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Cloning and characterization of AdeMNO RND efflux pump of Acinetobacter baumanniiCortez-Cordova, Jenny Lilian 01 November 2010 (has links)
Acinetobacter baumannii is an opportunistic pathogen which has been implicated in a variety of nosocomial infections among immunocompromised patients worldwide. Recently, Multi-drug resistant (MDR) isolates of A. baumannii have been isolated from military personnel returning from service in Iraq and Afghanistan. Antibiotic resistance of A. baumannii has limited the number of active antibacterial, making very difficult to treat these types of infections. This work investigated the role of Resistance-Nodulation-cell Division (RND) efflux pumps in the antibiotic resistance mechanism of A. baumannii. Expression of six different RND pumps was analyzed in clinical isolates of A. baumannii. A novel RND family pump, AdeMNO, was found to be present in a majority of isolates. The adeMNO operon was cloned, sequenced, and characterized using the single copy gene expression system in an efflux sensitized surrogate Pseudomonas aeruginosa strain. Antibiotics, trimethoprim, chloramphenicol, and clindamicin were identified as the substrates of this pump. In order to understand the mechanisms of regulation of adeMNO operon, a putative regulator belonging to the lysR-family was identified, cloned, and sequenced from the upstream region of the operon. Promoter regions of the adeMNO operon were also sequenced from various clinical isolates and sequence polymorphisms identified that could be implicated in the regulation of adeMNO expression. / UOIT
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Development of a soil respiration isotopic sampling systemMurray, Sam January 2014 (has links)
The rate of carbon turnover in soil is a balance between the input of carbon by plants through their roots and associated fungi and the loss of carbon due to plant and microbial respiration, oxidation and leaching. Soil carbon dynamics are notoriously difficult to measure, and being able to separate total soil respiration into its autotrophic and heterotrophic components would help understanding of carbon cycling processes. Where autotrophic respiration originates from roots and their associated mycorrhizal fungi, using newly fixed carbon, and heterotrophic respiration originates from the breakdown of older soil organic matter.
By calculating the δ¹³C signature of respired CO₂ (the ratio of the abundances of C isotopes ¹²C and ¹³C) it is possible to determine whether it is of heterotrophic or autotrophic origin. In this study a 6 chamber, constant CO₂ concentration measuring apparatus was developed to determine both the rate of CO₂ efflux and to collect undisturbed CO₂ samples for isotope analysis. This apparatus was tested using live soil samples with different δ¹³C values (-22 ‰ to -27 ‰) and respiration rates (2 – 8 µmol m⁻² s⁻¹) obtained from various locations in New Zealand. Testing involved taking samples using the respiration apparatus, then incubating the same samples in a bag, and then comparing the two. There was no difference between the results from the soil respiration apparatus and the bags (R²=0.96, p=0.0002).
Twelve microcosms including soil and grass were extracted from a newly converted dairy farm and placed into in growth cabinets. Diurnal courses of partitioned soil respiration were made over 24 hours with constant soil temperature to eliminate temperatures effect on soil respiration. Half were then covered with 90% shade cloth for 12 days to test if a reduction in light (and therefore newly fixed carbon) would have any effect on soil respiration. There was a significant reduction in soil respiration, yet no detectable change in the δ¹³C of soil respired CO₂ under heavily shaded treatment. There was however there was a shift towards heterotrophic dominated respiration. This shows that while L. perenne is resilient to surrounding conditions it is susceptible to change if exposed to different conditions for prolonged periods of time. The use of this new technique in the field will allow improved understanding of factors effecting soil C efflux.
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Fibroblast growth factor-2 protects neonatal rat cardiac myocytes from doxorubicin-induced damage via protein kinase C- dependent effects on efflux drug transportersWang, Jie 22 January 2013 (has links)
Introduction: Therapeutic agents like doxorubicin, an anthracycline antibiotic drug, are widely used in cancer chemotherapy. The use of doxorubicin is limited however by an increased risk of cardiac damage as a side effect, and an increased cancer cell drug resistance mediated by efflux drug transporters. Strategies are needed to protect the heart and still allow the benefits of drug treatment. “Basic” fibroblast growth factor-2 (FGF-2) is a multi-functional protein. It is angiogenic and cardioprotective against ischemia-reperfusion injury. FGF-2 can also regulate cancer cell drug resistance or sensitivity, however, so far, there is no evidence that FGF-2 protects against doxorubicin-induced cardiac damage through effects on efflux drug transporter levels or function.
