Your search keyword '"Docobo-Perez F."' showing total 3 results

1. Quinolone Resistance Reversion by Targeting the SOS Response

Author

M. S. Ramos-Guelfo, Jesús Machuca, José-Manuel Rodríguez-Martínez, Jesús Blázquez, Esther Recacha, P. Díaz de Alba, Jerónimo Rodríguez-Beltrán, Álvaro Pascual, Fernando Docobo-Pérez, Universidad de Sevilla. Departamento de Microbiología, [Recacha, E.] Hosp Univ Virgen Macarena, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, [Machuca, J.] Hosp Univ Virgen Macarena, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, [de Alba, P. Diaz] Hosp Univ Virgen Macarena, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, [Ramos-Guelfo, M.] Hosp Univ Virgen Macarena, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, [Pascual, A.] Hosp Univ Virgen Macarena, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, [Recacha, E.] Univ Seville, Dept Microbiol, Seville, Spain, [Docobo-Perez, F.] Univ Seville, Dept Microbiol, Seville, Spain, [Pascual, A.] Univ Seville, Dept Microbiol, Seville, Spain, [Rodriguez-Martinez, J. M.] Univ Seville, Dept Microbiol, Seville, Spain, [Machuca, J.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Docobo-Perez, F.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Rodriguez-Beltran, J.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Pascual, A.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Rodriguez-Martinez, J. M.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Machuca, J.] Univ Seville, CSIC, Hosp Univ Virgen Rocio, Inst Biomed Sevilla IBiS, Seville, Spain, [Docobo-Perez, F.] Univ Seville, CSIC, Hosp Univ Virgen Rocio, Inst Biomed Sevilla IBiS, Seville, Spain, [Rodriguez-Beltran, J.] Univ Seville, CSIC, Hosp Univ Virgen Rocio, Inst Biomed Sevilla IBiS, Seville, Spain, [Pascual, A.] Univ Seville, CSIC, Hosp Univ Virgen Rocio, Inst Biomed Sevilla IBiS, Seville, Spain, [Rodriguez-Martinez, J. M.] Univ Seville, CSIC, Hosp Univ Virgen Rocio, Inst Biomed Sevilla IBiS, Seville, Spain, [Blazquez, J.] CSIC, Centro Nacl Biotecnol, Madrid, Spain, [Blazquez, J.] Hosp Univ Virgen Rocio, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, Ministerio de Sanidad y Consumo, Instituto de Salud Carlos III, Plan Nacional de I + D + i, Instituto de Salud Carlos III, Subdireccion General de Redes y Centros de Investigacion Cooperativa, Ministerio de Economia y Competitividad, Spanish Network for Research in Infectious Diseases, and European Development Regional Fund 'A way to achieve Europe' ERDF

Subjects

0301 basic medicine, SOS response, Evolution, medicine.drug_class, 030106 microbiology, Antibiotics, Reversion, Levofloxacin, Microbial Sensitivity Tests, Drug resistance, Escherichia-coli, Quinolones, Biology, Microbiology, Induction, 03 medical and health sciences, Antibiotic resistance, Ciprofloxacin, In vivo, Virology, Drug Resistance, Bacterial, Escherichia coli, medicine, SOS Response, Genetics, Inhibition, RecA, Bacteria, resistance reversion, Chromosomes, Bacterial, Quinolone, Antimicrobial, QR1-502, Anti-Bacterial Agents, Phenotype, Mutation, Products, quinolones, resensitization of antibiotic-resistant bacteria, Networks, Antibiotic-resistance, Plasmids, Research Article

