1,442 results on '"Bacterial virulence"'
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2. Nosocomial Transmission of Necrotizing Fasciitis: A Molecular Characterization of Group A Streptococcal DNases in Clinical Virulence.
- Author
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Deneubourg, Geoffrey, Schiavolin, Lionel, Lakhloufi, Dalila, Botquin, Gwenaelle, Delforge, Valérie, Davies, Mark R., Smeesters, Pierre R., and Botteaux, Anne
- Subjects
NECROTIZING fasciitis ,STREPTOCOCCUS pyogenes ,PHENOTYPES ,PHAGOCYTOSIS ,GENOMES ,TRANSPOSONS - Abstract
Streptococcus pyogenes, or Group A Streptococcus (GAS), is responsible for over 500,000 deaths per year. Approximately 15% of these deaths are caused by necrotizing soft-tissue infections. In 2008, we isolated an M5 GAS, named the LO1 strain, responsible for the nosocomial transmission of necrotizing fasciitis between a baby and a nurse in Belgium. To understand this unusual transmission route, the LO1 strain was sequenced. A comparison of the LO1 genome and transcriptome with the reference M5 Manfredo strain was conducted. We found that the major differences were the presence of an additional DNase and a Tn916-like transposon in the LO1 and other invasive M5 genomes. RNA-seq analysis showed that genes present on the transposon were barely expressed. In contrast, the DNases presented different expression profiles depending on the tested conditions. We generated knock-out mutants in the LO1 background and characterized their virulence phenotype. We also determined their nuclease activity on different substrates. We found that DNases are dispensable for biofilm formation and adhesion to both keratinocytes and pharyngeal cells. Three of these were found to be essential for blood survival; Spd4 and Sdn are implicated in phagocytosis resistance, and Spd1 is responsible for neutrophil extracellular trap (NET) degradation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
3. Comparative genomics of Xanthomonas cucurbitae isolates collected from Midwestern United States pumpkin fields.
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Rai, Rikky, Vittore, Kayla M., Pasion, Julius, Malvino, Maria L., Mason, Jonathan D., Liu, Qiong, Sulley, Salisu, Babadoost, Mohammad, Catchen, Julian M., and Hind, Sarah R.
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BACTERIAL diseases , *GENETIC variation , *COMPARATIVE genomics , *NUCLEOTIDE sequencing , *HOST plants - Abstract
Bacterial spot disease of cucurbits, caused by Xanthomonas cucurbitae, is a major problem in cucurbit‐growing areas worldwide. In the Midwestern region of the United States, pumpkin and squash fields can have greater than 90% infected fruits, leading to high yield losses. While reference genomes are available for this bacterial species, the genetic diversity between different strains and populations is unknown. After performing restriction‐site associated DNA sequencing (RAD‐seq) analysis of X. cucurbitae isolates collected from the Midwestern region, we selected five representative isolates for further characterization, which included whole‐genome sequencing and in vitro enzyme and in planta virulence assays. Our results suggest that minimal genetic diversity exists between these isolates, and that the isolates have differential virulence on different cucurbit host plants. This study contributes to our understanding of X. cucurbitae population dynamics in the Midwestern region and may assist with developing additional management strategies for controlling bacterial spot disease of cucurbits. [ABSTRACT FROM AUTHOR]
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- 2024
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4. The cadDX operon contributes to cadmium resistance, oxidative stress resistance, and virulence in zoonotic streptococci
- Author
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Xinchi Zhu, Zijing Liang, Jiale Ma, Jinhu Huang, Liping Wang, Huochun Yao, and Zongfu Wu
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Streptococcus suis ,Streptococcus agalactiae ,mobile genetic elements ,oxidative stress response ,cadmium resistance ,bacterial virulence ,Veterinary medicine ,SF600-1100 - Abstract
Abstract Mobile genetic elements (MGEs) enable bacteria to acquire novel genes and traits. However, the functions of cargo genes within MGEs remain poorly understood. The cadmium resistance operon cadDX is present in many gram-positive bacteria. Although cadDX has been reported to be involved in metal detoxification, its regulatory mechanisms and functions in bacterial pathogenesis are poorly understood. This study revealed that cadDX contributes to cadmium resistance, oxidative stress resistance, and virulence in Streptococcus suis, an important zoonotic pathogen in pigs and humans. CadX represses cadD expression by binding to the cadDX promoter. Notably, cadX responds to H2O2 stress through an additional promoter within the cadDX operon, mitigating the harmful effect of excessive cadD expression during oxidative stress. cadDX resides within an 11 K integrative and mobilizable element that can autonomously form circular structures. Moreover, cadDX is found in diverse MGEs, accounting for its widespread distribution across various bacteria, especially among pathogenic streptococci. Transferring cadDX into another zoonotic pathogen, Streptococcus agalactiae, results in similar phenotypes, including resistance to cadmium and oxidative stresses and increased virulence of S. agalactiae in mice. The new functions and regulatory mechanisms of cadDX shed light on the importance of the cadDX system in driving evolutionary adaptations and survival strategies across diverse gram-positive bacteria.
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- 2024
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5. The cadDX operon contributes to cadmium resistance, oxidative stress resistance, and virulence in zoonotic streptococci.
- Author
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Zhu, Xinchi, Liang, Zijing, Ma, Jiale, Huang, Jinhu, Wang, Liping, Yao, Huochun, and Wu, Zongfu
- Abstract
Mobile genetic elements (MGEs) enable bacteria to acquire novel genes and traits. However, the functions of cargo genes within MGEs remain poorly understood. The cadmium resistance operon cadDX is present in many gram-positive bacteria. Although cadDX has been reported to be involved in metal detoxification, its regulatory mechanisms and functions in bacterial pathogenesis are poorly understood. This study revealed that cadDX contributes to cadmium resistance, oxidative stress resistance, and virulence in Streptococcus suis, an important zoonotic pathogen in pigs and humans. CadX represses cadD expression by binding to the cadDX promoter. Notably, cadX responds to H
2 O2 stress through an additional promoter within the cadDX operon, mitigating the harmful effect of excessive cadD expression during oxidative stress. cadDX resides within an 11 K integrative and mobilizable element that can autonomously form circular structures. Moreover, cadDX is found in diverse MGEs, accounting for its widespread distribution across various bacteria, especially among pathogenic streptococci. Transferring cadDX into another zoonotic pathogen, Streptococcus agalactiae, results in similar phenotypes, including resistance to cadmium and oxidative stresses and increased virulence of S. agalactiae in mice. The new functions and regulatory mechanisms of cadDX shed light on the importance of the cadDX system in driving evolutionary adaptations and survival strategies across diverse gram-positive bacteria. [ABSTRACT FROM AUTHOR]- Published
- 2024
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6. Strain of Xanthomonas oryzae pv. oryzae Loses Virulence through Dysregulation of Cardiolipin Synthase.
- Author
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Hu, Yiqun, Chen, Qingqing, Zhang, Aifang, Zhang, Liyuan, and Dong, Hansong
- Subjects
XANTHOMONAS oryzae ,GREEN fluorescent protein ,CARDIOLIPIN ,LIPOPOLYSACCHARIDES ,NON-coding RNA ,RICE diseases & pests - Abstract
Small non-coding RNAs (sRNAs) are pivotal post-transcriptional regulatory factors influencing biological activity. Studies on the rice bacterial blight pathogen Xanthomonas oryzae pathovar oryzae strain PXO99
A , previously identified a virulence-associated sRNA, trans3287. A mutant strain lacking this sRNA, named SK01, resulted in markedly diminished virulence towards rice. This study aims to further elucidate the underlying bacterial virulent function of trans3287. The expression of trans3287 was quantified in virulence-inducing and standard nutritional conditions to clarify its production mechanism. The detection of virulence-associated genes revealed that trans3287 regulated the synthesis processes of extracellular polysaccharides, lipopolysaccharides, and the type III secretion system. Moreover, bioinformatics prediction and quantitative PCR indicated a potential direct target of trans3287, PXO_03470, encoding cardiolipin synthase. A dual-plasmid system fusing with GFP tag and protein immunoblotting confirmed that sRNA trans3287 negatively regulated PXO_03470. Bacterial biofilms demonstrated trans3287 regulated the disruption of biofilm integrity through cardiolipin synthase. This study provides preliminary insights into the mechanistic underpinnings of the role of sRNA trans3287 in mediating bacterial virulence through cardiolipin synthase. [ABSTRACT FROM AUTHOR]- Published
- 2024
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7. HPLC-PDA Analysis of Polyacetylene Glucosides from Launaea capitata and Their Antibacterial and Antibiofilm Properties against Klebsiella pneumoniae.
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Aljarba, Tariq M., Abdel Bar, Fatma M., Sherif, Asmaa E., Elekhnawy, Engy, Magdy, Galal, and Samra, Reham M.
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QUORUM sensing , *KLEBSIELLA pneumoniae , *INFLAMMATORY mediators , *GENTIAN violet , *DRUG resistance in bacteria - Abstract
Background/Objectives: Bacterial resistance and virulence are challenges in treating bacterial infections, especially in Klebsiella pneumoniae. Plants of the Launaea Cass. genus are used traditionally to address a variety of diseases, including infections, but the potential bioactive compounds are unknown. Our goals were to verify the potential contribution of two major polyacetylene glycosides isolated from our previous study, (3S,6E,12E)-6,12-tetradecadiene-8,10-diyne-1-ol 3-O-β-D-glucopyranoside (1) and bidensyneoside A (syn. gymnasterkoreaside A) [(3R,8E)-3-hydroxy-8-decene-4,6-diyn-1-yl β-D-glucopyranoside] (2), to the anti-infective properties of Launaea capitata and to develop a dependable HPLC method for their quantification; Methods: On a panel of K. pneumoniae clinical isolates, the antibacterial action of 1, 2, and the methanol extract of the whole L. capitata plant were evaluated by broth microdilution assay, while their antibiofilm action was evaluated by the crystal violet assay. qRT-PCR investigated luxS, mrkA, wzm, and wbbm genes that encode biofilm formation and quorum sensing (QS). The antibacterial activity of 1 was revealed by employing mice infection. Chromatographic separation was conducted using isocratic elution on a Hypersil BDS C18 column using a photodiode array (PDA) detector; Results: Compound 1 showed antibacterial activity with MIC values of 16–128 µg/mL. It remarkably reduced strong and moderate biofilm-forming bacterial isolates from 84.21% to 42.1% compared with the extract (68.42%) and 2 (78.95%). Compound 1 also downregulated the QS genes, luxS, mrkA, wzm, and wbbm, and exhibited in vivo antibacterial action through the enhancement of the histological construction of the liver and spleen, decreased TNF-α immunoreaction, bacterial burden, and the inflammatory mediators IL-1β and IL-6. A successful HPLC-PDA approach was developed to separate the binary mixture of 1 and 2 in less than 10 min with high sensitivity, with detection limits down to 0.518 and 0.095 µg/mL for 1 and 2, respectively; Conclusions: Compound 1 exhibited remarkable antibacterial and antibiofilm properties and may contribute to the anti-infectious traditional uses of L. capitata, meriting further clinical studies and serving as a reliable quality control biomarker for the plant. [ABSTRACT FROM AUTHOR]
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- 2024
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8. Regulation of Bacterial Growth and Behavior by Host Plant.