Aims: To investigate whether: (1) FGF-2 can increase resistance to doxorubicin-induced neonatal rat cardiac myocyte damage; and if so whether (2) an effect on efflux drug transporters might contribute to this cardioprotection by FGF-2.
Methods: Neonatal rat cardiac myocyte cultures were treated with doxorubicin in the absence or presence of pre-treatment with FGF-2. To assess cell damage: (i) culture medium was tested for lactate dehydrogenase (LDH) activity as an indication of plasma membrane disruption; (ii) cells were stained with fluorescent apoptosis and necrosis biomarkers as well as (iii) terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) and acridine orange to assess DNA fragmentation or compaction. The role of FGF receptor (FGFR) or protein kinase C (PKC) was addressed through use of inhibitors including SU5402, or chelerythrine as well as bisindomaleimide. Multidrug resistance gene 1a and 1b (MDR1a, 1b), multidrug resistance gene 2 (MDR2) and multidrug resistance-related protein 1 (MRP1) gene expression, as well as the function of MDRs and MRPs protein products were assessed by real-time reverse transcriptase-polymerase chain reaction (qPCR), as well as retention/extrusion of (fluorescent) doxorubicin/calcein in cardiac myocytes, respectively. Efflux drug transporter inhibitors, including 20 µM cyclosporine A (CsA), 2 µM verapamil and 1 µM Tariquidar (XR9576) were used to asssess for a direct effect of FGF-2 on transporter function. Fluorescence-activated cell sorting (FACS) was used to measure fluorescent doxorubicin/calcein levels inside treated cardiac myocytes.
Results: Doxorubicin increased the incidence of programmed cell death, DNA damage, and lysosome and LDH activity, while decreasing cell number at 24 hours. FGF-2 prevented the detrimental effects of doxorubicin. In turn, the protective effects of FGF-2 were blocked in the presence of FGFR or PKC inhibitors. FGF-2 treatment significantly increased MDR1a, MDR1b, MDR2, MRP1 RNA levels by qPCR, and protein levels as assessed by function, and specifically extrusion of doxorubicin/calcein, in the presence of doxorubicin when compared to doxorubicin treatment alone. Furthermore, inhibition of efflux drug transporters with CsA and Tariquidar (XR9576) significantly reduced the ability of FGF-2 to protect against doxorubicin-induced damage; the beneficial effect of FGF-2 was completely blocked by pretreatment with verapamil.
Conclusion(s): These data indicate for the first time that exogenous FGF-2 can increase resistance to doxorubicin-induced neonatal rat cardiac myocyte damage, and implicate PKC and regulation of efflux transporter protein levels and/or function in the mechanism.
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Fibroblast growth factor-2 protects neonatal rat cardiac myocytes from doxorubicin-induced damage via protein kinase C- dependent effects on efflux drug transportersWang, Jie 22 January 2013 (has links)
Introduction: Therapeutic agents like doxorubicin, an anthracycline antibiotic drug, are widely used in cancer chemotherapy. The use of doxorubicin is limited however by an increased risk of cardiac damage as a side effect, and an increased cancer cell drug resistance mediated by efflux drug transporters. Strategies are needed to protect the heart and still allow the benefits of drug treatment. “Basic” fibroblast growth factor-2 (FGF-2) is a multi-functional protein. It is angiogenic and cardioprotective against ischemia-reperfusion injury. FGF-2 can also regulate cancer cell drug resistance or sensitivity, however, so far, there is no evidence that FGF-2 protects against doxorubicin-induced cardiac damage through effects on efflux drug transporter levels or function.
Aims: To investigate whether: (1) FGF-2 can increase resistance to doxorubicin-induced neonatal rat cardiac myocyte damage; and if so whether (2) an effect on efflux drug transporters might contribute to this cardioprotection by FGF-2.