Abstract

Suppression of the SOS response has been postulated as a therapeutic strategy for potentiating antimicrobial agents. We aimed to evaluate the impact of its suppression on reversing resistance using a model of isogenic strains of Escherichia coli representing multiple levels of quinolone resistance. E. coli mutants exhibiting a spectrum of SOS activity were constructed from isogenic strains carrying quinolone resistance mechanisms with susceptible and resistant phenotypes. Changes in susceptibility were evaluated by static (MICs) and dynamic (killing curves or flow cytometry) methodologies. A peritoneal sepsis murine model was used to evaluate in vivo impact. Suppression of the SOS response was capable of resensitizing mutant strains with genes encoding three or four different resistance mechanisms (up to 15-fold reductions in MICs). Killing curve assays showed a clear disadvantage for survival (Δlog10 CFU per milliliter [CFU/ml] of 8 log units after 24 h), and the in vivo efficacy of ciprofloxacin was significantly enhanced (Δlog10 CFU/g of 1.76 log units) in resistant strains with a suppressed SOS response. This effect was evident even after short periods (60 min) of exposure. Suppression of the SOS response reverses antimicrobial resistance across a range of E. coli phenotypes from reduced susceptibility to highly resistant, playing a significant role in increasing the in vivo efficacy., IMPORTANCE The rapid rise of antibiotic resistance in bacterial pathogens is now considered a major global health crisis. New strategies are needed to block the development of resistance and to extend the life of antibiotics. The SOS response is a promising target for developing therapeutics to reduce the acquisition of antibiotic resistance and enhance the bactericidal activity of antimicrobial agents such as quinolones. Significant questions remain regarding its impact as a strategy for the reversion or resensitization of antibiotic-resistant bacteria. To address this question, we have generated E. coli mutants that exhibited a spectrum of SOS activity, ranging from a natural SOS response to a hypoinducible or constitutively suppressed response. We tested the effects of these mutations on quinolone resistance reversion under therapeutic concentrations in a set of isogenic strains carrying different combinations of chromosome- and plasmid-mediated quinolone resistance mechanisms with susceptible, low-level quinolone resistant, resistant, and highly resistant phenotypes. Our comprehensive analysis opens up a new strategy for reversing drug resistance by targeting the SOS response.

Published

2017

2. Urinary Tract Conditions Affect Fosfomycin Activity against Escherichia coli Strains Harboring Chromosomal Mutations Involved in Fosfomycin Uptake

Author

Álvaro Pascual, Jerónimo Rodríguez-Beltrán, Javier Aznar, José-Manuel Rodríguez-Martínez, Jesús Blázquez, Guillermo Martín-Gutiérrez, Fernando Docobo-Pérez, Instituto de Salud Carlos III, Ministerio de Economía, Industria y Competitividad (España), Red Española de Investigación en Patología Infecciosa, European Commission, Junta de Andalucía, Universidad de Sevilla, [Martin-Gutierrez, G.] Hosp Univ Virgen del Rocio, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, [Aznar, J.] Hosp Univ Virgen del Rocio, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, [Blazquez, J.] Hosp Univ Virgen del Rocio, Unidad Enfermedades Infecciosas Microbiol & Med P, Seville, Spain, [Martin-Gutierrez, G.] Inst Biomed Sevilla IBiS, Seville, Spain, [Docobo-Perez, F.] Inst Biomed Sevilla IBiS, Seville, Spain, [Rodriguez-Beltran, J.] Inst Biomed Sevilla IBiS, Seville, Spain, [Rodriguez-Martinez, J. M.] Inst Biomed Sevilla IBiS, Seville, Spain, [Aznar, J.] Inst Biomed Sevilla IBiS, Seville, Spain, [Pascual, A.] Inst Biomed Sevilla IBiS, Seville, Spain, [Pascual, A.] Hosp Univ Virgen Macarena, Unidad Enfermedades Infecciosas & Microbiol, Seville, Spain, [Docobo-Perez, F.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Rodriguez-Martinez, J. M.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Pascual, A.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Blazquez, J.] Inst Salud Carlos III, REIPI, Madrid, Spain, [Docobo-Perez, F.] Univ Seville, Dept Microbiol, Seville, Spain, [Rodriguez-Martinez, J. M.] Univ Seville, Dept Microbiol, Seville, Spain, [Aznar, J.] Univ Seville, Dept Microbiol, Seville, Spain, [Pascual, A.] Univ Seville, Dept Microbiol, Seville, Spain, [Blazquez, J.] CSIC, Ctr Nacl Biotecnol, Madrid, Spain, [Rodriguez-Martinez, J. M.] Hosp Univ Ramon y Cajal IRYCIS, Dept Microbiol, Madrid, Spain, Plan Nacional de I + D + i, Instituto de Salud Carlos III, Subdireccion General de Redes y Centros de Investigacion Cooperativa, Ministerio de Economia, Industria y Competitividad, Spanish Network for Research in Infectious Diseases, European Development Regional Fund 'A Way to Achieve Europe'-by Operative Program Intelligent Growth from Instituto de Salud Carlos III, Consejeria de Salud, Junta de Andalucia, and VPPI-US fellowship from the University of Sevilla

