an antimicrobial resistance phenotype, the role of these efflux pumps in cross-resistance to both other biocides and antibiotics will be explored.
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- Microbe Profiles
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Microbe Profile: Alteromonas macleodii − a widespread, fast-responding, ‘interactive’ marine bacterium
More LessAlteromonas macleodii is a marine heterotrophic bacterium with widespread distribution − from temperate to tropical oceans, and from surface to deep waters. Strains of A. macleodii exhibit considerable genomic and metabolic variability, and can grow rapidly on diverse organic compounds. A. macleodii is a model organism for the study of population genomics, physiological adaptations and microbial interactions, with individual genomes encoding diverse phenotypic traits influenced by recombination and horizontal gene transfer.
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- Antimicrobials and AMR
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Structural and functional characteristics of the tripartite ABC transporter
More LessATP-binding cassette (ABC) transporters are one of the largest protein superfamilies and are found in all living organisms. These transporters use the energy from ATP binding and hydrolysis to transport various substrates. In this review, we focus on the structural and functional aspects of ABC transporters, with special emphasis on type VII ABC transporters, a newly defined class possessing characteristic structures. A notable feature of type VII ABC transporters is that they assemble into tripartite complexes that span both the inner and outer membranes of Gram-negative bacteria. One of the original type VII ABC transporters, which possesses all characteristic features of this class, is the macrolide efflux transporter MacB. Recent structural analyses of MacB and homologue proteins revealed the unique mechanisms of substrate translocation by type VII ABC transporters.
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Exploring functional interplay amongst Escherichia coli efflux pumps
Bacterial efflux pumps exhibit functional interplay that can translate to additive or multiplicative effects on resistance to antimicrobial compounds. In diderm bacteria, two different efflux pump structural types – single-component inner membrane efflux pumps and cell envelope-spanning multicomponent systems – cooperatively export antimicrobials with cytoplasmic targets from the cell. Harnessing our recently developed efflux platform, which is built upon an extensively efflux-deficient strain of Escherichia coli , here we explore interplay amongst a panel of diverse E. coli efflux pumps. Specifically, we assessed the effect of simultaneously expressing two efflux pump-encoding genes on drug resistance, including single-component inner membrane efflux pumps (MdfA, MdtK and EmrE), tripartite complexes (AcrAB, AcrAD, MdtEF and AcrEF), and the acquired TetA(C) tetracycline resistance pump. Overall, the expression of two efflux pump-encoding genes from the same structural type did not enhance resistance levels regardless of the antimicrobial compound or efflux pump under investigation. In contrast, a combination of the tripartite efflux systems with single-component pumps sharing common substrates provided multiplicative increases to antimicrobial resistance levels. In some instances, resistance was increased beyond the product of resistance provided by the two pumps individually. In summary, the developed efflux platform enables the isolation of efflux pump function, facilitating the identification of interactions between efflux pumps.
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Unravelling microbial efflux through mathematical modelling
More LessAbstract
Mathematical modelling is a useful tool that is increasingly used in the life sciences to understand and predict the behaviour of biological systems. This review looks at how this interdisciplinary approach has advanced our understanding of microbial efflux, the process by which microbes expel harmful substances. The discussion is largely in the context of antimicrobial resistance, but applications in synthetic biology are also touched upon. The goal of this paper is to spark further fruitful collaborations between modellers and experimentalists in the efflux community and beyond.
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- Cell and Developmental Microbiology
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Prophage-encoded small protein YqaH counteracts the activities of the replication initiator DnaA in Bacillus subtilis
More LessBacterial genomes harbour cryptic prophages that are mostly transcriptionally silent with many unannotated genes. Still, cryptic prophages may contribute to their host fitness and phenotypes. In Bacillus subtilis, the yqaF-yqaN operon belongs to the prophage element skin, and is tightly repressed by the Xre-like repressor SknR. This operon contains several small ORFs (smORFs) potentially encoding small-sized proteins. The smORF-encoded peptide YqaH was previously reported to bind to the replication initiator DnaA. Here, using a yeast two-hybrid assay, we found that YqaH binds to the DNA binding domain IV of DnaA and interacts with Spo0A, a master regulator of sporulation. We isolated single amino acid substitutions in YqaH that abolished the interaction with DnaA but not with Spo0A. Then, using a plasmid-based inducible system to overexpress yqaH WT and mutant derivatives, we studied in B. subtilis the phenotypes associated with the specific loss-of-interaction with DnaA (DnaA_LOI). We found that expression of yqaH carrying DnaA_LOI mutations abolished the deleterious effects of yqaH WT expression on chromosome segregation, replication initiation and DnaA-regulated transcription. When YqaH was induced after vegetative growth, DnaA_LOI mutations abolished the drastic effects of YqaH WT on sporulation and biofilm formation. Thus, YqaH inhibits replication, sporulation and biofilm formation mainly by antagonizing DnaA in a manner that is independent of the cell cycle checkpoint Sda.