Methods: Neonatal rat cardiac myocyte cultures were treated with doxorubicin in the absence or presence of pre-treatment with FGF-2. To assess cell damage: (i) culture medium was tested for lactate dehydrogenase (LDH) activity as an indication of plasma membrane disruption; (ii) cells were stained with fluorescent apoptosis and necrosis biomarkers as well as (iii) terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) and acridine orange to assess DNA fragmentation or compaction. The role of FGF receptor (FGFR) or protein kinase C (PKC) was addressed through use of inhibitors including SU5402, or chelerythrine as well as bisindomaleimide. Multidrug resistance gene 1a and 1b (MDR1a, 1b), multidrug resistance gene 2 (MDR2) and multidrug resistance-related protein 1 (MRP1) gene expression, as well as the function of MDRs and MRPs protein products were assessed by real-time reverse transcriptase-polymerase chain reaction (qPCR), as well as retention/extrusion of (fluorescent) doxorubicin/calcein in cardiac myocytes, respectively. Efflux drug transporter inhibitors, including 20 µM cyclosporine A (CsA), 2 µM verapamil and 1 µM Tariquidar (XR9576) were used to asssess for a direct effect of FGF-2 on transporter function. Fluorescence-activated cell sorting (FACS) was used to measure fluorescent doxorubicin/calcein levels inside treated cardiac myocytes.
Results: Doxorubicin increased the incidence of programmed cell death, DNA damage, and lysosome and LDH activity, while decreasing cell number at 24 hours. FGF-2 prevented the detrimental effects of doxorubicin. In turn, the protective effects of FGF-2 were blocked in the presence of FGFR or PKC inhibitors. FGF-2 treatment significantly increased MDR1a, MDR1b, MDR2, MRP1 RNA levels by qPCR, and protein levels as assessed by function, and specifically extrusion of doxorubicin/calcein, in the presence of doxorubicin when compared to doxorubicin treatment alone. Furthermore, inhibition of efflux drug transporters with CsA and Tariquidar (XR9576) significantly reduced the ability of FGF-2 to protect against doxorubicin-induced damage; the beneficial effect of FGF-2 was completely blocked by pretreatment with verapamil.
Conclusion(s): These data indicate for the first time that exogenous FGF-2 can increase resistance to doxorubicin-induced neonatal rat cardiac myocyte damage, and implicate PKC and regulation of efflux transporter protein levels and/or function in the mechanism.
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Identification and analysis of Rob, a transcriptional regulator from Serratia marcescensNasiri, Jalil 02 February 2011 (has links)
Serratia marcescens, a member of Enterobacteriaceae family, is a causative agent of nosocomial and opportunistic infections. Numerous reports show that the multidrug resistance among S. marcescens is growing. This organism has high-level intrinsic resistance to a variety of antimicrobial agents, which makes the treatment of infections caused by this bacterium very difficult. The major mechanism for antibiotic resistance, especially to fluoroquinolones, in Gram-negative organisms is the active efflux of the antibiotic molecule mediated by efflux pumps belonging to the Resistance-Nodulation-Cell Division (RND) family. It was previously shown that the SdeAB and SdeXY multidrug efflux pumps are important for conferring the intrinsic drug resistance in S.marcescens. In Escherichia coli, the up-regulation of transcriptional activators, such as MarA, SoxS and Rob, affect transcription of acrAB, tolC and micF. Over-expression of Rob results in increased expression of the E. coli AcrAB-TolC efflux pump and decreases outer membrane permeability through up-regulation of micF, resulting in multidrug, organic solvent and heavy metal resistance. In the present study, we report the identification of a rob gene in S. marcescens which has a 70% identity at the DNA level and 71% identity at the amino acid level to that of E. coli. Moreover, the S. marcescens rob demonstrated similar properties to the E. coli rob including having an effect on expression of outer membrane protein F (OmpF) and over-expression of SdeAB and SdeXY, conferring antibiotic resistance to divergent antibacterial agents and tolerance to organic solvents. We performed rob promoter evaluations using transcriptional fusions to the Green