Your search keyword '"Maldonado-Barragán, Antonio"' showing total 5 results

1. Unravelling patient pathways in the context of antibacterial resistance in East Africa

Author

Keenan, Katherine, Fredricks, Kathryn J., Al Ahad, Mary Abed, Neema, Stella, Mwanga, Joseph R., Kesby, Mike, Mushi, Martha F., Aduda, Annette, Green, Dominique L., Lynch, Andy G., Huque, Sarah I., Mmbaga, Blandina T., Worthington, Hannah, Kansiime, Catherine, Olamijuwon, Emmanuel, Ntinginya, Nyanda E., Loza, Olga, Bazira, Joel, Maldonado-Barragán, Antonio, Smith, VAnne, Decano, Arun Gonzales, Njeru, John Mwaniki, Sandeman, Alison, Stelling, John, Elliott, Alison, Aanensen, David, Gillespie, Stephen H., Kibiki, Gibson, Sabiiti, Wilber, Sloan, Derek J., Asiimwe, Benon B., Kiiru, John, Mshana, Stephen E., and Holden, Matthew T. G.

Published

2023

2. Purification and genetic characterization of gassericin E, a novel co-culture inducible bacteriocin from Lactobacillus gasseri EV1461 isolated from the vagina of a healthy woman

Author

Ministerio de Economía y Competitividad (España), Junta de Andalucía, Maldonado-Barragán, Antonio, Caballero-Guerrero, Belén, Martín, Virginia, Ruiz-Barba, José Luis, Rodríguez, Juan Miguel, Ministerio de Economía y Competitividad (España), Junta de Andalucía, Maldonado-Barragán, Antonio, Caballero-Guerrero, Belén, Martín, Virginia, Ruiz-Barba, José Luis, and Rodríguez, Juan Miguel

Abstract

Background Lactobacillus gasseri is one of the dominant Lactobacillus species in the vaginal ecosystem. Some strains of this species have a high potential for being used as probiotics in order to maintain vaginal homeostasis, since they may confer colonization resistance against pathogens in the vagina by direct inhibition through production of antimicrobial compounds, as bacteriocins. In this work we have studied bacteriocin production of gassericin E (GasE), a novel bacteriocin produced by L. gasseri EV1461, a strain isolated from the vagina of a healthy woman, and whose production was shown to be promoted by the presence of certain specific bacteria in co-culture. Biochemical and genetic characterization of this novel bacteriocin are addressed. Results We found that the inhibitory spectrum of L. gasseri EV1461 was broad, being directed to species both related and non-related to the producing strain. Interestingly, L. gasseri EV1461 inhibited the grown of pathogens usually associated with bacterial vaginosis (BV). The antimicrobial activity was due to the production of a novel bacteriocin, gassericin E (GasE). Production of this bacteriocin in broth medium only was achieved at high cell densities. At low cell densities, bacteriocin production ceased and only was restored after the addition of a supernatant from a previous bacteriocin-producing EV1461 culture (autoinduction), or through co-cultivation with several other Gram-positive strains (inducing bacteria). DNA sequence of the GasE locus revealed the presence of two putative operons which could be involved in biosynthesis and immunity of this bacteriocin (gaeAXI), and in regulation, transport and processing (gaePKRTC). The gaePKR encodes a putative three-component regulatory system, involving an autoinducer peptide (GaeP), a histidine protein kinase (GaeK) and a response regulator (GaeR), while the gaeTC encodes for an ABC transporter (GaeT) and their accessory protein (GaeC), involved in transport and process

Published

2016

3. Antibiotic resistance, virulence determinants and production of biogenic amines among enterococci from ovine, feline, canine, porcine and human milk

Author

Ministerio de Economía y Competitividad (España), Jiménez, Esther, Ladero Losada, Víctor Manuel, Chico, Irene, Maldonado-Barragán, Antonio, López, María, Martín, Virginia, Fernández, Leónides, Fernández García, María, Álvarez González, Miguel Ángel, Torres, Carmen, Rodríguez Gómez, Juan M., Ministerio de Economía y Competitividad (España), Jiménez, Esther, Ladero Losada, Víctor Manuel, Chico, Irene, Maldonado-Barragán, Antonio, López, María, Martín, Virginia, Fernández, Leónides, Fernández García, María, Álvarez González, Miguel Ángel, Torres, Carmen, and Rodríguez Gómez, Juan M.

Abstract

[Background] Recent studies have shown that mammalian milk represents a continuous supply of commensal bacteria, including enterococci. The objectives of this study were to evaluate the presence of enterococci in milk of different species and to screen them for several genetic and phenotypic traits of clinical significance among enterococci., [Results] Samples were obtained from, at least, nine porcine, canine, ovine, feline and human healthy hosts. Enterococci could be isolated, at a concentration of 1.00 × 102 -1.16 × 103 CFU/ml, from all the porcine samples and, also from 85, 50, 25 and 25% of the human, canine, feline and ovine ones, respectively. They were identified as Enterococcus faecalis, Enterococcus faecium, Enterococcus hirae, Enterococcus casseliflavus and Enterococcus durans. Among the 120 initial enterococcal isolates, 36 were selected on the basis of their different PFGE profiles and further characterized. MLST analysis revealed a wide diversity of STs among the E. faecalis and E. faecium strains, including some frequently associated to hospital infections and novel STs. All the E. faecalis strains possessed some of the potential virulence determinants (cad, ccf, cob, cpd, efaA fs , agg2, gelE, cylA, esp fs ) assayed while the E. faecium ones only harboured the efaA fm gene. All the tested strains were susceptible to tigecycline, linezolid and vancomycin, and produced tyramine. Their susceptibility to the rest of the antimicrobials and their ability to produce other biogenic amines varied depending on the strain. Enterococci strains isolated from porcine samples showed the widest spectrum of antibiotic resistance., [Conclusions] Enterococci isolated from milk of different mammals showed a great genetic diversity. The wide distribution of virulence genes and/or antibiotic resistance among the E. faecalis and E. faecium isolates indicates that they can constitute a reservoir of such traits and a risk to animal and human health.