- Author
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Nakagami, Satoru, Wang, Zhe, Han, Xiaowei, and Tsuda, Kenichi
- Abstract
Plants are associated with diverse bacteria in nature. Some bacteria are pathogens that decrease plant fitness, and others are beneficial bacteria that promote plant growth and stress resistance. Emerging evidence also suggests that plant-associated commensal bacteria collectively contribute to plant health and are essential for plant survival in nature. Bacteria with different characteristics simultaneously colonize plant tissues. Thus, plants need to accommodate bacteria that provide service to the host plants, but they need to defend against pathogens at the same time. How do plants achieve this? In this review, we summarize how plants use physical barriers, control common goods such as water and nutrients, and produce antibacterial molecules to regulate bacterial growth and behavior. Furthermore, we highlight that plants use specialized metabolites that support or inhibit specific bacteria, thereby selectively recruiting plant-associated bacterial communities and regulating their function. We also raise important questions that need to be addressed to improve our understanding of plant–bacteria interactions. [ABSTRACT FROM AUTHOR]
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- 2024
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9. Optogenetics in oral and craniofacial research.
- Author
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Zhang, Qinmeng, Song, Luyao, Fu, Mengdie, He, Jin, Yang, Guoli, and Jiang, Zhiwei
- Abstract
Copyright of Journal of Zhejiang University: Science B is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2024
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10. Virulence Evaluation of Aeromonas spp. KS-1 Isolated from Kitchen Sponge using Omphisa fuscidentalis Larvae.
- Author
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Noor Andryan Ilsan, Maulin Inggraini, Siti Nurfajriah, Melda Yunita, Jepri Agung Priyanto, and Viqih Ramanda
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SPONGE (Material) , *AEROMONAS , *LARVAE , *GREATER wax moth , *AEROMONAS hydrophila , *BACTERIAL diseases - Abstract
Aeromonas spp. causes the human diseases including diarrhea, gastroenteritis, and bacteremia. Aeromonas spp. can be found in kitchen sponge, one of the reservoirs for food-borne bacterial pathogens. Virulence study of Aeromonas spp. in vivo in animal model is important since the animal model can mimic manifestasions in human infections. Omphisa fuscidentalis was chosen for alternative virulence model, since they are in the same taxonomical order with the well-known infections model, Galleria mellonella. Bacterial isolation and selection of kitchen sponge used Brain Heart Infusion agar and Endo Agar, respectively. Bacterial virulence of KS-1 was injected into Omphisa fuscidentalis larvae. Survival percentage and melanization score of infected larvae were evaluated. Hemolymph of larvae with melanization score of 1 and 4 were stained with Giemsa method to observe the hemocyte changes. Bacterial identification of isolate KS-1 based on 16S rRNA sequence resulted in 96.9% identity to Aeromonas spp. strain VS7. Isolate KS-1 injection to O. fuscidentalis revealed higher bacterial dosage resulting more severe symptoms to the larvae according to survival percentage and melanization score. However, statistical analysis showed evaluation of melanization score could distinguish larvae with 106 and 107 CFU/larva dosage injection, while evaluation of survival percentage could not. Hemocyte of larvae with melanization score 1 had larger and more cytoplasmic vacuolization than the score 4 (healthy larvae). Omphisa fuscidentalis is an alternative of insect model for bacterial infections with survival percentage and melanization score as the evaluation. Cytoplasmic vacuolization of hemocyte can be used as larvae's health indicator in a cellular level. [ABSTRACT FROM AUTHOR]
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- 2024
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11. Role of bacterial multidrug efflux pumps during infection.
- Author
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Laborda, Pablo, Molin, Søren, Johansen, Helle Krogh, Martínez, José Luis, and Hernando-Amado, Sara
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CELL envelope (Biology) , *COMMUNICABLE diseases , *BACTERIAL diseases , *DISEASE management , *ANTI-infective agents - Abstract
Multidrug efflux pumps are protein complexes located in the cell envelope that enable bacteria to expel, not only antibiotics, but also a wide array of molecules relevant for infection. Hence, they are important players in microbial pathogenesis. On the one hand, efflux pumps can extrude exogenous compounds, including host-produced antimicrobial molecules. Through this extrusion, pathogens can resist antimicrobial agents and evade host defenses. On the other hand, efflux pumps also have a role in the extrusion of endogenous compounds, such as bacterial intercommunication signaling molecules, virulence factors or metabolites. Therefore, efflux pumps are involved in the modulation of bacterial behavior and virulence, as well as in the maintenance of the bacterial homeostasis under different stresses found within the host. This review delves into the multifaceted roles that efflux pumps have, shedding light on their impact on bacterial virulence and their contribution to bacterial infection. These observations suggest that strategies targeting bacterial efflux pumps could both reinvigorate the efficacy of existing antibiotics and modulate the bacterial pathogenicity to the host. Thus, a comprehensive understanding of bacterial efflux pumps can be pivotal for the development of new effective strategies for the management of infectious diseases. [ABSTRACT FROM AUTHOR]
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- 2024
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12. Unraveling the role of UilS, a urea-induced acyl-homoserine lactonase that enhances Serratia marcescens fitness, interbacterial competition, and urinary tract infection
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Marisel R. Tuttobene, Brayan S. Arango Gil, Gisela Di Venanzio, Javier F. Mariscotti, Rodrigo Sieira, Mario F. Feldman, María Soledad Ramirez, and Eleonora García Véscovi
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Serratia marsescens ,lactonase ,quorum quenching ,pathogenesis ,bacterial virulence ,Microbiology ,QR1-502 - Abstract
ABSTRACT Serratia marcescens, a member of the Enterobacteriaceae family, is an opportunistic human pathogen and a frequent cause of urinary tract infections. Clinical isolates often exhibit resistance to multiple antibiotics, posing challenges for successful treatment. Understanding its pathogenic mechanisms is crucial for elucidating new potential targets to develop effective therapeutic interventions and manage S. marcescens infections. This work identifies urea-induced lactonase of Serratia (UilS), a lactonase encoded in the S. marcescens RM66262 strain isolated from a patient with a urinary tract infection. The study explores the bacterium’s response to urea, a major component of urine, and its impact on uilS expression. We found that UilS degrades acyl-homoserine lactones (AHL) autoinducers traditionally associated with quorum sensing mechanisms. Surprisingly, UilS is able to degrade self and non-self AHL, exhibiting quorum-quenching activity toward Pseudomonas aeruginosa. We found that LuxR regulates uilS expression that is enhanced in the presence of AHL. In addition, urea-dependent induction of UilS expression is controlled by the transcriptional response regulator CpxR. UilS confers fitness advantage to S. marcescens, especially in the presence of urea, emphasizing the adaptive plasticity of strains to modulate gene expression based on environmental signals and population density. We also discovered a novel bacterial killing capacity of S. marcescens that involves UilS, indicating its importance in the interspecies interaction of Serratia. Finally, we found that a uilS mutant strain displays attenuated colonization in a mouse model of catheter-associated urinary tract infection. uilS is present in clinical but absent in environmental isolates, suggesting an evolutionary adaptation to host-specific selective pressures.IMPORTANCEThis work reveals the acyl-homoserine lactonase urea-induced lactonase of Serratia as a novel virulence factor of Serratia marcescens, unraveling a potential target to develop antimicrobial strategies and shedding light on the complex regulatory network governing pathogenicity and adaptation to host environments.
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- 2024
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13. Editorial: Host-bacteria interactions in fish pathogens
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Jose Ramos-Vivas and Félix Acosta
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host-pathogen ,bacterial virulence ,fish pathogen ,fish disease ,cellular microbiology ,fish immune response ,Microbiology ,QR1-502 - Published
- 2024
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14. Unveiling the Proteomic Landscape of Bacterial Virulence and Antibiotic Resistance Mechanisms
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Miranda, Adriana Canedo, Bizarro, Cristiano Valim, Soni, Vijay, editor, and Akhade, Ajay Suresh, editor
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- 2024
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15. Significance of Bacterial Toxins
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Osman, Nashwa Hussein, Moneim Elhadi Sulieman, Abdel, editor, and Alshammari, Nawaf Ibrahim, editor
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- 2024
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16. Investigating Sulforaphane’s anti-virulence and anti-quorum sensing properties against Pseudomonas aeruginosa.
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Bendary, Mahmoud M., Ali, Mohamed A. M., Abdel Halim, Alyaa S., Boufahja, Fehmi, Chaudhary, Anis Ahmad, Elkelish, Amr, Soliman, Rania H. M., and Hegazy, Wael A. H.