Fluorescence Protein (GFP) in the vector pGlow-TOPO and constructed a rob knock-out using the TargeTron Gene Knockout System. Promoter activity assessment, using the pGlow-TOPO reporter plasmid, showed that rob had higher promoter activity at 37°C than 30°C. In the presence of 2,2’-dipyridyl, rob promoter activity was observed to be slightly increased in the early and mid-log phase by 1.4 and 1.1 fold, respectively. We also showed that sodium decanoate and sodium salicylate can reduce the transcription of rob at 30°C and 37°C. This reduction was observed more potently when rob was exposed to sodium decanoate at 30°C. Minimum inhibitory concentration (MIC) for various antibiotics of the S. marcescens rob knock-out demonstrated a decrease in susceptibility to nalidixic acid, tetracycline, chloramphenicol, ciprofloxacin, norfloxacin, and ofloxacin. Over-expression of rob resulted in an increased resistance by 4, 2, and 2-fold to nalidixic acid, tetracycline and chloramphenicol, respectively. In addition, rob over-production displayed 8, 4, and 4-fold increase in resistance to ciprofloxacin, norfloxacin, ofloxacin, respectively. To discover the role of rob in the efflux mechanism, we performed ethidium bromide accumulation assays on over-expressing and knock-out strains. Organic solvent tolerance assays were carried out using n-hexane to determine if rob is involved in expression of efflux pumps. We found the rob null mutant to be sensitive to n-hexane while the over-expression of rob resulted in resistance to n-hexane. RT-PCR of the rob knock-out strain showed a decrease in expression of micF, ompC, sdeXY, sdeAB and tolC, respectively, and an increase in the expression of ompF. To conclude, we identified a rob homolog in S. marcescens which contributes to resistance to multiple antibiotics and tolerance to organic solvent.
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Regulation of Lipid Droplet Cholesterol Efflux from Macrophage Foam Cells: a Role for Oxysterols and AutophagyOuimet, Mireille 21 November 2011 (has links)
Macrophage foam cells are the major culprits in atherosclerotic lesions, having a prominent role in both lesion initiation and progression. With atherosclerosis being the main factor underlying cardiovascular complications, there is a long-standing interest on finding ways to reverse lipid buildup in plaques. Studies have shown that promoting reverse cholesterol transport (RCT) from macrophage foam cells is anti-atherogenic because it alleviates the cholesterol burden of the plaques. The goal of this thesis was to gain insight into the mechanisms that govern cholesterol efflux from macrophage foam cells. The first part of this study looked at the ability of different oxysterols to promote cholesterol efflux in unloaded as compared to lipid-loaded macrophages, and our major finding here is that epoxycholesterol decreases efflux in lipid-loaded macrophages. It appears that epoxycholesterol does so by impairing the release cholesterol from its cellular storage site, the lipid droplet (LD), where it accumulates in the form of cholesteryl esters (CE). These results highlighted the importance of cholesterol release from LDs for efflux; indeed, this process is increasingly being recognized as the rate-limiting step for RCT in vivo. Subsequent experiments aimed at elucidating the mechanisms that govern LD CE hydrolysis in macrophage foam cells lead to the discovery of a novel pathway involved in cholesterol efflux. Macrophage CE hydrolysis is classically defined as being entirely dependent on neutral CE hydrolases. In the second part of this study, we demonstrate that in addition to the canonical CE hydrolases, which mediate neutral lipid hydrolysis, lysosomal acid lipase (LAL) also participates in the hydrolysis of cytoplasmic CE. Autophagy is specifically triggered in macrophages by atherogenic lipoproteins and delivers LD CE to LAL in lysosomes, thus generating free cholesterol for efflux. This autophagy-mediated cholesterol efflux is a process that is primarily dependant on the ABCA1 transporter and, importantly, is important for whole-body RCT. Overall, the studies presented in this thesis support that macrophage LD CE hydrolysis is rate-limiting for cholesterol efflux and shed light on the mechanisms of cholesterol mobilization for efflux in macrophage foam cells.
