Decrypting the diversity of microbiome in aquaculture

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Genomic Analysis of a mcr-9.1-Harbouring IncHI2-ST1 Plasmid from Enterobacter ludwigii Isolated in Fish Farming

Publication . Manageiro, Vera; Salgueiro, Vanessa; Rosado, Tânia; Bandarra, Narcisa M.; Ferreira, Eugénia; Smith, Terry; Dias, Elsa; Caniça, Manuela

This study analyzed the resistome, virulome and mobilome of an MCR-9-producing Enterobacter sp. identified in a muscle sample of seabream (Sparus aurata), collected in a land tank from multitrophic fish farming production. Average Nucleotide Identity analysis identified INSAq77 at the species level as an Enterobacter ludwigii INSAq77 strain that was resistant to chloramphenicol, florfenicol and fosfomycin and was susceptible to all other antibiotics tested. In silico antimicrobial resistance analyses revealed genes conferring in silico resistance to β-lactams (blaACT-88), chloramphenicol (catA4-type), fosfomycin (fosA2-type) and colistin (mcr-9.1), as well as several efflux pumps (e.g., oqxAB-type and mar operon). Further bioinformatics analysis revealed five plasmid replicon types, including the IncHI2/HI2A, which are linked to the worldwide dissemination of the mcr-9 gene in different antibiotic resistance reservoirs. The conserved nickel/copper operon rcnR-rcnA-pcoE-ISSgsp1-pcoS-IS903-mcr-9-wbuC was present, which may play a key role in copper tolerance under anaerobic growth and nickel homeostasis. These results highlight that antibiotic resistance in aquaculture are spreading through food, the environment and humans, which places this research in a One Health context. In fact, colistin is used as a last resort for the treatment of serious infections in clinical settings, thus mcr genes may represent a serious threat to human health.

2022-09-10Journal article

Open access

First comparative genomic characterization of the MSSA ST398 lineage detected in aquaculture and other reservoirs

Publication . Salgueiro, Vanessa; Manageiro, Vera; Bandarra, Narcisa M.; Ferreira, Eugénia; Clemente, Lurdes; Caniça, Manuela

Staphylococcus aureus ST398 can cause diseases in several different animals. In this study we analyzed ten S. aureus ST398 previously collected in three different reservoirs in Portugal (humans, gilthead seabream from aquaculture and dolphin from a zoo). Strains tested against sixteen antibiotics, by disk diffusion or minimum inhibitory concentration, showed decreased susceptibility to benzylpenicillin (all strains from gilthead seabream and dolphin) and to erythromycin with an iMLSB phenotype (nine strains), and susceptibility to cefoxitin (methicillin-susceptible S. aureus, MSSA). All strains from aquaculture belonged to the same spa type, t2383, whereas strains from the dolphin and humans belonged to spa type t571. A more detailed analysis using single nucleotide polymorphisms (SNPs)-based tree and a heat map, showed that all strains from aquaculture origin were highly related with each other and the strains from dolphin and humans were more distinct, although they were very similar in ARG, VF and MGE content. Mutations F3I and A100V in glpT gene and D278E and E291D in murA gene were identified in nine fosfomycin susceptible strains. The blaZ gene was also detected in six of the seven animal strains. The study of the genetic environment of erm(T)-type (found in nine S. aureus strains) allowed the identification of MGE (rep13-type plasmids and IS431R-type), presumably involved in the mobilization of this gene. All strains showed genes encoding efflux pumps from major facilitator superfamily (e.g., arlR, lmrS-type and norA/B-type), ATP-binding cassettes (ABC; mgrA) and multidrug and toxic compound extrusion (MATE; mepA/R-type) families, all associated to decreased susceptibility to antibiotics/disinfectants. Moreover, genes related with tolerance to heavy metals (cadD), and several VF (e.g., scn, aur, hlgA/B/C and hlb) were also identified. Insertion sequences, prophages, and plasmids made up the mobilome, some of them associated with ARG, VF and genes related with tolerance to heavy metals. This study highlights that S. aureus ST398 can be a reservoir of several ARG, heavy metals resistance genes and VF, which are essential in the adaption and survival of the bacterium in the different environments and an active agent in its dissemination. It makes an important contribution to understanding the extent of the spread of antimicrobial resistance, as well as the virulome, mobilome and resistome of this dangerous lineage.

2023-03-08Journal article

Open access

Snapshot of resistome, virulome and mobilome in aquaculture

Publication . Salgueiro, Vanessa; Manageiro, Vera; Rosado, Tânia; Bandarra, Narcisa M.; Botelho, Maria João; Dias, Elsa; Caniça, Manuela