- Subjects
PSEUDOMONAS aeruginosa ,SULFORAPHANE ,ELASTASES ,EXTRACELLULAR enzymes ,QUORUM sensing ,BRASSICACEAE - Abstract
Background: P. aeruginosa, a significant bacterium, can cause severe illness and resistance to antibiotics. Quorum sensing (QS) systems regulate virulence factors production. Targeting QS could reduce bacteria pathogenicity and prevent antibiotic resistance. Cruciferous vegetables contain sulforaphane, known for its anti-inflammatory, antioxidant, anticancer, and antimicrobial properties. Aim: We aimed to examine the inhibitory influences of sulforaphane, at a subinhibitory concentration (¼ minimum inhibitory concentration, MIC), on virulence and QS in P. aeruginosa. Materials and methods: The sulforaphane’s anti-virulence actions at subinhibitory concentrations were explored in vitro and in vivo. A sub-MIC concentration of sulforaphane was combined with anti-pseudomonal drugs, and the results of this combination were assessed. The virtual affinity of sulforaphane for the receptors of QS was studied, and its effect on the expression of QS genes was quantified. Results: Sulforaphane significantly decreased the biofilm formation, motility, ability to withstand oxidative stress, and the synthesis of virulence extracellular enzymes such as proteases, hemolysins, and elastase, as well as other virulence factors like pyocyanin. In addition, sulforaphane lessened the severity of P. aeruginosa infection in mice. Sulforaphane reduced the antipseudomonal antibiotics’ MICs when used together, resulting in synergistic effects. The observed anti-virulence impacts were attributed to the ability of sulforaphane to inhibit QS via suppressing the QS genes’ expression. Conclusion: Sulforaphane shows promise as a potent anti-virulence and anti-QS agent that can be used alongside conventional antimicrobials to manage severe infections effectively. Furthermore, this study paves the way for further investigation of sulforaphane and similar structures as pharmacophores for antiQS candidates. [ABSTRACT FROM AUTHOR]
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- 2024
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17. Comparative genomic and transcriptome analyses of two Pectobacterium brasiliense strains revealed distinct virulence determinants and phenotypic features.
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Yue Sun, Utpal, Handique, Yajuan Wu, Qinghua Sun, Zhiwen Feng, Yue Shen, Ruofang Zhang, Xiaofeng Zhou, and Jian Wu
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FUNGAL cell walls ,GENOMICS ,ERWINIA ,PLANT cell walls ,PHENOTYPES ,PLANT genes ,POTATO diseases & pests ,BACTERIAL cell walls - Abstract
Potato soft rot caused by Pectobacterium spp. are devastating diseases of potato which cause severe economic losses worldwide. Pectobacterium brasiliense is considered as one of the most virulent species. However, the virulence mechanisms and pathogenicity factors of this strain have not been fully elucidated. Here, through pathogenicity screening, we identified two Pectobacterium brasiliense isolates, SM and DQ, with distinct pathogenicity levels. SM exhibits higher virulence compared to DQ in inducing aerial stem rot, blackleg and tuber soft rot. Our genomic and transcriptomic analyses revealed that SM encodes strain specific genes with regard to plant cell wall degradation and express higher level of genes associated with bacterial motility and secretion systems. Our plate assays verified higher pectinase, cellulase, and protease activities, as well as fast swimming and swarming motility in SM. Importantly, a unique endoglucanase S specific to SM was identified. Expression of this cellulase in DQ greatly enhances its virulence compared to wild type strain. Our study sheds light on possible determinants causing different pathogenicity of Pectobacterium brasiliense species with close evolutionary distance and provides new insight into the direction of genome evolution in response to host variation and environmental stimuli. [ABSTRACT FROM AUTHOR]
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- 2024
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18. Both biofilm cytotoxicity and monocytes' adhesion may be used as estimators of enterococcal virulence.
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Daca, Agnieszka, Piechowicz, Lidia, Wiśniewska, Katarzyna, Bryl, Ewa, Witkowski, Jacek M, and Jarzembowski, Tomasz
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CYTOTOXINS , *MONOCYTES , *BACTERIAL proteins , *BIOFILMS , *MICROBIAL adhesion , *MASS spectrometers - Abstract
Our study aimed to identify markers of enterococci's virulence potential by evaluating the properties of strains of different sites of isolation. Enterococcal strains were isolated as commensals from faeces and as invasive strains from the urine and blood of patients from the University Clinical Centre, Gdańsk, Poland. Changes in monocytes' susceptibility to the cytotoxic activity of isolates of different origins and their adherence to biofilm were evaluated using a flow cytometer. The bacterial protein profile was estimated by matrix assisted laser desorption ionization-time of flight mass spectrometer. The cytotoxicity of biofilm and monocytes' adherence to it were the most accurate factors in predicting the prevalence of the strain in the specific niche. Additionally, a bacterial protein with mass-to-charge ratio (m / z) 5000 was found to be responsible for the increased bacterial cytotoxicity, while monocytes' decreased adherence to biofilm was linked with the presence of proteins either with m / z 3330 or 2435. The results illustrate that monocytes' reaction when exposed to the bacterial biofilm can be used as an estimator of pathogens' virulence potential. The observed differences in monocytes' response are explainable by the bacterial proteins' profile. Additionally, the results indicate that the features of both bacteria and monocytes impact the outcome of the infection. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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19. Nosocomial Transmission of Necrotizing Fasciitis: A Molecular Characterization of Group A Streptococcal DNases in Clinical Virulence
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Geoffrey Deneubourg, Lionel Schiavolin, Dalila Lakhloufi, Gwenaelle Botquin, Valérie Delforge, Mark R. Davies, Pierre R. Smeesters, and Anne Botteaux
- Subjects
host–pathogen interactions ,bacterial virulence ,Streptococcus pyogenes ,DNases ,necrotizing fasciitis ,Biology (General) ,QH301-705.5 - Abstract
Streptococcus pyogenes, or Group A Streptococcus (GAS), is responsible for over 500,000 deaths per year. Approximately 15% of these deaths are caused by necrotizing soft-tissue infections. In 2008, we isolated an M5 GAS, named the LO1 strain, responsible for the nosocomial transmission of necrotizing fasciitis between a baby and a nurse in Belgium. To understand this unusual transmission route, the LO1 strain was sequenced. A comparison of the LO1 genome and transcriptome with the reference M5 Manfredo strain was conducted. We found that the major differences were the presence of an additional DNase and a Tn916-like transposon in the LO1 and other invasive M5 genomes. RNA-seq analysis showed that genes present on the transposon were barely expressed. In contrast, the DNases presented different expression profiles depending on the tested conditions. We generated knock-out mutants in the LO1 background and characterized their virulence phenotype. We also determined their nuclease activity on different substrates. We found that DNases are dispensable for biofilm formation and adhesion to both keratinocytes and pharyngeal cells. Three of these were found to be essential for blood survival; Spd4 and Sdn are implicated in phagocytosis resistance, and Spd1 is responsible for neutrophil extracellular trap (NET) degradation.
- Published
- 2024
- Full Text
- View/download PDF
20. Trichoderma‐derived emodin competes with ExpR and ExpI of Pectobacterium carotovorum subsp. carotovorum to biocontrol bacterial soft rot.
- Author
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Zhan, Xin, Wang, Rui, Zhang, Manman, Li, Yuejiao, Sun, Tao, Chen, Jie, Li, Jishun, and Liu, Tong
- Subjects
EMODIN ,REVERSE transcriptase polymerase chain reaction ,FUNGAL cell walls ,ERWINIA ,PLANT cell walls ,SYNTHETIC genes - Abstract
BACKGROUND: Quorum sensing inhibitors (QSIs) are an emerging control tool that inhibits the quorum sensing (QS) system of pathogenic bacteria. We aimed to screen for potential QSIs in the metabolites of Trichoderma and to explore their inhibitory mechanisms. RESULTS: We screened a strain of Trichoderma asperellum LN004, which demonstrated the ability to inhibit the color development of Chromobacterium subtsugae CV026, primarily attributed to the presence of emodin as its key QSI component. The quantitative polymerase chain reaction with reverse transcription results showed that after emodin treatment of Pectobacterium carotovorum subsp. carotovorum (Pcc), plant cell wall degrading enzyme‐related synthetic genes were significantly downregulated, and the exogenous enzyme synthesis gene negative regulator (rsmA) was upregulated 3.5‐fold. Docking simulations indicated that emodin could be a potential ligand for ExpI and ExpR proteins because it exhibited stronger competition than the natural ligands in Pcc. In addition, western blotting showed that emodin attenuated the degradation of n‐acylhomoserine lactone on the ExpR protein and protected it. Different concentrations of emodin reduced the activity of pectinase, cellulase, and protease in Pcc by 20.81%–72.21%, 8.38%–52.73%, and 3.57%–47.50%. Lesion size in Chinese cabbages, carrots and cherry tomatoes following Pcc infestation was reduced by 10.02%–68.57%, 40.17%–88.56% and 11.36%–86.17%. CONCLUSION: Emodin from T. asperellum LN004 as a QSI can compete to bind both ExpI and ExpR proteins, interfering with the QS of Pcc and reducing the production of virulence factors. The first molecular mechanism reveals the ability of emodin as a QSI to competitively inhibit two QS proteins simultaneously. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]
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- 2024
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21. Exploring the role of bacterial virulence factors and host elements in septic arthritis: insights from animal models for innovative therapies.
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Tao Jin
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INFECTIOUS arthritis ,EXPERIMENTAL arthritis ,ANIMAL models in research ,JOINT diseases - Abstract
Septic arthritis, characterized as one of the most aggressive joint diseases, is primarily attributed to Staphylococcus aureus (S. aureus) and often results from hematogenous dissemination. Even with prompt treatment, septic arthritis frequently inflicts irreversible joint damage, leading to sustained joint dysfunction in a significant proportion of patients. Despite the unsatisfactory outcomes, current therapeutic approaches for septic arthritis have remained stagnant for decades. In the clinical context, devising innovative strategies to mitigate joint damage necessitates a profound comprehension of the pivotal disease mechanisms. This entails unraveling how bacterial virulence factors interact with host elements to facilitate bacterial invasion into the joint and identifying the principal drivers of joint damage. Leveraging animal models of septic arthritis emerges as a potent tool to achieve these objectives. This review provides a comprehensive overview of the historical evolution and recent advancements in septic arthritis models. Additionally, we address practical considerations regarding experimental protocols. Furthermore, we delve into the utility of these animal models, such as their contribution to the discovery of novel bacterial virulence factors and host elements that play pivotal roles in the initiation and progression of septic arthritis. Finally, we summarize the latest developments in novel therapeutic strategies against septic arthritis, leveraging insights gained from these unique animal models. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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22. Genomic Characterization of Mobile Genetic Elements Associated with Multidrug-Resistant Acinetobacter Non- baumannii Species from Southern Thailand.
