<i>Galleria mellonella</i>–intracellular bacteria pathogen infection models: the ins and outs

Asai, Masanori; Li, Yanwen; Newton, Sandra M.; Robertson, Brian; Langford, Paul R.

doi:10.1093/femsre/fuad011

Cited by 14 publications

(18 citation statements)

References 299 publications

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“…Multiple authoritative studies have highlighted Galleria mellonella's role as a stable in vivo model, characterized by its cost-effectiveness, user-friendliness, and absence of ethical limitations. This model produces results similar to those achieved through vertebrate in vivo experiments [58][59][60] . In our initial step, we introduced various concentrations of ASP_Au NPs into healthy Galleria mellonella to gauge in vivo safety and dismiss the possibility of drug-induced mortality.…”

Section: In Vivo Antimicrobial Performance Studysupporting

confidence: 71%

A Potential Strategy against Clinical Carbapenem-Resistant Enterobacteriaceae: Antimicrobial Activity Study of Sweetener-Decorated Gold Nanoparticles in Vitro and in Vivo

Liu,

Huang,

Chen

et al. 2023

Preprint

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Background Carbapenem-resistant Enterobacteriaceae (CRE) present substantial challenges to clinical intervention, necessitating the formulation of novel antimicrobial strategies to counteract them. Nanomaterials offer a distinctive avenue for eradicating bacteria by employing mechanisms divergent from traditional antibiotic resistance pathways and exhibiting reduced susceptibility to drug resistance development. Non-caloric artificial sweeteners, commonly utilized in the food sector, such as saccharin, sucralose, acesulfame, and aspartame, possess structures amenable to nanomaterial formation. In this investigation, we synthesized gold nanoparticles decorated with non-caloric artificial sweeteners and evaluated their antimicrobial efficacy against clinical CRE strains. Results Among these, gold nanoparticles decorated with aspartame (ASP_Au NPs) exhibited the most potent antimicrobial effect, displaying minimum inhibitory concentrations ranging from 4 to 16 µg/mL. As a result, ASP_Au NPs were chosen for further experimentation. Elucidation of the antimicrobial mechanism unveiled that ASP_Au NPs substantially elevated bacterial reactive oxygen species (ROS) levels, which dissipated upon ROS scavenger treatment, indicating ROS accumulation within bacteria as the fundamental antimicrobial modality. Furthermore, findings from membrane potential assessments suggested that ASP_Au NPs may represent a potential antimicrobial modality via depolarization of bacterial membranes. In addition, experiments involving crystal violet demonstrated effective suppression of bacterial biofilm formation by ASP_Au NPs. Moreover, ASP_Au NPs demonstrated notable efficacy in the treatment of Galleria mellonella bacterial infection and acute abdominal infection in mice, concurrently mitigating the organism's inflammatory response. Crucially, evaluation of in vivo safety and biocompatibility established that ASP_Au NPs exhibited negligible toxicity at bactericidal concentrations. Conclusions Our results demonstrated that ASP_Au NPs exhibit promise as innovative antimicrobial agents against clinical CRE.

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Section: In Vivo Antimicrobial Performance Studysupporting

confidence: 71%

A Potential Strategy against Clinical Carbapenem-Resistant Enterobacteriaceae: Antimicrobial Activity Study of Sweetener-Decorated Gold Nanoparticles in Vitro and in Vivo

Liu,

Huang,

Chen

et al. 2023

Preprint

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“…In contrast, an Fth strain-specific virulence has been indicated by other studies using human monocytes (THP-1), murine macrophages (J774A.1; ( Matz and Petrosino, 2021 )) and a co-culture of human hepatocytes and macrophages ( Rennert et al., 2016 ).These findings can, however, only be considered comparable with our results to a certain extent due to different cell types and experimental procedures used. To investigate Francisella virulence different models has been used so far, including animal models (see above and below), the Fruit Fly ( Drosophila melanogaster ( Vonkavaara et al., 2008 ; Ahlund et al., 2010 ; Asare et al., 2010 ), the larvae of the Greater Wax Moth ( Galleria mellonella , ( Aperis et al., 2007 ; Thelaus et al., 2018 ; Asai et al., 2023 )) and Dictyostelium discoideum ( Lampe et al., 2015 ; Brenz et al., 2018 ), as well as cell-dependent models such as Drosophila S2 cells ( Santic et al., 2009 ; Asare et al., 2010 ) and macrophages ( Qin and Mann, 2006 ; Maier et al., 2007 ; Rasmussen et al., 2015 ; Matz and Petrosino, 2021 ). However, it is always the question of transferability of results obtained by animal- or cell-line models to the human host.…”

Section: Discussionmentioning

confidence: 99%

Ex vivo infection model for Francisella using human lung tissue

Köppen

Fatykhova

Holland

et al. 2023

Front. Cell. Infect. Microbiol.