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Identification and analysis of Rob, a transcriptional regulator from Serratia marcescensNasiri, Jalil 02 February 2011 (has links)
Serratia marcescens, a member of Enterobacteriaceae family, is a causative agent of nosocomial and opportunistic infections. Numerous reports show that the multidrug resistance among S. marcescens is growing. This organism has high-level intrinsic resistance to a variety of antimicrobial agents, which makes the treatment of infections caused by this bacterium very difficult. The major mechanism for antibiotic resistance, especially to fluoroquinolones, in Gram-negative organisms is the active efflux of the antibiotic molecule mediated by efflux pumps belonging to the Resistance-Nodulation-Cell Division (RND) family. It was previously shown that the SdeAB and SdeXY multidrug efflux pumps are important for conferring the intrinsic drug resistance in S.marcescens. In Escherichia coli, the up-regulation of transcriptional activators, such as MarA, SoxS and Rob, affect transcription of acrAB, tolC and micF. Over-expression of Rob results in increased expression of the E. coli AcrAB-TolC efflux pump and decreases outer membrane permeability through up-regulation of micF, resulting in multidrug, organic solvent and heavy metal resistance. In the present study, we report the identification of a rob gene in S. marcescens which has a 70% identity at the DNA level and 71% identity at the amino acid level to that of E. coli. Moreover, the S. marcescens rob demonstrated similar properties to the E. coli rob including having an effect on expression of outer membrane protein F (OmpF) and over-expression of SdeAB and SdeXY, conferring antibiotic resistance to divergent antibacterial agents and tolerance to organic solvents. We performed rob promoter evaluations using transcriptional fusions to the Green Fluorescence Protein (GFP) in the vector pGlow-TOPO and constructed a rob knock-out using the TargeTron Gene Knockout System. Promoter activity assessment, using the pGlow-TOPO reporter plasmid, showed that rob had higher promoter activity at 37°C than 30°C. In the presence of 2,2’-dipyridyl, rob promoter activity was observed to be slightly increased in the early and mid-log phase by 1.4 and 1.1 fold, respectively. We also showed that sodium decanoate and sodium salicylate can reduce the transcription of rob at 30°C and 37°C. This reduction was observed more potently when rob was exposed to sodium decanoate at 30°C. Minimum inhibitory concentration (MIC) for various antibiotics of the S. marcescens rob knock-out demonstrated a decrease in susceptibility to nalidixic acid, tetracycline, chloramphenicol, ciprofloxacin, norfloxacin, and ofloxacin. Over-expression of rob resulted in an increased resistance by 4, 2, and 2-fold to nalidixic acid, tetracycline and chloramphenicol, respectively. In addition, rob over-production displayed 8, 4, and 4-fold increase in resistance to ciprofloxacin, norfloxacin, ofloxacin, respectively. To discover the role of rob in the efflux mechanism, we performed ethidium bromide accumulation assays on over-expressing and knock-out strains. Organic solvent tolerance assays were carried out using n-hexane to determine if rob is involved in expression of efflux pumps. We found the rob null mutant to be sensitive to n-hexane while the over-expression of rob resulted in resistance to n-hexane. RT-PCR of the rob knock-out strain showed a decrease in expression of micF, ompC, sdeXY, sdeAB and tolC, respectively, and an increase in the expression of ompF. To conclude, we identified a rob homolog in S. marcescens which contributes to resistance to multiple antibiotics and tolerance to organic solvent.