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Yaikhan, Thunchanok, Chukamnerd, Arnon, Singkhamanan, Kamonnut, Nokchan, Natakorn, Chintakovid, Nutwadee, Chusri, Sarunyou, Pomwised, Rattanaruji, Wonglapsuwan, Monwadee, and Surachat, Komwit
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MOBILE genetic elements ,ACINETOBACTER baumannii ,HORIZONTAL gene transfer ,GENETIC epidemiology ,QUORUM sensing ,GENETIC profile ,ACINETOBACTER infections - Abstract
This study investigated the genetic diversity, antimicrobial resistance profiles, and virulence characteristics of Acinetobacter non-baumannii isolates obtained from four hospitals in southern Thailand. Clinical data, genome information, and average nucleotide identity (ANI) were analyzed for eight isolates, revealing diverse genetic profiles and novel sequence types (STs). Minimum spanning tree analysis indicated potential clonal spread of certain STs across different geographic regions. Antimicrobial resistance genes (ARGs) were detected in all isolates, with a high prevalence of genes conferring resistance to carbapenems, highlighting the challenge of antimicrobial resistance in Acinetobacter spp. infections. Mobile genetic elements (MGEs) carrying ARGs were also identified, emphasizing the role of horizontal gene transfer in spreading resistance. Evaluation of virulence-associated genes revealed a diverse range of virulence factors, including those related to biofilm formation and antibiotic resistance. However, no direct correlation was found between virulence-associated genes in Acinetobacter spp. and specific clinical outcomes, such as infection severity or patient mortality. This complexity suggests that factors beyond gene presence may influence disease progression and outcomes. This study emphasizes the importance of continued surveillance and molecular epidemiological studies to combat the spread of multidrug-resistant (MDR) Acinetobacter non-baumannii strains. The findings provide valuable insights into the epidemiology and genetic characteristics of this bacteria in southern Thailand, with implications for infection control and antimicrobial management efforts. [ABSTRACT FROM AUTHOR]
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- 2024
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23. Zinc acquisition and its contribution to Klebsiella pneumoniae virulence.
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Maunders, Eve A., Giles, Matthew W., Ganio, Katherine, Cunningham, Bliss A., Bennett-Wood, Vicki, Cole, Gregory B., Ng, Dixon, Lai, Christine C., Neville, Stephanie L., Moraes, Trevor F., McDevitt, Christopher A., and Tan, Aimee
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KLEBSIELLA pneumoniae ,ZINC ,URINARY tract infections ,RESPIRATORY infections ,LUNG infections - Abstract
Klebsiella pneumoniae is a World Health Organization priority pathogen and a significant clinical concern for infections of the respiratory and urinary tracts due to widespread and increasing resistance to antimicrobials. In the absence of a vaccine, there is an urgent need to identify novel targets for therapeutic development. Bacterial pathogens, including K. pneumoniae, require the d-block metal ion zinc as an essential micronutrient, which serves as a cofactor for -6% of the proteome. During infection, zinc acquisition necessitates the use of high affinity uptake systems to overcome niche-specific zinc limitation and host-mediated nutritional immunity. Here, we report the identification of ZnuCBA and ZniCBA, two ATP-binding cassette permeases that are highly conserved in Klebsiella species and contribute to K. pneumoniae AJ218 zinc homeostasis, and the high-resolution structure of the zinc-recruiting solute-binding protein ZniA. The Znu and Zni permeases appear functionally redundant with abrogation of both systems required to reduce K. pneumoniae zinc accumulation. Disruption of both systems also exerted pleiotropic effects on the homeostasis of other d-block elements. Zinc limitation perturbed K. pneumoniae cell morphology and compromised resistance to stressors, such as salt and oxidative stress. The mutant strain lacking both systems showed significantly impaired virulence in acute lung infection models, highlighting the necessity of zinc acquisition in the virulence and pathogenicity of K. pneumoniae. [ABSTRACT FROM AUTHOR]
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- 2024
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24. Investigating Sulforaphane’s anti-virulence and anti-quorum sensing properties against Pseudomonas aeruginosa
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Mahmoud M. Bendary, Mohamed A. M. Ali, Alyaa S. Abdel Halim, Fehmi Boufahja, Anis Ahmad Chaudhary, Amr Elkelish, Rania H. M. Soliman, and Wael A. H. Hegazy
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Sulforaphane ,Pseudomonas aeruginosa ,quorum sensing ,bacterial virulence ,resistance to antibiotics ,Therapeutics. Pharmacology ,RM1-950 - Abstract
BackgroundP. aeruginosa, a significant bacterium, can cause severe illness and resistance to antibiotics. Quorum sensing (QS) systems regulate virulence factors production. Targeting QS could reduce bacteria pathogenicity and prevent antibiotic resistance. Cruciferous vegetables contain sulforaphane, known for its anti-inflammatory, antioxidant, anticancer, and antimicrobial properties.AimWe aimed to examine the inhibitory influences of sulforaphane, at a sub-inhibitory concentration (¼ minimum inhibitory concentration, MIC), on virulence and QS in P. aeruginosa.Materials and methodsThe sulforaphane’s anti-virulence actions at sub-inhibitory concentrations were explored in vitro and in vivo. A sub-MIC concentration of sulforaphane was combined with anti-pseudomonal drugs, and the results of this combination were assessed. The virtual affinity of sulforaphane for the receptors of QS was studied, and its effect on the expression of QS genes was quantified.ResultsSulforaphane significantly decreased the biofilm formation, motility, ability to withstand oxidative stress, and the synthesis of virulence extracellular enzymes such as proteases, hemolysins, and elastase, as well as other virulence factors like pyocyanin. In addition, sulforaphane lessened the severity of P. aeruginosa infection in mice. Sulforaphane reduced the antipseudomonal antibiotics’ MICs when used together, resulting in synergistic effects. The observed anti-virulence impacts were attributed to the ability of sulforaphane to inhibit QS via suppressing the QS genes’ expression.ConclusionSulforaphane shows promise as a potent anti-virulence and anti-QS agent that can be used alongside conventional antimicrobials to manage severe infections effectively. Furthermore, this study paves the way for further investigation of sulforaphane and similar structures as pharmacophores for anti-QS candidates.
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- 2024
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25. HPLC-PDA Analysis of Polyacetylene Glucosides from Launaea capitata and Their Antibacterial and Antibiofilm Properties against Klebsiella pneumoniae
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Tariq M. Aljarba, Fatma M. Abdel Bar, Asmaa E. Sherif, Engy Elekhnawy, Galal Magdy, and Reham M. Samra
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Klebsiella pneumoniae ,bacterial virulence ,biomarker quantification ,HPLC-PDA ,Launaea capitata ,quorum sensing ,Medicine ,Pharmacy and materia medica ,RS1-441 - Abstract
Background/Objectives: Bacterial resistance and virulence are challenges in treating bacterial infections, especially in Klebsiella pneumoniae. Plants of the Launaea Cass. genus are used traditionally to address a variety of diseases, including infections, but the potential bioactive compounds are unknown. Our goals were to verify the potential contribution of two major polyacetylene glycosides isolated from our previous study, (3S,6E,12E)-6,12-tetradecadiene-8,10-diyne-1-ol 3-O-β-D-glucopyranoside (1) and bidensyneoside A (syn. gymnasterkoreaside A) [(3R,8E)-3-hydroxy-8-decene-4,6-diyn-1-yl β-D-glucopyranoside] (2), to the anti-infective properties of Launaea capitata and to develop a dependable HPLC method for their quantification; Methods: On a panel of K. pneumoniae clinical isolates, the antibacterial action of 1, 2, and the methanol extract of the whole L. capitata plant were evaluated by broth microdilution assay, while their antibiofilm action was evaluated by the crystal violet assay. qRT-PCR investigated luxS, mrkA, wzm, and wbbm genes that encode biofilm formation and quorum sensing (QS). The antibacterial activity of 1 was revealed by employing mice infection. Chromatographic separation was conducted using isocratic elution on a Hypersil BDS C18 column using a photodiode array (PDA) detector; Results: Compound 1 showed antibacterial activity with MIC values of 16–128 µg/mL. It remarkably reduced strong and moderate biofilm-forming bacterial isolates from 84.21% to 42.1% compared with the extract (68.42%) and 2 (78.95%). Compound 1 also downregulated the QS genes, luxS, mrkA, wzm, and wbbm, and exhibited in vivo antibacterial action through the enhancement of the histological construction of the liver and spleen, decreased TNF-α immunoreaction, bacterial burden, and the inflammatory mediators IL-1β and IL-6. A successful HPLC-PDA approach was developed to separate the binary mixture of 1 and 2 in less than 10 min with high sensitivity, with detection limits down to 0.518 and 0.095 µg/mL for 1 and 2, respectively; Conclusions: Compound 1 exhibited remarkable antibacterial and antibiofilm properties and may contribute to the anti-infectious traditional uses of L. capitata, meriting further clinical studies and serving as a reliable quality control biomarker for the plant.