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IntroductionTularemia is mainly caused by Francisella tularensis (Ft) subsp. tularensis (Ftt) and Ft subsp. holarctica (Ftt) in humans and in more than 200 animal species including rabbits and hares. Human clinical manifestations depend on the route of infection and range from flu-like symptoms to severe pneumonia with a mortality rate up to 60% without treatment. So far, only 2D cell culture and animal models are used to study Francisella virulence, but the gained results are transferable to human infections only to a certain extent.MethodIn this study, we firstly established an ex vivo human lung tissue infection model using different Francisella strains: Ftt Life Vaccine Strain (LVS), Ftt LVS ΔiglC, Ftt human clinical isolate A-660 and a German environmental Francisella species strain W12-1067 (F-W12). Human lung tissue was used to determine the colony forming units and to detect infected cell types by using spectral immunofluorescence and electron microscopy. Chemokine and cytokine levels were measured in culture supernatants.ResultsOnly LVS and A-660 were able to grow within the human lung explants, whereas LVS ΔiglC and F-W12 did not replicate. Using human lung tissue, we observed a greater increase of bacterial load per explant for patient isolate A-660 compared to LVS, whereas a similar replication of both strains was observed in cell culture models with human macrophages. Alveolar macrophages were mainly infected in human lung tissue, but Ftt was also sporadically detected within white blood cells. Although Ftt replicated within lung tissue, an overall low induction of pro-inflammatory cytokines and chemokines was observed. A-660-infected lung explants secreted slightly less of IL-1β, MCP-1, IP-10 and IL-6 compared to Ftt LVS-infected explants, suggesting a more repressed immune response for patient isolate A-660. When LVS and A-660 were used for simultaneous co-infections, only the ex vivo model reflected the less virulent phenotype of LVS, as it was outcompeted by A-660.ConclusionWe successfully implemented an ex vivo infection model using human lung tissue for Francisella. The model delivers considerable advantages and is able to discriminate virulent Francisella from less- or non-virulent strains and can be used to investigate the role of specific virulence factors.

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“…We used Galleria mellonella larvae as an infection model ( Ménard et al, 2021 ; Asai et al, 2023 ). The strains were derived from RT-qPCR consistently, as detailed in Supplementary Table 3 .…”

Section: Methodsmentioning

confidence: 99%

Differences in molecular characteristics and expression of virulence genes in carbapenem-resistant and sensitive Klebsiella pneumoniae isolates in Ningbo, China

Jiang,

Qiu,

Shui

et al. 2024

Front. Microbiol.

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BackgroundIn recent years, Klebsiella pneumoniae has attracted attention because of its increasing drug resistance. At the same time, the migration and pathogenicity caused by its virulence genes also bring many difficulties to the diagnosis and treatment of clinical infections. However, it is currently unclear whether there are differences in virulence and pathogenicity with changes in drug resistance.ObjectiveTo understand the differences in molecular characteristics and expression of virulence genes in carbapenem-resistant Klebsiella pneumoniae (CRKP) and carbapenem-sensitive Klebsiella pneumoniae (CSKP).MethodsUsing polymerase chain reaction (PCR), we examined capsule polysaccharide-related genes and virulence genes in 150 clinical isolates of CRKP and 213 isolates of CSKP from the local area in Ningbo, China. Multilocus sequence typing (MLST) was used to analyze the phylogenetic relationships of clinical Klebsiella pneumoniae isolates. Furthermore, real-time quantitative PCR (RT-qPCR) was used to analyze the expression differences of common virulence genes in CSKP and CRKP, and the virulence was further verified by the larval model of Galleria mellonella.ResultsThe study found that the detection rates of genes rmpA, iroB, peg-344, magA, aerobactin, alls, kfu, and entB were significantly higher in CSKP compared to CRKP. The capsule gene types K1 and K2 were more common in CSKP, while K5 was more common in CRKP. Hypervirulent Klebsiella pneumoniae (hvKP) was predominantly from CSKP. CRKP strains exhibited noticeable homogeneity, with ST11 being the predominant sequence type among the strains. CSKP strains showed greater diversity in ST types, but ST23 was still the predominant sequence type. Carbapenem-sensitive hypervirulent Klebsiella pneumoniae (CS-hvKP) had higher expression of rmpA and rmpA2 genes compared to carbapenem-resistant hypervirulent Klebsiella pneumoniae (CR-hvKP). In the wax moth virulence model, the survival rate of CS-hvKP was significantly lower than that of CR-hvKP.ConclusionThere is a significant difference in the distribution of virulence genes between CSKP and CRKP, with CSKP carrying a significantly greater number of virulence genes. Furthermore, compared to CSKP, CRKP strains exhibit noticeable homogeneity, with ST11 being the predominant sequence type among the strains. Additionally, in terms of virulence gene expression efficiency and virulence, CSKP is significantly higher than CRKP.

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Galleria mellonella–intracellular bacteria pathogen infection models: the ins and outs

Cited by 14 publications

References 299 publications

A Potential Strategy against Clinical Carbapenem-Resistant Enterobacteriaceae: Antimicrobial Activity Study of Sweetener-Decorated Gold Nanoparticles in Vitro and in Vivo

A Potential Strategy against Clinical Carbapenem-Resistant Enterobacteriaceae: Antimicrobial Activity Study of Sweetener-Decorated Gold Nanoparticles in Vitro and in Vivo

Ex vivo infection model for Francisella using human lung tissue

Differences in molecular characteristics and expression of virulence genes in carbapenem-resistant and sensitive Klebsiella pneumoniae isolates in Ningbo, China

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