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- Microbial Interactions and Communities (formerly Host-Microbe Interaction)
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Interspecies killing activity of Pseudomonas syringae tailocins
More LessTailocins are ribosomally synthesized bacteriocins, encoded by bacterial genomes, but originally derived from bacteriophage tails. As with both bacteriocins and phage, tailocins are largely thought to be species-specific with killing activity often assumed to be directed against closely related strains. Previous investigations into interactions between tailocin host range and sensitivity across phylogenetically diverse isolates of the phytopathogen Pseudomonas syringae have demonstrated that many strains possess intraspecific tailocin activity and that this activity is highly precise and specific against subsets of strains. However, here we demonstrate that at least one strain of P. syringae, USA011R, defies both expectations and current overarching dogma because tailocins from this strain possess broad killing activity against other agriculturally significant phytopathogens such as Erwinia amylovora and Xanthomonas perforans as well as against the clinical human pathogen Salmonella enterica serovar Choleraesuis. Moreover, we show that the full spectrum of this interspecific killing activity is not conserved across closely related strains with data suggesting that even if tailocins can target different species, they do so with different efficiencies. Our results reported herein highlight the potential for and phenotypic divergence of interspecific killing activity of P. syringae tailocins and establish a platform for further investigations into the evolution of tailocin host range and strain specificity.
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- Microbial Physiology, Biochemistry and Metabolism (formerly Physiology and Metabolism)
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A CRISPRi-based investigation reveals that multiple promoter elements drive gene expression from the genome of mycobacteriophage D29
More LessA unique feature found in the genomes of mycobacteriophages such as L5 belonging to the A cluster is the presence of multiple dispersed repeated elements known as stoperators. The phage repressor binds these repeat elements, shutting off transcription globally and thereby promoting lysogeny. Interestingly, the sequence of these stoperators closely matches that of the consensus −35 region of prokaryotic promoters, leading us to propose that they may have a role to play in the initiation of transcription by serving as RNA polymerase binding sites. Mycobacteriophage D29 is closely related to phage L5, and their genome organizations are very similar. As in L5, there are multiple stoperators in the genome of D29. The positions occupied by the stoperators in the two genomes are almost identical. The significant difference between the two phages is that D29 lacks the gene encoding the equivalent of the L5 repressor. Since phage D29 does not produce a repressor, we considered it to be a suitable model for testing our hypothesis that the stoperators function as promoters in the absence of the repressor. To prove our point, we targeted CRISPR guide RNAs against six stoperators. In the case of five out of the six, we found a significant reduction in downstream gene expression and phage growth. Based on this observation and primer extension assays, we conclude that promoting gene expression is likely to be the primary function of stoperators.
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- Microbial Virulence and Pathogenesis
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Disruption of MenT2 toxin impairs the growth of Mycobacterium tuberculosis in guinea pigs
More LessToxin–antitoxin (TA) systems are abundantly present in the genomes of various bacterial pathogens. TA systems have been implicated in either plasmid maintenance or protection against phage infection, stress adaptation or disease pathogenesis. The genome of Mycobacterium tuberculosis encodes for more than 90 TA systems and 4 of these belong to the type IV subfamily (MenAT family). The toxins and antitoxins belonging to type IV TA systems share sequence homology with the AbiEii family of nucleotidyl transferases and the AbiEi family of putative transcriptional regulators, respectively. Here, we have performed experiments to understand the role of MenT2, a toxin from the type IV TA system, in mycobacterial physiology and disease pathogenesis. The ectopic expression of MenT2 using inducible vectors does not inhibit bacterial growth in liquid cultures. Bioinformatic and molecular modelling analysis suggested that the M. tuberculosis genome has an alternative start site upstream of the annotated menT2 gene. The overexpression of the reannotated MenT2 resulted in moderate growth inhibition of Mycobacterium smegmatis . We show that both menT2 and menA2 transcript levels are increased when M. tuberculosis is exposed to nitrosative stress, in vitro. When compared to the survival of the wild-type and the complemented strain, the ΔmenT2 mutant strain of M. tuberculosis was more resistant to being killed by nitrosative stress. However, the survival of both the ΔmenT2 mutant and the wild-type strain was similar in macrophages and when exposed to other stress conditions. Here, we show that MenT2 is required for the establishment of disease in guinea pigs. Gross pathology and histopathology analysis of lung tissues from guinea pigs infected with the ∆menT2 strain revealed significantly reduced tissue damage and inflammation. In summary, these results provide new insights into the role of MenT2 in mycobacterial pathogenesis.
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Development of a long-read next generation sequencing workflow for improved characterization of fastidious respiratory mycoplasmas
More LessMycoplasma cynos and Mycoplasma felis are often associated with canine and feline infectious respiratory disease in dogs and cats, respectively. Mycoplasmas have a reduced genome and dearth of many biosynthetic pathways, making them dependent on rich medium for growth. Due to this fastidious nature, mycoplasmas have been historically underdiagnosed. The aim of this study was to develop a cost-effective and accurate sequencing workflow for genotypic characterization of clinical isolates of M. cynos and M. felis using a rapid long-read sequencing platform. We explored the following critical aspects of bacterial whole genome sequencing, including: (i) five solid and liquid-based culture approaches based on a specialized media formulation for Mycoplasma culture, (ii) three DNA extraction methods modified for long-read sequencing purposes, and (iii) two de novo assembly platforms, Flye and Canu, as key components of a bioinformatics pipeline. DNA extraction method 1, a solid-phase and column-based kit with enzymatic lysis, provided the best DNA quality and concentration followed by high coverage and sequencing contiguity. This was obtained with a culture volume of 45 ml in modified Hayflick’s broth incubated for 48 h. DNA extracted directly from colonies on agar or from small broth volumes (6 ml) did not meet the criteria required for long-read sequencing. Overall, Flye generated more contiguous assemblies than the Canu assembler and was more time efficient. This 4–5 day sample-to-sequence workflow provides the scientific and clinical communities with a more comprehensive tool than laborious conventional methods for complete genomic characterization of M. cynos and M. felis clinical isolates.
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