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1.
PLoS Pathog ; 10(6): e1004260, 2014 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-24950221

RESUMO

Analysis of the transcriptome of Borrelia burgdorferi, the causative agent of Lyme disease, during infection has proven difficult due to the low spirochete loads in the mammalian tissues. To overcome this challenge, we have developed an In Vivo Expression Technology (IVET) system for identification of B. burgdorferi genes expressed during an active murine infection. Spirochetes lacking linear plasmid (lp) 25 are non-infectious yet highly transformable.Mouse infection can be restored to these spirochetes by expression of the essential lp25-encoded pnc A gene alone. Therefore, this IVET-based approach selects for in vivo-expressed promoters that drive expression of pncA resulting in the recovery of infectious spirochetes lacking lp25 following a three week infection in mice.Screening of approximately 15,000 clones in mice identified 289 unique in vivo-expressed DNA fragments from across all 22 replicons of the B. burgdorferi B31 genome. The in vivo-expressed candidate genes putatively encode proteins in various functional categories including antigenicity, metabolism, motility, nutrient transport and unknown functions. Candidate gene bbk46 on essential virulence plasmid lp36 was found to be highly induced in vivo and to be RpoS-independent. The bbk46 gene was dispensable for B. burgdorferi infection in mice. Our findings highlight the power of the IVET-based approach for identification of B. burgdorferi in vivo-expressed genes, which might not be discovered using other genome-wide gene expression methods. Further investigation of the novel in vivo-expressed candidate genes will contribute to advancing the understanding of molecular mechanisms of B.burgdorferi survival and pathogenicity in the mammalian host.


Assuntos
Borrelia burgdorferi/imunologia , Borrelia burgdorferi/patogenicidade , Doença de Lyme/imunologia , Sequências Reguladoras de Ácido Nucleico/genética , Fatores de Virulência/genética , Sequência de Aminoácidos , Animais , Borrelia burgdorferi/genética , Modelos Animais de Doenças , Feminino , Deleção de Genes , Perfilação da Expressão Gênica , Regulação Bacteriana da Expressão Gênica , Genoma Bacteriano/genética , Genótipo , Doença de Lyme/genética , Doença de Lyme/patologia , Camundongos , Camundongos Endogâmicos C3H , Camundongos SCID , Fases de Leitura Aberta/genética , Fenótipo , Alinhamento de Sequência , Transcriptoma/genética , Fatores de Virulência/biossíntese , Fatores de Virulência/imunologia
2.
J Infect Dis ; 211(8): 1326-33, 2015 Apr 15.
Artigo em Inglês | MEDLINE | ID: mdl-25362196

RESUMO

BACKGROUND: Meropenem plus levofloxacin treatment was shown to be a promising combination in our in vitro hollow fiber infection model. We strove to validate this finding in a murine Pseudomonas pneumonia model. METHODS: A dose-ranging study with meropenem and levofloxacin alone and in combination against Pseudomonas aeruginosa was performed in a granulocytopenic murine pneumonia model. Meropenem and levofloxacin were administered to partially humanize their pharmacokinetic profiles in mouse serum. Total and resistant bacterial populations were estimated after 24 hours of therapy. Pharmacokinetic profiling of both drugs was performed in plasma and epithelial lining fluid, using a population model. RESULTS: Meropenem and levofloxacin penetrations into epithelial lining fluid were 39.3% and 64.3%, respectively. Both monotherapies demonstrated good exposure responses. An innovative combination-therapy analytic approach demonstrated that the combination was statistically significantly synergistic (α = 2.475), as was shown in the hollow fiber infection model. Bacterial resistant to levofloxacin and meropenem was seen in the control arm. Levofloxacin monotherapy selected for resistance to itself. No resistant subpopulations were observed in any combination therapy arm. CONCLUSIONS: The combination of meropenem plus levofloxacin was synergistic, producing good bacterial kill and resistance suppression. Given the track record of safety of each agent, this combination may be worthy of clinical trial.


Assuntos
Antibacterianos/farmacologia , Levofloxacino/farmacologia , Pneumonia/tratamento farmacológico , Infecções por Pseudomonas/tratamento farmacológico , Pseudomonas aeruginosa/efeitos dos fármacos , Tienamicinas/farmacologia , Animais , Modelos Animais de Doenças , Sinergismo Farmacológico , Quimioterapia Combinada/métodos , Feminino , Meropeném , Camundongos , Testes de Sensibilidade Microbiana/métodos , Pneumonia/microbiologia , Infecções por Pseudomonas/microbiologia
3.
Antimicrob Agents Chemother ; 59(1): 622-32, 2015 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-25385113

RESUMO

A recent report found that generic parenteral vancomycin products may not have in vivo efficacies equivalent to those of the innovator in a neutropenic murine thigh infection model despite having similar in vitro microbiological activities and murine serum pharmacokinetics. We compared the in vitro and in vivo activities of six of the parenteral vancomycin products available in the United States. The in vitro assessments for the potencies of the vancomycin products included MIC/minimal bactericidal concentration (MBC) determinations, quantifying the impact of human and murine serum on the MIC values, and time-kill studies. Also, the potencies of the vancomycin products were quantified with a biological assay, and the human and mouse serum protein binding rates for the vancomycin products were measured. The in vivo studies included dose-ranging experiments with the 6 vancomycin products for three isolates of Staphylococcus aureus in a neutropenic mouse thigh infection model. The pharmacokinetics of the vancomycin products were assessed in infected mice by population pharmacokinetic modeling. No differences were seen across the vancomycin products with regard to any in vitro evaluation. Inhibitory sigmoid maximal bacterial kill (Emax) modeling of the relationship between vancomycin dosage and the killing of the bacteria in mice in vivo yielded similar Emax and EC50 (drug exposure driving one-half Emax) values for bacterial killing. Further, there were no differences in the pharmacokinetic clearances of the 6 vancomycin products from infected mice. There were no important pharmacodynamic differences in the in vitro or in vivo activities among the six vancomycin products evaluated.