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Investigação da formação de biofilme e sua associação com características clínicas e sistemas de bombas de efluxo em Staphylococcus aureusBecker, Ana Paula January 2017 (has links)
Staphylococcus aureus é uma bactéria que pode ser encontrada colonizando diversas partes do corpo humano, entretanto os diversos fatores de virulência que a bactéria possui, ancorados a sua superfície ou excretados para o meio extracelular, tornam essa bactéria um potencial patógeno, causando infecções de pele e tecidos moles, osteomielite, infecções respiratórias, infecções relacionadas a cateteres e outros dispositivos e bacteremia. Um dos fatores de virulência da bactéria, é a habilidade em formar biofilmes. Biofilmes são comunidades bacterianas tridimensionais complexas, que vivem organizadas e aderidas a uma superfície biótica ou abiótica, embebidas em uma matriz exopolimérica. Cerca de 80% das bactérias vivem organizadas na forma de biofilme, pois nestas estruturas são menos sensíveis aos antibióticos e à resposta imune do hospedeiro. A habilidade de S. aureus em formar biofilme é importante pois o torna uma das principais bactérias que infecta dispositivos médicos e implantes, aumentando a morbidade e mortalidade dos pacientes que apresentam esse tipo de infecção. Os medicamentos da classe dos β-lactâmicos eram a principal escolha para o tratamento de S. aureus, entretanto nos últimos anos essa bactéria adquiriu resistência a esses antimicrobianos, através da aquisição do gene mecA, tornando escassa as opções terapêuticas. Como se não bastasse, os biofilmes bacterianos são particularmente mais resistentes a tratamentos com antibióticos, não só devido ao aumento da transmissão de mecanismos de resistência dentro da comunidade, mas também por causa das limitações de difusão da droga colocados pela matriz extracelular, inativação de antibióticos pela alta concentração de íons de metal e baixo pH, entre outros fatores. Combinados, esses atributos tornam o biofilme bacteriano em torno de 1000 vezes mais tolerante e/ou resistente aos antimicrobianos comparado às células planctônicas. A investigação de estudos epidemiológicos para prevenção dessas infecções, bom como de novas estratégias para prevenção e tratamento de infecções por biofilmes, especialmente em isolados clínicos sabidamente multirresistentes, é urgentemente necessária. Dentre estas estratégias estão a pesquisa de diferentes mecanismos ou substâncias capazes de provocar a inibição da formação ou a erradicação do biofilme formado. Neste contexto, 8 os sistemas de bombas de efluxo e inibidores de bombas de efluxo representam uma fonte promissora de erradicação do biofilme formado. O principal objetivo deste estudo é investigar características clínico-epidemiológicas em isolados clínicos que estejam associadas a formação de biofilme, bem como investigar o papel de bombas de efluxo, inibidores dessas bombas e novos genes envolvidos na habilidade de isolados clínicos de S. aureus em formar biofilme. O capítulo 1 associa características clínicas e epidemiológicas com a habilidade de formação de biofilme. O capítulo 2 mostra o papel da adição de antimicrobianos na inibição e erradicação de biofilmes, a associação com inibidores de bomba de efluxo para melhor entender os sistemas de bomba de efluxo na capacidade desses isolados em formar biofilme e por último, novos genes que participam desse processo, em isolados clínicos de MRSA. Este estudo permite planejar ações preventivas para essas infecções relacionadas a biofilmes. Além disso, demonstra que os sistemas de bombas de efluxo parecem ser alvos promissores para erradicar infecções associadas a biofilmes bacterianos. / Staphylococcus aureus can be found colonizing the human body, however its virulence factors anchored to its surface or secreted into the extracellular medium, makes this bacteria as a potential pathogenic, causing skin and soft tissue infections, osteomyelitis, respiratory infections, catheter-related and other devices infections and bacteremia. One of the virulence factors that bacteria produce is the ability to form biofilms. Biofilms are complex three-dimensional bacterial communities, living organized and attached on a biotic or abiotic surface, embedded in a matrix exopolimérica. About 80% of live bacteria are organized in the form of biofilms because in these structures are less sensitive to antibiotic and the host immune response. The ability of S. aureus to form biofilms is important because it makes it one of the main bacteria that infects medical devices and implants, increasing patient morbidity and mortality. The class of β-lactam drugs used to be main choice for the treatment of S. aureus infections, however in recent years the bacteria acquired resistance to these antibiotics by acquiring mecA gene, so therapeutic options becoming scarce. Besides that, bacterial biofilms are particularly resistant to antibiotic treatments, not only due to increased transmission resistance mechanisms within the community, but also because limitations in drug diffusion by extracellular matrix, inactivation of antibiotics due to high concentration of metal ions and low pH, and other factors. Combined, these attributes make the bacterial biofilm around 1000 times more tolerant and / or resistant to antimicrobial compared to planktonic cells. Investigation of epidemiological studies to prevent such infections, as well as new strategies for prevention and treatment of biofilm infections, especially in known multidrug-resistant clinical isolates, is urgently needed. Among these strategies we could list the different search engines or substances capable of causing or inhibiting the formation of biofilm eradication. In this context, system efflux pumps and efflux pump inhibitors represent a promising source of biofilm eradication. The aim of this study is to investigate the clinical and epidemiological characteristics in clinical isolates that are associated with biofilm formation and investigate the role of efflux pumps and inhibitors of these pumps in the ability of S. 10 aureus clinical isoltes to form biofilms. The chapter 1 associates clinical and epidemiological characteristics with biofilm formation ability. Chapter 2 shows the role of the addition of antimicrobials in inhibition and eradication of biofilms, the association with efflux pump inhibitors to better understand the efflux pump systems in the ability of these isolates to form biofilm and, finally, new genes important in MRSA clincal isolates biofilm formation. This study allows planning preventive actions for these biofilm-related infections. In addition, it demonstrates that efflux pump systems appear to be promising targets for eradicating infections associated with bacterial biofilms.