Subjects

0301 basic medicine, Epidemiology, Urinary system, UTI, 030106 microbiology, Urine, Microbial Sensitivity Tests, Fosfomycin, Biology, Fosfomycin resistance, medicine.disease_cause, Resistant klebsiella-pneumoniae, Infections, fosfomycin resistance, beta-Lactamases, Microbiology, Bacterial-growth, Fosfomycin activity, 03 medical and health sciences, Mechanisms of Resistance, Chromosomal mutations, Phosphonomycin, medicine, Escherichia coli, Humans, Pharmacology (medical), Urinary Tract, Escherichia coli Infections, Pharmacology, Dose oral treatment, Urinary tract infection, Tissue, fosfomycin activity, Chromosomes, Bacterial, chromosomal mutations, Anti-Bacterial Agents, Infectious Diseases, Impact, Susceptibility, Mutation, Urinary Tract Infections, Intravenous fosfomycin, urinary tract infection, Fitness cost, medicine.drug

Abstract

The steps by which Escherichia coli strains harboring mutations related to fosfomycin (FOS) resistance arise and spread during urinary tract infections (UTIs) are far from being understood. The aim of this study was to evaluate the effects of urine, pH, and anaerobiosis on FOS activity against a set of isogenic strains carrying the most prevalent chromosomal mutations conferring FOS resistance (ΔuhpT, ΔglpT, ΔcyaA, and ΔptsI), either singly or in combination. We also studied fosfomycin-resistant E. coli clinical isolates from patients with UTI. Our results demonstrate that urinary tract physiological conditions might have a profound impact on FOS activity against strains with chromosomal FOS resistance mutations. Specifically, acidic pH values and anaerobiosis convert most of the strains categorized as resistant to fosfomycin according to the international guidelines to a susceptible status. Therefore, urinary pH values may have practical interest in the management of UTIs. Finally, our results, together with the high fitness cost associated with FOS resistance mutations, might explain the low prevalence of fosfomycin-resistant E. coli variants in UTIs., This work was supported by Plan Nacional de I+D+i 2013-2016 and the Instituto de Salud Carlos III, Subdirección General de Redes y Centros de Investigación Cooperativa, Ministerio de Economía, Industria y Competitividad, Spanish Network for Research in Infectious Diseases (grants REIPI RD12/0015 and REIPI RD16/0016/0009)—cofinanced by the European Development Regional Fund “A Way to Achieve Europe”—by Operative Program Intelligent Growth 2014-2020 grants FIS PI13/00063 and PI13/01885 from the Instituto de Salud Carlos III, and by grant PI-0044-2013 from the Consejería de Salud, Junta de Andalucía. G.M.-G. was supported by a Río Hortega research contract from the Instituto de Salud Carlos III. F.D.-P. was supported by a VPPI-US fellowship from the University of Sevilla.

Published

2017

3. Population pharmacokinetics of teicoplanin in children

Author

Stéphane Paulus, Michael W. Beresford, E. Scott, Virginia Ramos-Martin, Fernando Docobo-Pérez, Federico Pea, Barry Pizer, Richard J. Drew, William W. Hope, Paul Newland, S. Siner, K. Padmore, Timothy Felton, Matthew Peak, Mark A. Turner, Ramos-Martin V., Paulus S., Siner S., Scott E., Padmore K., Newland P., Drew R.J., Felton T.W., Docobo-Perez F., Pizer B., Pea F., Peak M., Turner M.A., Beresford M.W., Hope W.W., [Ramos-Martín,V, Pizer,B, Turner,MA, Beresford,MW, Hope,WW] Department of Women's and Children's Health, Institute of Translational Medicine, University of Liverpool, Liverpool, United Kingdom. [Ramos-Martín,V, Hope,WW] Molecular and Clinical Pharmacology Department, Institute of Translational Medicine, University of Liverpool, Liverpool, United Kingdom. [Paulus,S, Siner,S, Scott,E, Padmore,K, Drew,RJ, Peak,M, Beresford,MW] Alder Hey Children's NHS Foundation Trust, Liverpool, United Kingdom. [Felton,TW] Manchester Academic Health Science Centre, NIHR Translational Research Facility in Respiratory Medicine, University Hospital of South Manchester NHS Foundation Trust, Manchester, United Kingdom. [Docobo-Pérez,F] Unidad Clínica de Enfermedades Infecciosas y Microbiología, Hospital Universitario Virgen Macarena, Seville, Spain. [Pea,F] nstitute of Clinical Pharmacology, Azienda Ospedaliero-Universitaria Santa Maria della Misericordia, and Department of Experimental and Clinical Medical Sciences, University of Udine, Udine, Italy. [Turner,MA] Liverpool Women's NHS Foundation Trust, Liverpool, United Kingdom.