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- 2024
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26. Strain of Xanthomonas oryzae pv. oryzae Loses Virulence through Dysregulation of Cardiolipin Synthase
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Yiqun Hu, Qingqing Chen, Aifang Zhang, Liyuan Zhang, and Hansong Dong
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sRNA trans3287 ,bacterial virulence ,biofilm formation ,pathogen-host interaction ,Botany ,QK1-989 - Abstract
Small non-coding RNAs (sRNAs) are pivotal post-transcriptional regulatory factors influencing biological activity. Studies on the rice bacterial blight pathogen Xanthomonas oryzae pathovar oryzae strain PXO99A, previously identified a virulence-associated sRNA, trans3287. A mutant strain lacking this sRNA, named SK01, resulted in markedly diminished virulence towards rice. This study aims to further elucidate the underlying bacterial virulent function of trans3287. The expression of trans3287 was quantified in virulence-inducing and standard nutritional conditions to clarify its production mechanism. The detection of virulence-associated genes revealed that trans3287 regulated the synthesis processes of extracellular polysaccharides, lipopolysaccharides, and the type III secretion system. Moreover, bioinformatics prediction and quantitative PCR indicated a potential direct target of trans3287, PXO_03470, encoding cardiolipin synthase. A dual-plasmid system fusing with GFP tag and protein immunoblotting confirmed that sRNA trans3287 negatively regulated PXO_03470. Bacterial biofilms demonstrated trans3287 regulated the disruption of biofilm integrity through cardiolipin synthase. This study provides preliminary insights into the mechanistic underpinnings of the role of sRNA trans3287 in mediating bacterial virulence through cardiolipin synthase.
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- 2024
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27. Machine learning method for the classification of the state of living organisms’ oscillations
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David Kweku, Maria I. Villalba, Ronnie G. Willaert, Osvaldo M. Yantorno, Maria E. Vela, Anna K. Panorska, and Sandor Kasas
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artificial intelligence ,machine learning ,atomic force microscopy ,cellular nanomotion ,bacterial virulence ,Bordetella pertussis ,Biotechnology ,TP248.13-248.65 - Abstract
The World Health Organization highlights the urgent need to address the global threat posed by antibiotic-resistant bacteria. Efficient and rapid detection of bacterial response to antibiotics and their virulence state is crucial for the effective treatment of bacterial infections. However, current methods for investigating bacterial antibiotic response and metabolic state are time-consuming and lack accuracy. To address these limitations, we propose a novel method for classifying bacterial virulence based on statistical analysis of nanomotion recordings. We demonstrated the method by classifying living Bordetella pertussis bacteria in the virulent or avirulence phase, and dead bacteria, based on their cellular nanomotion signal. Our method offers significant advantages over current approaches, as it is faster and more accurate. Additionally, its versatility allows for the analysis of cellular nanomotion in various applications beyond bacterial virulence classification.
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- 2024
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28. Zinc acquisition and its contribution to Klebsiella pneumoniae virulence
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Eve A. Maunders, Matthew W. Giles, Katherine Ganio, Bliss A. Cunningham, Vicki Bennett-Wood, Gregory B. Cole, Dixon Ng, Christine C. Lai, Stephanie L. Neville, Trevor F. Moraes, Christopher A. McDevitt, and Aimee Tan
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Klebsiella pneumoniae ,zinc homeostasis ,periplasmic binding protein ,ABC transporter ,zinc transport ,bacterial virulence ,Microbiology ,QR1-502 - Abstract
Klebsiella pneumoniae is a World Health Organization priority pathogen and a significant clinical concern for infections of the respiratory and urinary tracts due to widespread and increasing resistance to antimicrobials. In the absence of a vaccine, there is an urgent need to identify novel targets for therapeutic development. Bacterial pathogens, including K. pneumoniae, require the d-block metal ion zinc as an essential micronutrient, which serves as a cofactor for ~6% of the proteome. During infection, zinc acquisition necessitates the use of high affinity uptake systems to overcome niche-specific zinc limitation and host-mediated nutritional immunity. Here, we report the identification of ZnuCBA and ZniCBA, two ATP-binding cassette permeases that are highly conserved in Klebsiella species and contribute to K. pneumoniae AJ218 zinc homeostasis, and the high-resolution structure of the zinc-recruiting solute-binding protein ZniA. The Znu and Zni permeases appear functionally redundant with abrogation of both systems required to reduce K. pneumoniae zinc accumulation. Disruption of both systems also exerted pleiotropic effects on the homeostasis of other d-block elements. Zinc limitation perturbed K. pneumoniae cell morphology and compromised resistance to stressors, such as salt and oxidative stress. The mutant strain lacking both systems showed significantly impaired virulence in acute lung infection models, highlighting the necessity of zinc acquisition in the virulence and pathogenicity of K. pneumoniae.
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- 2024
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29. The Anti-Virulence Activities of the Antihypertensive Drug Propranolol in Light of Its Anti-Quorum Sensing Effects against Pseudomonas aeruginosa and Serratia marcescens.
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Alotaibi, Hadil Faris, Alotaibi, Haifa, Darwish, Khaled M., Khafagy, El-Sayed, Abu Lila, Amr S., Ali, Mohamed A. M., Hegazy, Wael A. H., and Alshawwa, Samar Zuhair
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SERRATIA marcescens ,PSEUDOMONAS aeruginosa ,ANTIHYPERTENSIVE agents ,PROPRANOLOL ,DRUG efficacy ,PSEUDOMONADACEAE - Abstract
The development of bacterial resistance is an increasing global concern that requires discovering new antibacterial agents and strategies. Bacterial quorum sensing (QS) systems play important roles in controlling bacterial virulence, and their targeting could lead to diminishing bacterial pathogenesis. In this context, targeting QS systems without significant influence on bacterial growth is assumed as a promising strategy to overcome resistance development. This study aimed at evaluating the anti-QS and anti-virulence activities of the β-adrenoreceptor antagonist propranolol at sub-minimal inhibitory concentrations (sub-MIC) against two Gram-negative bacterial models Pseudomonas aeruginosa and Serratia marcescens. The effect of propranolol on the expression of QS-encoding genes was evaluated. Additionally, the affinity of propranolol to QS receptors was virtually attested. The influence of propranolol at sub-MIC on biofilm formation, motility, and production of virulent factors was conducted. The outcomes of the propranolol combination with different antibiotics were assessed. Finally, the in vivo protection assay in mice was performed to assess propranolol's effect on lessening the bacterial pathogenesis. The current findings emphasized the significant ability of propranolol at sub-MIC to reduce the formation of biofilms, motility, and production of virulence factors. In addition, propranolol at sub-MIC decreased the capacity of tested bacteria to induce pathogenesis in mice. Furthermore, propranolol significantly downregulated the QS-encoding genes and showed significant affinity to QS receptors. Finally, propranolol at sub-MIC synergistically decreased the MICs of different antibiotics against tested bacteria. In conclusion, propranolol might serve as a plausible adjuvant therapy with antibiotics for the treatment of serious bacterial infections after further pharmacological and pharmaceutical studies. [ABSTRACT FROM AUTHOR]
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- 2023
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30. SalmonellaYqiC exerts its function through an oligomeric state.
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Huang, Wei‐Chun, Chen, Wai‐Ting, Chen, Yueh‐Chen, Fang, Shiuh‐Bin, Huang, Tzu‐Wen, Chang, Pei‐Ru, and Chang, Yu‐Chu
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Protein oligomerization occurs frequently both in vitro and in vivo, with specific functionalities associated with different oligomeric states. The YqiC protein from Salmonella Typhimurium forms a homotrimer through its C‐terminal coiled‐coil domain, and the protein is closely linked to the colonization and invasion of the bacteria to the host cells. To elucidate the importance of the oligomeric state of YqiC in vivo and its relation with bacterial infection, we mutated crucial residues in YqiC's coiled‐coil region and confirmed the loss of trimer formation using chemical crosslinking and size exclusion chromatography coupled with multiple angle light scattering (SEC‐MALS) techniques. The yqiC‐knockout strain complemented with mutant YqiC showed significantly reduced colonization and invasion of Salmonella to host cells, demonstrating the critical role of YqiC oligomerization in bacterial pathogenesis. Furthermore, we conducted a protein–protein interaction study of YqiC using a pulled‐down assay coupled with mass spectrometry analysis to investigate the protein's role in bacterial virulence. The results reveal that YqiC interacts with subunits of Complex II of the electron transport chain (SdhA and SdhB) and the β‐subunit of F0F1‐ATP synthase. These interactions suggest that YqiC may modulate the energy production of Salmonella and subsequently affect the assembly of crucial virulence factors, such as flagella. Overall, our findings provide new insights into the molecular mechanisms of YqiC's role in S. Typhimurium pathogenesis and suggest potential therapeutic targets for bacterial infections. [ABSTRACT FROM AUTHOR]
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- 2023
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31. Drosophila melanogaster as a model to study polymicrobial synergy and dysbiosis
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Xixi Cao, Jessica Scoffield, Baotong Xie, David B. Morton, and Hui Wu
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bacterial virulence ,biofilms ,polymicrobial interactions ,Drosophila ,Streptococcus ,Microbiology ,QR1-502 - Abstract
The fruit fly Drosophila melanogaster has emerged as a valuable model for investigating human biology, including the role of the microbiome in health and disease. Historically, studies involving the infection of D. melanogaster with single microbial species have yielded critical insights into bacterial colonization and host innate immunity. However, recent evidence has underscored that multiple microbial species can interact in complex ways through physical connections, metabolic cross-feeding, or signaling exchanges, with significant implications for healthy homeostasis and the initiation, progression, and outcomes of disease. As a result, researchers have shifted their focus toward developing more robust and representative in vivo models of co-infection to probe the intricacies of polymicrobial synergy and dysbiosis. This review provides a comprehensive overview of the pioneering work and recent advances in the field, highlighting the utility of Drosophila as an alternative model for studying the multifaceted microbial interactions that occur within the oral cavity and other body sites. We will discuss the factors and mechanisms that drive microbial community dynamics, as well as their impacts on host physiology and immune responses. Furthermore, this review will delve into the emerging evidence that connects oral microbes to systemic conditions in both health and disease. As our understanding of the microbiome continues to evolve, Drosophila offers a powerful and tractable model for unraveling the complex interplay between host and microbes including oral microbes, which has far-reaching implications for human health and the development of targeted therapeutic interventions.