Published

2013

4. Purification and genetic characterization of gassericin E, a novel co-culture inducible bacteriocin from Lactobacillus gasseri EV1461 isolated from the vagina of a healthy woman.

Author

Maldonado-Barragán, Antonio, Caballero-Guerrero, Belén, Martín, Virginia, Ruiz-Barba, José Luis, and Rodríguez, Juan Miguel

Subjects

*BACTERIOCINS, *ANTIBACTERIAL agents, *AGROCINS, *LACTOBACILLUS gasseri, *LACTOBACILLUS

Abstract

Background: Lactobacillus gasseri is one of the dominant Lactobacillus species in the vaginal ecosystem. Some strains of this species have a high potential for being used as probiotics in order to maintain vaginal homeostasis, since they may confer colonization resistance against pathogens in the vagina by direct inhibition through production of antimicrobial compounds, as bacteriocins. In this work we have studied bacteriocin production of gassericin E (GasE), a novel bacteriocin produced by L. gasseri EV1461, a strain isolated from the vagina of a healthy woman, and whose production was shown to be promoted by the presence of certain specific bacteria in co-culture. Biochemical and genetic characterization of this novel bacteriocin are addressed. Results: We found that the inhibitory spectrum of L. gasseri EV1461 was broad, being directed to species both related and non-related to the producing strain. Interestingly, L. gasseri EV1461 inhibited the grown of pathogens usually associated with bacterial vaginosis (BV). The antimicrobial activity was due to the production of a novel bacteriocin, gassericin E (GasE). Production of this bacteriocin in broth medium only was achieved at high cell densities. At low cell densities, bacteriocin production ceased and only was restored after the addition of a supernatant from a previous bacteriocin-producing EV1461 culture (autoinduction), or through co-cultivation with several other Gram-positive strains (inducing bacteria). DNA sequence of the GasE locus revealed the presence of two putative operons which could be involved in biosynthesis and immunity of this bacteriocin (gaeAXI), and in regulation, transport and processing (gaePKRTC). The gaePKR encodes a putative three-component regulatory system, involving an autoinducer peptide (GaeP), a histidine protein kinase (GaeK) and a response regulator (GaeR), while the gaeTC encodes for an ABC transporter (GaeT) and their accessory protein (GaeC), involved in transport and processing of the bacteriocin. The gaeAXI, encodes for the bacteriocin gassericin E (GasE), a putative peptide bacteriocin (GaeX), and their immunity protein (GaeI). Conclusions: The origin of the strain (vagina of healthy woman) and its ability to produce bacteriocins with inhibitory activity against vaginal pathogens may be an advantage for using L. gasseri EV1461 as a probiotic strain to fight and/or prevent bacterial infections as bacterial vaginosis (BV), since it could be better adapted to live and compete into the vaginal environment. [ABSTRACT FROM AUTHOR]

Published

2016

5. Antibiotic resistance, virulence determinants and production of biogenic amines among enterococci from ovine, feline, canine, porcine and human milk.

Author

Jiménez, Esther, Ladero, Victor, Chico, Irene, Maldonado-Barragán, Antonio, López, María, Martín, Virginia, Fernández, Leonides, Fernández, María, Álvarez, Miguel A., Torres, Carmen, and Rodríguez, Juan M.

Subjects

ENTEROCOCCUS, MILK, MAMMALS, MICROBIAL virulence, DRUG resistance, BIOGENIC amines

Abstract

Background Recent studies have shown that mammalian milk represents a continuous supply of commensal bacteria, including enterococci. The objectives of this study were to evaluate the presence of enterococci in milk of different species and to screen them for several genetic and phenotypic traits of clinical significance among enterococci. Results Samples were obtained from, at least, nine porcine, canine, ovine, feline and human healthy hosts. Enterococci could be isolated, at a concentration of 1.00 × 10² -1.16 × 10³ CFU/ml, from all the porcine samples and, also from 85, 50, 25 and 25% of the human, canine, feline and ovine ones, respectively. They were identified as Enterococcus faecalis, Enterococcus faecium, Enterococcus hirae, Enterococcus casseliflavus and Enterococcus durans. Among the 120 initial enterococcal isolates, 36 were selected on the basis of their different PFGE profiles and further characterized. MLST analysis revealed a wide diversity of STs among the E. faecalis and E. faecium strains, including some frequently associated to hospital infections and novel STs. All the E. faecalis strains possessed some of the potential virulence determinants (cad, ccf, cob, cpd, efaAfs, agg2, gelE, cylA, espfs) assayed while the E. faecium ones only harboured the efaAfm gene. All the tested strains were susceptible to tigecycline, linezolid and vancomycin, and produced tyramine. Their susceptibility to the rest of the antimicrobials and their ability to produce other biogenic amines varied depending on the strain. Enterococci strains isolated from porcine samples showed the widest spectrum of antibiotic resistance. Conclusions Enterococci isolated from milk of different mammals showed a great genetic diversity. The wide distribution of virulence genes and/or antibiotic resistance among the E. faecalis and E. faecium isolates indicates that they can constitute a reservoir of such traits and a risk to animal and human health. [ABSTRACT FROM AUTHOR]

Published

2013