Macrocolony of NDM-1 Producing Enterobacter hormaechei subsp. oharae Generates Subpopulations with Different Features Regarding the Response of Antimicrobial Agents and Biofilm Formation

Brust, Flávia Roberta; Boff, Luana; Trentin, Danielle da Silva; Rozales, Franciele Pedrotti; Barth, Afonso Luís; Macêdo, Alexandre José

doi:10.3390/pathogens8020049

“…blood, urine, feces, and body fluids) 33 . On the other hand, studying the biofilm production of 9 strains of E. hormaechei from clinical origin reported that they formed a moderate biofilm 34 . Other studies have been evidenced the capability of K. pneumoniae to produce weak and moderate biofilm.…”

Section: Resultsmentioning

confidence: 99%

The membrane depolarization and increase intracellular calcium level produced by silver nanoclusters are responsible for bacterial death

Molina-Hernández

¹

,

Aceto

²

,

Bucciarelli

³

et al. 2021

Sci Rep

View full text Add to dashboard Cite

This work highlights how our silver ultra nanoclusters (ARGIRIUM-SUNc) hand-made synthesized, are very useful as a bactericide and anti-biofilm agent. The Argirium-SUNc effective antibacterial concentrations are very low (< 1 ppm) as compared to the corresponding values reported in the literature. Different bacterial defense mechanisms are observed dependent on ARGIRIUM-SUNc concentrations. Biochemical investigations (volatilome) have been performed to understand the pathways involved in cell death. By using fluorescence techniques and cell viability measurements we show, for the first time, that membrane depolarization and calcium intracellular level are both primary events in bacteria death. The ARGIRIUM-SUNc determined eradication of different biofilm at a concentration as low as 0.6 ppm. This suggests that the effect of the nanoparticles follows a common mechanism in different bacteria. It is highly probable that the chemical constitution of the crosslinks could be a key target in the disrupting mechanism of our nanoparticles. Since the biofilms and their constituents are essential for bacterial survival in contact with humans, the silver nanoparticles represent a logical target for new antibacterial treatments.

show abstract

“…To explore the differences in biofilm formation ability among different species of ECC, biofilm formation assays were performed in a 96-well polystyrene microtiter plate, as previously described with some modifications ( Brust et al, 2019 ). Briefly, the isolates were grown overnight in Luria–Bertani (LB) broth at 37°C.…”

Section: Methodsmentioning

confidence: 99%

“…In order to investigate the differences in virulence genes among various species of ECC, the genome DNA of all 130 ECC strains was extracted using the Biospin Bacterial Genomic DNA Extraction kit (Bioflux, Tokyo, Japan) according to the manufacturer’s instructions and served as templates for subsequent analysis. Virulence genes, including fimA (type 1 fimbriae gene) ( Brust et al, 2019 ), mrkD (type 3 fimbriae gene) ( Compain et al, 2014 ), csgD (curli gene) ( Brust et al, 2019 ), papC and papD (P pili genes) ( Brust et al, 2019 ), fyuA ( Yersinia siderophore receptor gene) ( Johnson et al, 2015 ), iroNec (salmochelin siderophore receptor gene) ( Johnson et al, 2015 ), entB (enterobactin gene) ( May and Okabe, 2011 ), and ybtS (yersiniabactin gene) ( El Fertas-Aissani et al, 2013 ), were identified by PCR. The primers of all genes for PCR are listed in Supplementary Table 1 .…”

Section: Methodsmentioning

confidence: 99%

“…Biofilm is an aggregate of sessile microorganisms, which prevents the antibiotics from coming into contact with bacteria, leading to repeated infections. Also, virulence-related genes in ECC, such as siderophore and adhesin, play a specific role in its infection; these include fimA (type 1 fimbriae gene) ( Brust et al, 2019 ), mrkD (type 3 fimbriae gene) ( Compain et al, 2014 ), csgD (curli gene) ( Brust et al, 2019 ), papC and papD (P pili genes) ( Brust et al, 2019 ), fyuA ( Yersinia siderophore receptor gene) ( Johnson et al, 2015 ), iroNec (salmochelin siderophore receptor gene) ( Johnson et al, 2015 ), entB (enterobactin gene) ( May and Okabe, 2011 ), and ybtS (yersiniabactin gene) ( El Fertas-Aissani et al, 2013 ).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Cluster Differences in Antibiotic Resistance, Biofilm Formation, Mobility, and Virulence of Clinical Enterobacter cloacae Complex