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- 2023
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32. Cigarette Smoke Exposure Promotes Virulence of Pseudomonas aeruginosa and Induces Resistance to Neutrophil Killing
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Chien, Jason, Hwang, John H, Nilaad, Sedtavut, Masso-Silva, Jorge A, Ahn, Sae Jeong, McEachern, Elisa K, Moshensky, Alexander, Byun, Min-Kwang, and Alexander, Laura E Crotty
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Microbiology ,Medical Microbiology ,Biomedical and Clinical Sciences ,Biological Sciences ,Pneumonia ,Infectious Diseases ,Prevention ,Lung ,Tobacco Smoke and Health ,Pneumonia & Influenza ,Clinical Research ,Tobacco ,2.2 Factors relating to the physical environment ,2.1 Biological and endogenous factors ,5.1 Pharmaceuticals ,Respiratory ,Infection ,Good Health and Well Being ,Animals ,Gene Expression Regulation ,Bacterial ,Humans ,Mice ,Neutrophils ,Pseudomonas Infections ,Pseudomonas aeruginosa ,Smoke ,Nicotiana ,Tobacco Products ,Virulence ,cigarette smoke ,neutrophil ,oxidative burst ,biofilm ,pneumonia ,bacterial virulence ,Agricultural and Veterinary Sciences ,Medical and Health Sciences ,Immunology ,Medical microbiology - Abstract
It is widely known that cigarette smoke damages host defenses and increases susceptibility to bacterial infections. Pseudomonas aeruginosa, a Gram-negative bacterium that commonly colonizes the airways of smokers and patients with chronic lung disease, can cause pneumonia and sepsis and can trigger exacerbations of lung diseases. Pseudomonas aeruginosa colonizing airways is consistently exposed to inhaled cigarette smoke. Here, we investigated whether cigarette smoke alters the ability of this clinically significant microbe to bypass host defenses and cause invasive disease. We found that cigarette smoke extract (CSE) exposure enhances resistance to human neutrophil killing, but this increase in pathogenicity was not due to resistance to neutrophil extracellular traps. Instead, Pseudomonas aeruginosa exposed to CSE (CSE-PSA) had increased resistance to oxidative stress, which correlated with increased expression of tpx, a gene essential for defense against oxidative stress. In addition, exposure to CSE induced enhanced biofilm formation and resistance to the antibiotic levofloxacin. Finally, CSE-PSA had increased virulence in a model of pneumonia, with 0% of mice infected with CSE-PSA alive at day 6, while 28% of controls survived. Altogether, these data show that cigarette smoke alters the phenotype of P. aeruginosa, increasing virulence and making it less susceptible to killing by neutrophils and more capable of causing invasive disease. These findings provide further explanation of the refractory nature of respiratory illnesses in smokers and highlight cigarette smoking as a potential driver of virulence in this important airway pathogen.
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- 2020
33. Disruption of the metC Gene Affects Methionine Biosynthesis in Pectobacterium carotovorum subsp. carotovorum Pcc21 and Reduces Soft-Rot Disease
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Seonmi Yu, Jihee Kang, Eui-Hwan Chung, and Yunho Lee
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auxotroph ,bacterial virulence ,cysta-thionine beta-lyase metc ,soft-rot disease ,Plant culture ,SB1-1110 - Abstract
Plant pathogenic Pectobacterium species cause severe soft rot/blackleg diseases in many economically important crops worldwide. Pectobacterium utilizes plant cell wall degrading enzymes (PCWDEs) as the main virulence determinants for its pathogenicity. In this study, we screened a random mutant, M29 is a transposon insertion mutation in the metC gene encoding cystathionine β-lyase that catalyzes cystathionine to homocysteine at the penultimate step in methionine biosynthesis. M29 became a methionine auxotroph and resulted in growth defects in methionine-limited conditions. Impaired growth was restored with exogenous methionine or homocysteine rather than cystathionine. The mutant exhibited reduced soft rot symptoms in Chinese cabbages and potato tubers, maintaining activities of PCWDEs and swimming motility. The mutant was unable to proliferate in both Chinese cabbages and potato tubers. The reduced virulence was partially restored by a complemented strain or 100 μM of methionine, whereas it was fully restored by the extremely high concentration (1 mM). Our transcriptomic analysis showed that genes involved in methionine biosynthesis or transporter were downregulated in the mutant. Our results demonstrate that MetC is important for methionine biosynthesis and transporter and influences its virulence through Pcc21 multiplication in plant hosts.
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- 2023
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34. Is Galleria mellonella model a good alternative to study virulence in Staphylococcus aureus from bovine mastitis?
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da Silva, Juliana Rosa, Silva, Joice Fátima Moreira, Pereira, Monalessa Fábia, Torres, Adalgisa Ribeiro, Gonçalves, Maysa Serpa, de Azevedo Prata, Márcia Cristina, Vasconcelos Paiva e Brito, Maria Aparecida, da Costa, Geraldo Márcio, and Ribeiro, João Batista
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- 2024
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35. Quorum Quenching Enzymes: A Potent Alternative to Conventional Antibiotics
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Deb Adhikari, Manab, Roychowdhury, Abhrajyoti, Tiwary, Bipransh Kumar, Saha, Tilak, editor, Deb Adhikari, Manab, editor, and Tiwary, Bipransh Kumar, editor
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- 2022
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36. Comparative secretome analysis of Staphylococcus aureus strains with different within-herd intramammary infection prevalence
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M. Filippa Addis, Salvatore Pisanu, Valentina Monistero, Alessandra Gazzola, Martina Penati, Joel Filipe, Susanna Di Mauro, Paola Cremonesi, Bianca Castiglioni, Paolo Moroni, Daniela Pagnozzi, Sebastiana Tola, and Renata Piccinini
- Subjects
proteomics ,mammary gland ,dairy cow ,mastitis ,intramammary infection ,immune evasion ,inflammation ,bacterial virulence ,Infectious and parasitic diseases ,RC109-216 - Abstract
Staphylococcus aureus is a major pathogen causing intramammary infection and mastitis in dairy cows. S. aureus genotypes (GT) can differ significantly in their ability to diffuse and persist in the herd; while the association of virulence gene carriage with epidemiological behavior remains unclear, a role for secreted proteins has been postulated. We characterized the secretome of six S. aureus strains belonging to two genotypes with opposite within-herd prevalence, GTB (high) and GTS (low), corresponding to sequence types (ST) 8 and 398, by high-resolution tandem mass spectrometry and differential analysis with Proteome Discoverer. Data are available via ProteomeXchange with identifier PXD029571. Out of 720 identified proteins, 98 were unique or more abundant in GTB/ST8 and 68 in GTS/ST398. GTB/ST8 released more immunoglobulin-binding proteins, complement and antimicrobial peptide inhibitors, enterotoxins, and metabolic enzymes, while GTS/ST398 released more leukocidins, hemolysins, lipases, and peptidases. Furthermore, GTB/ST8 released the von Willebrand factor protein, staphylokinase, and clumping factor B, while GTS released the staphylococcal coagulase and clumping factor A. Hence, GTB/ST8 secretomes indicated a higher propensity for immune evasion and chronicity and GTS/ST398 secretomes for cellular damage and inflammation, consistent with their epidemiological characteristics. Accordingly, GTS/ST398 secretions were significantly more cytotoxic against bovine PBMCs in vitro. Our findings confirm the crucial role of extracellular virulence factors in S. aureus pathogenesis and highlight the need to investigate their differential release adding to gene carriage for a better understanding of the relationship of S. aureus genotypes with epidemiological behavior and, possibly, disease severity.
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- 2022
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37. Nutrient stress is a target for new antibiotics.
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Carfrae, Lindsey A. and Brown, Eric D.
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- *
TRANSPOSONS , *DRUG discovery , *HIGH throughput screening (Drug development) , *VIRULENCE of bacteria , *GRAM-negative bacteria , *ANTIBIOTICS - Abstract
Several de novo amino acid, nucleotide, and vitamin biosynthesis pathways are essential for the survival and virulence of pathogenic bacteria in the host. There is a high potential for narrow-spectrum therapeutics with nutrient stress targets specific to the pathogen or site of infection. Innovative high-throughput screening platforms have been developed to identify inhibitors of nutrient stress that can be combined with rapid and effective target identification techniques. Differences between the human and mouse nutrient environment have led to vitamin biosynthesis being overlooked as an antibiotic target. Idiosyncratic connections between antibiotic resistance and nutrient biosynthesis pathways hold promise for unique combination approaches against multidrug-resistant pathogens. Novel approaches are required to address the looming threat of pan-resistant Gram-negative pathogens and forestall the rise of untreatable infections. Unconventional targets that are uniquely important during infection and tractable to high-throughput drug discovery methods hold high potential for innovation in antibiotic discovery programs. In this context, inhibitors of bacterial nutrient stress are particularly exciting candidates for future antibiotic development. Amino acid, nucleotide, and vitamin biosynthesis pathways are critical for bacterial growth in nutrient-limiting conditions in the laboratory and the host. Although historically dismissed as dispensable for pathogens, a wealth of transposon mutagenesis and single-mutant studies have emerged which demonstrate that several such pathways are critical for infection. Indeed, high-throughput screens of diverse synthetic compounds and natural products have uncovered inhibitors of nutrient biosynthesis. Herein, we review bacterial nutrient biosynthesis and its role during host infection. Further, we explore screening platforms developed to search for inhibitors of these targets and highlight successes among these. Finally, we feature important and sometimes surprising connections between bacterial nutrient biosynthesis, antibiotic activity, and antibiotic resistance. [ABSTRACT FROM AUTHOR]
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- 2023
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38. A ParDE toxin--antitoxin system is responsible for the maintenance of the Yersinia virulence plasmid but not for type III secretion-associated growth inhibition.