Subjects

Male, Pediatrics, medicine.disease_cause, Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Primates::Haplorhini::Catarrhini::Hominidae::Humans [Medical Subject Headings], chemistry.chemical_compound, Infecciones estafilocócicas, Medicine, Pharmacology (medical), Child, Organisms::Bacteria::Endospore-Forming Bacteria::Gram-Positive Endospore-Forming Bacteria::Gram-Positive Endospore-Forming Rods::Staphylococcaceae::Staphylococcus::Staphylococcus aureus::Methicillin-Resistant Staphylococcus aureus [Medical Subject Headings], education.field_of_study, medicine.diagnostic_test, Named Groups::Persons::Age Groups::Child::Child, Preschool [Medical Subject Headings], Teicoplanin, Methicillin-Resistant Staphylococcus aureu, Microbial Sensitivity Test, Teicoplanina, Liter, Staphylococcal Infections, Anti-Bacterial Agents, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Diagnosis::Diagnostic Techniques and Procedures::Clinical Laboratory Techniques::Microbiological Techniques::Microbial Sensitivity Tests [Medical Subject Headings], Infectious Diseases, Named Groups::Persons::Age Groups::Adolescent [Medical Subject Headings], Child, Preschool, Creatinine, Chemicals and Drugs::Heterocyclic Compounds::Heterocyclic Compounds, 1-Ring::Azoles::Imidazoles::Creatinine [Medical Subject Headings], Female, Named Groups::Persons::Age Groups::Infant [Medical Subject Headings], Monte Carlo Method, medicine.drug, Chemicals and Drugs::Chemical Actions and Uses::Pharmacologic Actions::Therapeutic Uses::Anti-Infective Agents::Anti-Bacterial Agents [Medical Subject Headings], Human, Adult, Methicillin-Resistant Staphylococcus aureus, medicine.medical_specialty, Adolescent, Population, Urology, Staphylococcus aureus resistente a meticilina, Check Tags::Male [Medical Subject Headings], Microbial Sensitivity Tests, Clinical Therapeutics, Pruebas de sensibilidad Microbiana, Cmin, Pharmacokinetics, Anti-Bacterial Agent, Named Groups::Persons::Age Groups::Adult [Medical Subject Headings], Humans, Information Science::Information Science::Systems Analysis::Operations Research::Monte Carlo Method [Medical Subject Headings], education, Named Groups::Persons::Age Groups::Child [Medical Subject Headings], Diseases::Bacterial Infections and Mycoses::Bacterial Infections::Gram-Positive Bacterial Infections::Staphylococcal Infections [Medical Subject Headings], Staphylococcal Infection, Pharmacology, business.industry, Método de Montecarlo, Infant, Methicillin-resistant Staphylococcus aureus, chemistry, Check Tags::Female [Medical Subject Headings], Therapeutic drug monitoring, business, Chemicals and Drugs::Carbohydrates::Glycoconjugates::Glycopeptides::Teicoplanin [Medical Subject Headings]

Abstract

Teicoplanin is frequently administered to treat Gram-positive infections in pediatric patients. However, not enough is known about the pharmacokinetics (PK) of teicoplanin in children to justify the optimal dosing regimen. The aim of this study was to determine the population PK of teicoplanin in children and evaluate the current dosage regimens. A PK hospital-based study was conducted. Current dosage recommendations were used for children up to 16 years of age. Thirty-nine children were recruited. Serum samples were collected at the first dose interval (1, 3, 6, and 24 h) and at steady state. A standard 2-compartment PK model was developed, followed by structural models that incorporated weight. Weight was allowed to affect clearance (CL) using linear and allometric scaling terms. The linear model best accounted for the observed data and was subsequently chosen for Monte Carlo simulations. The PK parameter medians/means (standard deviation [SD]) were as follows: CL, [0.019/0.023 (0.01)] × weight liters/h/kg of body weight; volume, 2.282/4.138 liters (4.14 liters); first-order rate constant from the central to peripheral compartment ( K cp ), 0.474/3.876 h −1 (8.16 h −1 ); and first-order rate constant from peripheral to central compartment ( K pc ), 0.292/3.994 h −1 (8.93 h −1 ). The percentage of patients with a minimum concentration of drug in serum ( C min ) of 10 mg/liter by day 4 of treatment. The teicoplanin population PK is highly variable in children, with a wider AUC distribution spread than for adults. Therapeutic drug monitoring should be a routine requirement to minimize suboptimal concentrations. IMPORTANCE (This trial has been registered in the European Clinical Trials Database Registry [EudraCT] under registration number 2012-005738-12.)

Published

2014