Assuntos
Staphylococcus aureus/efeitos dos fármacos , Vancomicina/farmacocinética , Animais , Proteínas Sanguíneas/metabolismo , Modelos Animais de Doenças , Relação Dose-Resposta a Droga , Avaliação Pré-Clínica de Medicamentos/métodos , Feminino , Humanos , Infusões Parenterais , Staphylococcus aureus Resistente à Meticilina/efeitos dos fármacos , Camundongos Endogâmicos , Testes de Sensibilidade Microbiana , Infecções Estafilocócicas/tratamento farmacológico , Infecções Estafilocócicas/microbiologia , Estados Unidos , Vancomicina/farmacologia
4.
PLoS Pathog ; 9(8): e1003567, 2013.
Artigo em Inglês | MEDLINE | ID: mdl-24009501

RESUMO

Analysis of the transcriptome of Borrelia burgdorferi, the causative agent of Lyme disease, during infection has proven difficult due to the low spirochete loads in the mammalian tissues. To overcome this challenge, we have developed an In Vivo Expression Technology (IVET) system for identification of B. burgdorferi genes expressed during an active murine infection. Spirochetes lacking linear plasmid (lp) 25 are non-infectious yet highly transformable. Mouse infection can be restored to these spirochetes by expression of the essential lp25-encoded pncA gene alone. Therefore, this IVET-based approach selects for in vivo-expressed promoters that drive expression of pncA resulting in the recovery of infectious spirochetes lacking lp25 following a three week infection in mice. Screening of approximately 15,000 clones in mice identified 289 unique in vivo-expressed DNA fragments from across all 22 replicons of the B. burgdorferi B31 genome. The in vivo-expressed candidate genes putatively encode proteins in various functional categories including antigenicity, metabolism, motility, nutrient transport and unknown functions. Candidate gene bbk46 on essential virulence plasmid lp36 was found to be highly induced in vivo and to be RpoS-independent. Immunocompetent mice inoculated with spirochetes lacking bbk46 seroconverted but no spirochetes were recovered from mouse tissues three weeks post inoculation. However, the bbk46 gene was not required for B. burgdorferi infection of immunodeficient mice. Therefore, through an initial IVET screen in B. burgdorferi we have identified a novel in vivo-induced virulence factor critical for the ability of the spirochete to evade the humoral immune response and persistently infect mice.


Assuntos
Proteínas de Bactérias/biossíntese , Borrelia burgdorferi/metabolismo , Borrelia burgdorferi/patogenicidade , Regulação Bacteriana da Expressão Gênica , Genoma Bacteriano , Doença de Lyme/metabolismo , Fatores de Virulência/biossíntese , Animais , Proteínas de Bactérias/genética , Borrelia burgdorferi/genética , Modelos Animais de Doenças , Feminino , Doença de Lyme/genética , Doença de Lyme/patologia , Camundongos , Fatores de Virulência/genética
5.
J Infect Dis ; 210(8): 1319-24, 2014 Oct 15.
Artigo em Inglês | MEDLINE | ID: mdl-24760199

RESUMO

BACKGROUND: Killing of bacterial pathogens by granulocytes is a saturable process, as previously demonstrated. There is virtually no quantitative information about how granulocytes interact with antimicrobial chemotherapy to kill bacterial cells. METHODS: We performed a dose-ranging study with the aminoglycoside plazomicin against Pseudomonas aeruginosa ATCC27853 in a granulocyte-replete murine pneumonia model. Plazomicin was administered in a humanized fashion (ie, administration of decrementing doses 5 times over 24 hours, mimicking a human daily administration profile). Pharmacokinetic profiling was performed in plasma and epithelial lining fluid. All samples were simultaneously analyzed with a population model. Mouse cohorts were treated for 24 hours; other cohorts treated with the same therapy were observed for another 24 hours after therapy cessation, allowing delineation of the therapeutic effect necessary to reduce the bacterial burden to a level below the half-saturation point. RESULTS: The mean bacterial burden (±SD) at which granulocyte-mediated kill was half saturable was 2.45 × 10(6) ± 6.84 × 10(5) colony-forming units of bacteria per gram of tissue (CFU/g). Higher levels of plazomicin exposure reduced the bacterial burden to <5 log10 CFU/g, allowing granulocytes to kill an additional 1.0-1.5 log CFU/g over the subsequent 24 hours. CONCLUSIONS: For patients with large bacterial burdens (eg, individuals with ventilator-requiring hospital-acquired pneumonia), it is imperative to kill ≥2 log10 CFU/g early after treatment initiation, to allow the granulocytes to contribute optimally to bacterial clearance.


Assuntos
Granulócitos/fisiologia , Pneumonia Bacteriana/microbiologia , Infecções por Pseudomonas/microbiologia , Pseudomonas aeruginosa/fisiologia , Sisomicina/análogos & derivados , Animais , Antibacterianos/administração & dosagem , Antibacterianos/farmacocinética , Antibacterianos/uso terapêutico , Relação Dose-Resposta a Droga , Farmacorresistência Bacteriana , Feminino , Camundongos , Testes de Sensibilidade Microbiana , Pneumonia Bacteriana/tratamento farmacológico , Pneumonia Bacteriana/imunologia , Infecções por Pseudomonas/tratamento farmacológico , Infecções por Pseudomonas/imunologia , Sisomicina/administração & dosagem , Sisomicina/farmacocinética , Sisomicina/uso terapêutico
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