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Schott, Saskia, Scheuer, Robina, Ermoli, Francesca, Glatter, Timo, Evguenieva-Hackenberg, Elena, and Diepold, Andreas
- Subjects
ANTITOXINS ,YERSINIA ,YERSINIA enterocolitica ,PLASMIDS ,TOXINS ,VIRULENCE of bacteria - Abstract
Many Gram-negative pathogens utilize the type III secretion system (T3SS) to translocate virulence-promoting effector proteins into eukaryotic host cells. The activity of this system results in a severe reduction of bacterial growth and division, summarized as secretion-associated growth inhibition (SAGI). In Yersinia enterocolitica, the T3SS and related proteins are encoded on a virulence plasmid. We identified a ParDE-like toxin--antitoxin system on this virulence plasmid in genetic proximity to yopE, encoding a T3SS effector. Effectors are strongly upregulated upon activation of the T3SS, indicating a potential role of the ParDE system in the SAGI or maintenance of the virulence plasmid. Expression of the toxin ParE in trans resulted in reduced growth and elongated bacteria, highly reminiscent of the SAGI. Nevertheless, the activity of ParDE is not causal for the SAGI. T3SS activation did not influence ParDE activity; conversely, ParDE had no impact on T3SS assembly or activity itself. However, we found that ParDE ensures the presence of the T3SS across bacterial populations by reducing the loss of the virulence plasmid, especially under conditions relevant to infection. Despite this effect, a subset of bacteria lost the virulence plasmid and regained the ability to divide under secreting conditions, facilitating the possible emergence of T3SS-negative bacteria in late acute and persistent infections. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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39. Predicting variable gene content in Escherichia coli using conserved genes
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Marcus Nguyen, Zachary Elmore, Clay Ihle, Francesco S. Moen, Adam D. Slater, Benjamin N. Turner, Bruce Parrello, Aaron A. Best, and James J. Davis
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machine learning ,horizontal gene transfer ,antimicrobial resistance ,bacterial virulence ,phylogeny ,Microbiology ,QR1-502 - Abstract
ABSTRACT Having the ability to predict the protein-encoding gene content of an incomplete genome or metagenome-assembled genome is important for a variety of bioinformatic tasks. In this study, as a proof of concept, we built machine learning classifiers for predicting variable gene content in Escherichia coli genomes using only the nucleotide k-mers from a set of 100 conserved genes as features. Protein families were used to define orthologs, and a single classifier was built for predicting the presence or absence of each protein family occurring in 10%–90% of all E. coli genomes. The resulting set of 3,259 extreme gradient boosting classifiers had a per-genome average macro F1 score of 0.944 [0.943–0.945, 95% CI]. We show that the F1 scores are stable across multi-locus sequence types and that the trend can be recapitulated by sampling a smaller number of core genes or diverse input genomes. Surprisingly, the presence or absence of poorly annotated proteins, including “hypothetical proteins” was accurately predicted (F1 = 0.902 [0.898–0.906, 95% CI]). Models for proteins with horizontal gene transfer-related functions had slightly lower F1 scores but were still accurate (F1s = 0.895, 0.872, 0.824, and 0.841 for transposon, phage, plasmid, and antimicrobial resistance-related functions, respectively). Finally, using a holdout set of 419 diverse E. coli genomes that were isolated from freshwater environmental sources, we observed an average per-genome F1 score of 0.880 [0.876–0.883, 95% CI], demonstrating the extensibility of the models. Overall, this study provides a framework for predicting variable gene content using a limited amount of input sequence data. IMPORTANCE Having the ability to predict the protein-encoding gene content of a genome is important for assessing genome quality, binning genomes from shotgun metagenomic assemblies, and assessing risk due to the presence of antimicrobial resistance and other virulence genes. In this study, we built a set of binary classifiers for predicting the presence or absence of variable genes occurring in 10%–90% of all publicly available E. coli genomes. Overall, the results show that a large portion of the E. coli variable gene content can be predicted with high accuracy, including genes with functions relating to horizontal gene transfer. This study offers a strategy for predicting gene content using limited input sequence data.
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- 2023
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40. Editorial: New insights in Chlamydia: host interactions and pathogenesis
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Hector Alex Saka and Maria Teresa Damiani
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Chlamydia ,intracellular bacteria ,pathogen-host cell interaction ,bacterial virulence ,sexually transmitted infections ,Microbiology ,QR1-502 - Published
- 2023
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41. Analysis of Bacterial Phosphorylcholine-Related Genes Reveals an Association between Type-Specific Biosynthesis Pathways and Biomolecules Targeted for Phosphorylcholine Modification
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Yuan Zhang, Freda E.-C. Jen, Jennifer L. Edwards, and Michael P. Jennings
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phosphorylcholine ,ChoP ,phosphatidylcholine ,phosphoethanolamine ,bacterial virulence ,Microbiology ,QR1-502 - Abstract
ABSTRACT Many bacterial surface proteins and carbohydrates are modified with phosphorylcholine (ChoP), which contributes to host mimicry and can also promote colonization and survival in the host. However, the ChoP biosynthetic pathways that are used in bacterial species that express ChoP have not been systematically studied. For example, the well-studied Lic-1 pathway is absent in some ChoP-expressing bacteria, such as Neisseria meningitidis and Neisseria gonorrhoeae. This raises a question as to the origin of the ChoP used for macromolecule biosynthesis in these species. In the current study, we used in silico analyses to identify the potential pathways involved in ChoP biosynthesis in genomes of the 26 bacterial species reported to express a ChoP-modified biomolecule. We used the four known ChoP biosynthetic pathways and a ChoP transferase as search terms to probe for their presence in these genomes. We found that the Lic-1 pathway is primarily associated with organisms producing ChoP-modified carbohydrates, such as lipooligosaccharide. Pilin phosphorylcholine transferase A (PptA) homologs were detected in all bacteria that express ChoP-modified proteins. Additionally, ChoP biosynthesis pathways, such as phospholipid N-methyltransferase (PmtA), phosphatidylcholine synthase (Pcs), or the acylation-dependent phosphatidylcholine biosynthesis pathway, which generate phosphatidylcholine, were also identified in species that produce ChoP-modified proteins. Thus, a major finding of this study is the association of a particular ChoP biosynthetic pathway with a cognate, target ChoP-modified surface factor; i.e., protein versus carbohydrate. This survey failed to identify a known biosynthetic pathway for some species that express ChoP, indicating that a novel ChoP biosynthetic pathway(s) may remain to be identified. IMPORTANCE The modification of bacterial surface virulence factors with phosphorylcholine (ChoP) plays an important role in bacterial virulence and pathogenesis. However, the ChoP biosynthetic pathways in bacteria have not been fully understood. In this study, we used in silico analysis to identify potential ChoP biosynthetic pathways in bacteria that express ChoP-modified biomolecules and found the association between a specific ChoP biosynthesis pathway and the cognate target ChoP-modified surface factor.
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- 2023
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42. Genomic Characterization of Mobile Genetic Elements Associated with Multidrug-Resistant Acinetobacter Non-baumannii Species from Southern Thailand
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Thunchanok Yaikhan, Arnon Chukamnerd, Kamonnut Singkhamanan, Natakorn Nokchan, Nutwadee Chintakovid, Sarunyou Chusri, Rattanaruji Pomwised, Monwadee Wonglapsuwan, and Komwit Surachat
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Acinetobacter non-baumannii ,antimicrobial resistance genes ,mobile genetic elements ,bacterial virulence ,MDR dissemination ,Therapeutics. Pharmacology ,RM1-950 - Abstract
This study investigated the genetic diversity, antimicrobial resistance profiles, and virulence characteristics of Acinetobacter non-baumannii isolates obtained from four hospitals in southern Thailand. Clinical data, genome information, and average nucleotide identity (ANI) were analyzed for eight isolates, revealing diverse genetic profiles and novel sequence types (STs). Minimum spanning tree analysis indicated potential clonal spread of certain STs across different geographic regions. Antimicrobial resistance genes (ARGs) were detected in all isolates, with a high prevalence of genes conferring resistance to carbapenems, highlighting the challenge of antimicrobial resistance in Acinetobacter spp. infections. Mobile genetic elements (MGEs) carrying ARGs were also identified, emphasizing the role of horizontal gene transfer in spreading resistance. Evaluation of virulence-associated genes revealed a diverse range of virulence factors, including those related to biofilm formation and antibiotic resistance. However, no direct correlation was found between virulence-associated genes in Acinetobacter spp. and specific clinical outcomes, such as infection severity or patient mortality. This complexity suggests that factors beyond gene presence may influence disease progression and outcomes. This study emphasizes the importance of continued surveillance and molecular epidemiological studies to combat the spread of multidrug-resistant (MDR) Acinetobacter non-baumannii strains. The findings provide valuable insights into the epidemiology and genetic characteristics of this bacteria in southern Thailand, with implications for infection control and antimicrobial management efforts.
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- 2024
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43. Editorial: Aquatic microorganism and their response to environment virulence and antimicrobial resistance
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Yiqin Deng, Songzhe Fu, Learn-Han Lee, Juan Feng, and Jie Huang
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aquatic microorganism ,bacterial virulence ,antimicrobial resistance (AMR) ,environmental changes ,prevention and control ,Science ,General. Including nature conservation, geographical distribution ,QH1-199.5 - Published
- 2023
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44. Cannabidiol and periodontal inflammatory disease: A critical assessment
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Petr Jirasek, Alexandr Jusku, Vilim Simanek, Jana Frankova, Jan Storch, and Jan Vacek
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cannabidiol ,endocannabinoid system ,cb1/2 receptors ,microbial colonisation ,bacterial virulence ,immune system ,gingivitis ,periodontitis ,Medicine - Abstract
Cannabidiol (CBD), a non-psychotropic cannabinoid produced by the genus Cannabis, is a phytoceutical that activates the endocannabinoid system (ECS) through binding to CB1 and CB2 receptors. The ECS is involved in cellular homeostasis and regulates metabolic processes in virtually all mammalian tissues. Published studies on CBD focus, inter alia, on its use in prophylaxis and as an anti-inflammatory agent. Here the authors present a critical assessment of the effects of CBD on inflammatory periodontal diseases caused by bacterial virulence factors, and evaluate critically the possible benefits and drawbacks of CBD use in dentistry. Particular attention is paid to the interaction of CBD with microbially colonized oral tissues, the inflammatory response in relation to the immune response, and the destruction/regeneration of hard and soft tissues of the periodontium.
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- 2022
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45. Chemoreceptor MCP4580 of Vibrio splendidus mediates chemotaxis toward L-glutamic acid contributing to bacterial virulence.