Aquaculture environments can be hotspots for resistance genes through the surrounding environment. Our objective was to study the resistome, virulome and mobilome of Gram-negative bacteria isolated in seabream and bivalve molluscs, using a WGS approach. Sixty-six Gram-negative strains (Aeromonadaceae, Enterobacteriaceae, Hafniaceae, Morganellaceae, Pseudomonadaceae, Shewanellaceae, Vibrionaceae, and Yersiniaceae families) were selected for genomic characterization. The species and MLST were determined, and antibiotic/disinfectants/heavy metals resistance genes, virulence determinants, MGE, and pathogenicity to humans were investigated. Our study revealed new sequence-types (e.g. Aeromonas spp. ST879, ST880, ST881, ST882, ST883, ST887, ST888; Shewanella spp. ST40, ST57, ST58, ST60, ST61, ST62; Vibrio spp. ST206, ST205). >140 different genes were identified in the resistome of seabream and bivalve molluscs, encompassing genes associated with β-lactams, tetracyclines, aminoglycosides, quinolones, sulfonamides, trimethoprim, phenicols, macrolides and fosfomycin resistance. Disinfectant resistance genes qacE-type, sitABCD-type and formA-type were found. Heavy metals resistance genes mdt, acr and sil stood out as the most frequent. Most resistance genes were associated with antibiotics/disinfectants/heavy metals commonly used in aquaculture settings. We also identified 25 different genes related with increased virulence, namely associated with adherence, colonization, toxins production, red blood cell lysis, iron metabolism, escape from the immune system of the host. Furthermore, 74.2 % of the strains analysed were considered pathogenic to humans. We investigated the genetic environment of several antibiotic resistance genes, including blaTEM-1B, blaFOX-18, aph(3″)-Ib, dfrA-type, aadA1, catA1-type, tet(A)/(E), qnrB19 and sul1/2. Our analysis also focused on identifying MGE in proximity to these genes (e.g. IntI1, plasmids and TnAs), which could potentially facilitate the spread of resistance among bacteria across different environments. This study provides a comprehensive examination of the diversity of resistance genes that can be transferred to both humans and the environment, with the recognition that aquaculture and the broader environment play crucial roles as intermediaries within this complex transmission network.

2023-12Journal article

Open access

Decrypting the diversity of microbiome in aquaculture

Publication . Salgueiro, Vanessa; Caniça, Manuela; Manageiro, Vera; Nogueira, Isabel

Aquaculture can play an important role in reducing the overexploitation of natural re- sources and feeding the world’s growing population. However, the use of e.g., antibiotics in aquaculture can favor the development of resistant bacteria and jeopardize the safety of its products. Thus, this Ph.D. thesis aimed to contribute to the deciphering of aquaculture’s mi- crobiome and resistome, as well as to the understanding of the role of mobile genetic elements (MGE) in the dissemination of resistance genes in these environments. Several approaches were used, to obtain the results that most reflect the microbiome and resistome of seabream and bivalve mollusks from aquaculture. All microbiomes studied were very diverse, encompassing commensal and pathogenic bacteria from seabream and bivalve mollusks (e.g., Aeromonas,Kocuria, Pseudomonas and Vibrio genera), as well as bacteria important in human medicine (e.g., Staphylococcus aureus, Escherichia coli and Klebsiella pneumoniae). Twenty-one new se- quence types were described in Aeromonas spp., Citrobacter sp., Enterobacter spp., Shewanella spp., Staphylococcus sp. and Vibrio spp. Decreased susceptibilities to phenicols, oxytetracy- cline, β-lactams (namely carbapenems), quinolones, glycopeptides, mupirocin, erythromycin, and colistin were found. The resistome also revealed a great diversity of genes in all samples studied associated with antibiotics (e.g., blaTEM-1B, mecA, sul2, mcr-9.1), disinfectants (e.g.,formA-type), and heavy metals (e.g., sil) resistance. Twenty-five different genes related with increased virulence were also detected. Thirteen new β-lactams resistance genes were identi- fied (e.g., blaCTX-M-246, blaFOX-18, and blaOXA-958) and 35 other resistance genes, namely for antibi- otics (e.g., mcr-9 and qnrD2), heavy metals (e.g., emrA and mdtE) and disinfectants ( sitABCD- type), and virulence factors (e.g., astA and hlyF) were here described for the first time associated with aquaculture. Our results suggest that some of these resistance genes (e.g., erm(T)-type,qnrB19, catA1-type, tet(A), dfrA-type, aph(6)-Id, qacE∆ 1 and merA) are being disseminated by MGE such as plasmids, class 1 integrons, and Tn As1. These findings not only expand our knowledge about aquaculture’s microbiome and resistome, but also provide the necessary xiv information to implement the most suitable measures to control antibiotic resistance in aqua- culture environments.

2023Doctoral thesis

Open access

Publication . Salgueiro, Vanessa; Manageiro, Vera; Bandarra, Narcisa M.; Ferreira, Eugénia; Clemente, Lurdes; Caniça, Manuela

The main aim of this study was the characterization of antibiotic resistance mechanisms in 82 Staphylococcus aureus strains isolated from humans and animals. Antibiotic susceptibility testing was performed on all S. aureus isolates accordingly, and antibiotic-resistant genes were investigated by genotypic methods. The genetic diversity of S. aureus was studied through spa, multilocus sequence typing (MLST), and agr typing methods. The majority of S. aureus from human sources were resistant to cefoxitin (and harbor the mecA gene) and fluoroquinolones, whereas only four strains of S. aureus from animal sources revealed resistance to ciprofloxacin. In the set of S. aureus isolated from humans, the most frequent spa, MLST, and agr group were t032, ST22, and I, respectively. In strains from animal origin the most common spa, MLST, and agr group found were t2383, ST398, and III/not typable, respectively. S. aureus from humans and animals were identified either in clonal complexes CC5, CC30, and CC398, suggesting that they have the same putative founder in their evolution. Considering the three CCs encompassing strains from human and animal reservoirs with different spa-types, we can hypothesize that this might reflect an adaptation to different phylogenetic lineages in those reservoirs (host species) probably associated to genetic diversification of pre-existing strains.

2020-09-03Journal article

Open access