Liu

¹

,

Chen

²

,

Wang

³

et al. 2022

View full text Add to dashboard Cite

Due to the lack of research on the characteristics of different clusters of Enterobacter cloacae complex (ECC), this study aimed to characterize and explore the differences among species of the ECC. An analysis based on hsp60 showed that Enterobacter hormaechei was predominant in ECC. Interestingly, the antibiotic resistance rates of clusters were different, among which E. hormaechei subsp. steigerwaltii (cluster VIII) and Enterobacter cloacae IX (cluster IX) possessed high resistant rates to ciprofloxacin and levofloxacin, but cluster II (Enterobacter kobei) had low resistant rates. Cluster II exhibited a strong biofilm formation ability. Different motility and protease production ability were shown for distinct clusters. A PCR analysis showed that clusters I, III, VI, VIII, and IX carried more virulence genes, while cluster II had fewer. Clusters I, VIII, and IX with high pathogenicity were evaluated using the Galleria mellonella infection model. Thus, the characteristics of resistance, biofilm-forming ability, mobility, and virulence differed among the clusters. The strains were divided into 12 subgroups based on hsp60. The main clusters of ECC clinical strains were I, II, III, VI, VIII, and IX, among which IX, VIII, and I were predominant with high resistance and pathogenicity, and cluster II (E. kobei) was a special taxon with a strong biofilm formation ability under nutrient deficiency, but was associated with low resistance, virulence, and pathogenicity. Hence, clinical classification methods to identify ECC subgroups are an urgent requirement to guide the treatment of clinical infections.

show abstract

“…E. cloacae is an important opportunistic pathogen with complex genetic elements that can produce a variety of antibiotic hydrolases, and current studies have shown that carbapenemase, especially NDM-1, is the main resistance mechanism of carbapenem-resistant E. cloacae (CR-ECL) [1,2]. E. cloacae infect hosts and cause disease through various mechanisms, such as colonization, invasion, evasion of the immune response, and release of toxins [3,4], and its pathogenic process is closely related to various virulence factors such as fimbriae, siderophore, toxin secretion system, biofilm, efflux pump, virulence island and lipopolysaccharide [5][6][7]. E. cloacae contains abundant plasmid and chromosomal genomes and has easy access to multiple mobile genetic elements containing antimicrobial resistance genes and virulence genes, both of which play an important role in the evolution of bacteria mainly through gene-level transfer and are interrelated [3].…”

Section: Introductionmentioning

confidence: 99%

Antimicrobial resistance, molecular characteristics, virulence and pathogenicity of bla NDM-1-positive Enterobacter cloacae

Wang

¹

,

Dai

²

,

Niu

³

et al. 2023

Journal of Medical Microbiology

0

View full text Add to dashboard Cite

Introduction. The bla NDM-1 -positive Enterobacter cloacae has led to limited therapeutic options for clinical treatment. Hypothesis/Gap Statement. Analysing the antimicrobial resistance and molecular typing of bla NDM-1-positive E. cloacae is of great significance. Meanwhile, the effect of the bla NDM-1 gene on the virulence and pathogenicity of E. cloacae remains unclear and should be assessed. Aim. To understand bla NDM-1-positive E. cloacae from different perspectives. Methodology. The PCR was used to screen bla NDM-1-positive E. cloacae , then, antimicrobial susceptibility tests and multilocus sequence typing (MLST) were performed on them; sixty-nine strains of bla NDM-1-negative E. cloacae were collected as the controls, 28 pairs of virulence-related genes' carriage and biofilm-forming ability were detected for preliminary evaluation of the virulence phenotype of the strains; to gain insight into the effect of the bla NDM-1 gene on the virulence and pathogenicity of E. cloacae , the bla NDM-1-positive E. cloacae T2 (NDM-1), the T2 bla NDM-1 knockout strain (ΔNDM-1) and ATCC13047 (ST) were studied, compared the motility, anti-serum killing ability, and virulence to cells. Then, the mice intraperitoneal infection model was established, the survival curve, histopathological characteristics, bacterial load in spleen and the contents of cytokines were compared. Results. (1) Thirty-five bla NDM-1-positive E. cloacae exhibited multidrug resistance. MLST distinguished 12 STs, ST74 was the most common clonal type (11/35), followed by ST114 (10/35). (2) The detection rates of virulence genes clpB, icmf, VasD/Lip and acrA in the bla NDM-1-positive E. cloacae were significantly higher than those in bla NDM-1-negative E. cloacae (P<0.05), while there was no significant difference in the amount of biofilm formation between two groups. (3) The presence of bla NDM-1 gene attenuated the motility diameter of E. cloacae , but had no significant effect on their ability to resist serum killing, and the virulence to cells. The survival rate, histopathological changes, bacterial load in spleen and inflammatory cytokines were not significantly affected. Conclusions. (1) The bla NDM-1-positive E. cloacae exhibited multidrug resistance, and the MLST typing was mainly ST74 and ST114, with a small-scale clonal spread of the ST114 strain in the hospital NICU ward. (2) The bla NDM-1 gene did not affect the virulence and pathogenicity of E. cloacae .

show abstract

Macrocolony of NDM-1 Producing Enterobacter hormaechei subsp. oharae Generates Subpopulations with Different Features Regarding the Response of Antimicrobial Agents and Biofilm Formation

Cited by 11 publications

References 61 publications

The membrane depolarization and increase intracellular calcium level produced by silver nanoclusters are responsible for bacterial death

The membrane depolarization and increase intracellular calcium level produced by silver nanoclusters are responsible for bacterial death

Cluster Differences in Antibiotic Resistance, Biofilm Formation, Mobility, and Virulence of Clinical Enterobacter cloacae Complex

Antimicrobial resistance, molecular characteristics, virulence and pathogenicity of bla NDM-1-positive Enterobacter cloacae

Contact Info

Product

Resources

About