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Li, Ya, Shi, Weibo, Sun, Zihao, and Zhang, Weiwei
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GLUTAMIC acid , *SEA cucumbers , *SITE-specific mutagenesis , *CELLULAR signal transduction , *MOLECULAR docking , *APOSTICHOPUS japonicus - Abstract
Chemotaxis has an essential function in flagellar bacteria that allows them to sense and respond to specific environmental signals, enabling their survival and colonization. Vibrio splendidus is an important opportunistic pathogen that infects a wide range of hosts including fish, bivalve, and sea cucumber. Our study demonstrated that V. splendidus AJ01 exhibited chemotaxis toward L-glutamic acid (L-Glu), an abundant amino acid in the intestinal and respiratory tree tissues of the sea cucumber. Bacterial samples collected from two locations in soft agar swimming plates were subjected to RNA-sequencing (RNA-Seq) analysis to identify the methyl-accepting chemotaxis protein (MCP) respond to L-Glu. Among the 40 annotated chemoreceptors, MCP4580 was identified as the MCP that mediates L-Glu-response. Molecular docking and site-directed mutagenesis revealed that L-arginine at residue 81 (R81) and L-glutamine at residue 88 (Q88) in the ligand-binding domain (LBD) are crucial for L-Glu recognition. Bacterial two-hybrid assay (BTH) showed that MCP4580 forms dimers and interacts with the histidine kinase CheA via the coupling protein CheW1 and CheW2. Phosphorylation analysis showed that the binding of L-Glu to MCP4580 results in the inhibition of CheA phosphorylation mainly via CheW1. Notably, sea cucumbers stimulated with each mutant strain of chemotaxis protein exhibited reduced mortality, highlighting the importance of chemotaxis in V. splendidus virulence. The present study provides valuable insights into the molecular components and signal transduction involved in the chemotaxis of V. splendidus toward L-Glu, and highlights the importance of chemotaxis in its virulence. [ABSTRACT FROM AUTHOR]
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- 2024
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46. The Anti-Virulence Activities of the Antihypertensive Drug Propranolol in Light of Its Anti-Quorum Sensing Effects against Pseudomonas aeruginosa and Serratia marcescens
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Hadil Faris Alotaibi, Haifa Alotaibi, Khaled M. Darwish, El-Sayed Khafagy, Amr S. Abu Lila, Mohamed A. M. Ali, Wael A. H. Hegazy, and Samar Zuhair Alshawwa
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propranolol ,Pseudomonas aeruginosa ,Serratia marcescens ,quorum sensing ,bacterial virulence ,drug repurposing ,Biology (General) ,QH301-705.5 - Abstract
The development of bacterial resistance is an increasing global concern that requires discovering new antibacterial agents and strategies. Bacterial quorum sensing (QS) systems play important roles in controlling bacterial virulence, and their targeting could lead to diminishing bacterial pathogenesis. In this context, targeting QS systems without significant influence on bacterial growth is assumed as a promising strategy to overcome resistance development. This study aimed at evaluating the anti-QS and anti-virulence activities of the β-adrenoreceptor antagonist propranolol at sub-minimal inhibitory concentrations (sub-MIC) against two Gram-negative bacterial models Pseudomonas aeruginosa and Serratia marcescens. The effect of propranolol on the expression of QS-encoding genes was evaluated. Additionally, the affinity of propranolol to QS receptors was virtually attested. The influence of propranolol at sub-MIC on biofilm formation, motility, and production of virulent factors was conducted. The outcomes of the propranolol combination with different antibiotics were assessed. Finally, the in vivo protection assay in mice was performed to assess propranolol’s effect on lessening the bacterial pathogenesis. The current findings emphasized the significant ability of propranolol at sub-MIC to reduce the formation of biofilms, motility, and production of virulence factors. In addition, propranolol at sub-MIC decreased the capacity of tested bacteria to induce pathogenesis in mice. Furthermore, propranolol significantly downregulated the QS-encoding genes and showed significant affinity to QS receptors. Finally, propranolol at sub-MIC synergistically decreased the MICs of different antibiotics against tested bacteria. In conclusion, propranolol might serve as a plausible adjuvant therapy with antibiotics for the treatment of serious bacterial infections after further pharmacological and pharmaceutical studies.
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- 2023
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47. The transmembrane domains of the type III secretion system effector Tir are involved in its secretion and cellular activities
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Dor Braverman, Jenia Gershberg, and Neta Sal-Man
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bacterial virulence ,EPEC ,transmembrane domains ,type III secretion system ,Tir ,Microbiology ,QR1-502 - Abstract
IntroductionEnteropathogenic Escherichia coli (EPEC) is a diarrheagenic pathogen and one of the major causes of gastrointestinal illness in developing countries. EPEC, similar to many other Gram-negative bacterial pathogens, possesses essential virulence machinery called the type III secretion system (T3SS) that enables the injection of effector proteins from the bacteria into the host cytoplasm. Of these, the translocated intimin receptor (Tir) is the first effector to be injected, and its activity is essential for the formation of attaching and effacing lesions, the hallmark of EPEC colonization. Tir belongs to a unique group of transmembrane domain (TMD)-containing secreted proteins, which have two conflicting destination indications, one for bacterial membrane integration and another for protein secretion. In this study, we examined whether TMDs participate in the secretion, translocation, and function of Tir in host cells.MethodsWe created Tir TMD variants with the original or alternative TMD sequence.ResultsWe found that the C-terminal TMD of Tir (TMD2) is critical for the ability of Tir to escape integration into the bacterial membrane. However, the TMD sequence was not by itself sufficient and its effect was context-dependent. Moreover, the N-terminal TMD of Tir (TMD1) was important for the postsecretion function of Tir at the host cell.DiscussionTaken together, our study further supports the hypothesis that the TMD sequences of translocated proteins encode information crucial for protein secretion and their postsecretion function.
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- 2023
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48. Rebalancing the Caries Microbiome Dysbiosis: Targeted Treatment and Sugar Alcohols.
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Zhan, L
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Humans ,Dental Caries ,Sugar Alcohols ,Erythritol ,Xylitol ,Cariostatic Agents ,Anti-Bacterial Agents ,Sweetening Agents ,Virulence ,Microbiota ,Dysbiosis ,antibacterial agents ,bacterial virulence ,caries detection/diagnosis/prevention ,caries treatment ,infectious disease(s) ,microbial ecology ,Dentistry - Abstract
Dental caries is a disease that results from microbiome dysbiosis with the involvement of multiple cariogenic species, including mutans streptococci (MS), lactobacilli, Scardovia wiggsiae, and several Actinomyces species that have the cariogenic traits of acid production and acid tolerance. Sugar consumption also plays an important role interacting with microbiome dysbiosis, determining the fate of caries development. In addition, the MS transmission that encompasses multiple sources can have long-term impacts on the oral microbiome and caries development in children. Intervention in MS transmission in early childhood may promote effective long-term caries prevention. Anticaries regimens aimed against the above mechanisms will be important for successful caries management. Xylitol and erythritol may serve as good components of anticaries regimens as oral microbiome modifiers, sugar substitutes, and agents to prevent MS transmission in early childhood with both oral and systemic benefits. Further studies are needed to elucidate the mechanism of the anticaries effects of xylitol and erythritol with consideration of their impacts on the microbiome and bacterial virulence, in addition to cariogenic bacteria levels as well as their benefits for overall health. On the other hand, the anticaries agent C16G2, specifically targeting Streptococcus mutans, the most common cariogenic bacterial species, has shown good safety for short-term oral topical use and promising effects in reducing S. mutans in vitro and in vivo with the promotion of oral commensal bacteria. Future study on its anticaries effect will need to include its long-term impact on the oral microbiome and effects on other important cariogenic bacteria.
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- 2018
49. Editorial: New insights in Chlamydia: host interactions and pathogenesis.
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Saka, Hector Alex and Damiani, Maria Teresa
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CHLAMYDIA ,CHLAMYDIA infections ,EXPERIMENTAL medicine ,LEUKEMIA inhibitory factor ,WOUND healing ,MEDICAL sciences - Published
- 2023
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50. Hiring of the Anti-Quorum Sensing Activities of Hypoglycemic Agent Linagliptin to Alleviate the Pseudomonas aeruginosa Pathogenesis.
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Khayat, Maan T., Ibrahim, Tarek S., Darwish, Khaled M., Khayyat, Ahdab N., Alharbi, Majed, Khafagy, El-Sayed, Ali, Mohamed A. M., Hegazy, Wael A. H., and Abbas, Hisham A.
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HYPOGLYCEMIC agents ,LINAGLIPTIN ,QUORUM sensing ,PSEUDOMONAS aeruginosa ,ANTI-infective agents ,BACTERIAL diseases ,RHAMNOLIPIDS - Abstract
Bacteria communicate with each other using quorum sensing (QS) which works in an inducer/receptor manner. QS plays the main role in orchestrating diverse bacterial virulence factors. Pseudomonas aeruginosa is one of the most clinically important bacterial pathogens that can cause infection in almost all body tissues. Besides its efficient capability to develop resistance to different antibiotics, P. aeruginosa acquires a huge arsenal of virulence factors that are controlled mainly by QS. Challenging QS with FDA-approved drugs and natural products was proposed as a promising approach to mitigate bacterial virulence enabling the host immunity to complete the eradication of bacterial infection. The present study aims to evaluate the dipeptidase inhibitor-4 inhibitor hypoglycemic linagliptin anti-QS and anti-virulence activities against P. aeruginosa in vitro, in vivo, and in silico. The current results revealed the significant ability to diminish the production of protease and pyocyanin, motility, and biofilm formation in P. aeruginosa. Furthermore, the histopathological examination of liver and kidney tissues of mice injected with linagliptin-treated bacteria showed an obvious reduction of pathogenesis. Linagliptin downregulation to QS-encoding genes, besides the virtual ability to interact with QS receptors, indicates its anti-QS activities. In conclusion, linagliptin is a promising anti-virulence and anti-QS candidate that can be used solely or in combination with traditional antimicrobial agents in the treatment of P. aeruginosa aggressive infections. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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