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Modelagem farmacocinética populacional na avaliação do papel da glicoproteína-P na penetração tecidual de fluoroquinolonas / Population pharmacokinetic modeling on evaluation of role P-glycoprotein on fluoroquinolones tissue penetrationZimmermann, Estevan Sonego January 2015 (has links)
Objetivos: O objetivo deste trabalho foi desenvolver modelo farmacocinético (popPK) populacional para descrever simultaneamente as concentrações das fluoroquinolonas (levofloxacino – LEV e ciprofloxacino – CIP) no plasma, pulmão e próstata na presença e ausência do inibidor da P-gp tariquidar (TAR) visando determinar a contribuição desse transportador de efluxo na distribuição tecidual desses antimicrobianos. Método: Para alcançar este objetivo as seguintes etapas foram realizadas: i) foi validado o método analítico de HPLC-fluorescência para quantificação de CIP em amostras de plasma e microdialisado; ii) foram estabelecidas as condições para microdiálise para o CIP e as taxas de recuperação in vitro, por diálise e retrodiálise, e em tecido pulmonar e prostático in vivo por retrodiálise; iii) foi avaliada a farmacocinética do LEV após administração a ratos Wistar via i.v. bolus e por nebulização intratraqueal na dose de 7mg/kg na ausência e após administração prévia de TAR (15 mg/Kg i.v.); iv) foi desenvolvido um modelo popPK para prever as concentrações do LEV simultaneamente no plasma, pulmão e próstata após administração intravenosa e intratraqueal na presença e ausência do TAR; v) foi desenvolvido o modelo popPK para descrever as concentrações de CIP simultaneamente no plasma, pulmão e próstata após administração a ratos Wistar da dose de 7 mg/kg i.v. bolus na presença e ausência de TAR (15 mg/kg i.v.); vi) Para ambos os fármacos os dados foram avaliados por análise não-compartimental e modelados por modelo de quatro compartimentos modificado, com ajuda do software NONMEN®. Resultados e Conclusões. i) Método analítico foi desenvolvido e validado com sucesso para quantificação de CIP em HPLC/fluorescência mostrando-se linear na faixa de 10–2000 ng/mL em plasma e 5–1000 ng/mL em microdialisado com coeficientes de determinação (r2) superiores a 0,99. Os valores obtidos de erro padrão relativo para ensaios de precisão intra e inter-dia foram entre 8,8 e 6,0 %, para microdialisado entre 11,1 e 7,4 % para plasma, respectivamente. Os valores de exatidão foram 86,1% entre 114.3% para microdialisado e 85,6% entre 108,2% para plasma; ii) A avaliação do CIP por microdiálise mostrou recuperação concentração independente (0,25 - 1,5 μg/mL). Além disso, não houve diferença entre as recuperações obtidas por diálise e retrodiálise para o mesmo fluxo. No fluxo selecionado para os experimentos (1,5 μL/min) as recuperações médias por diálise e retrodiálise foram 23,0 ± 2,8% e 22,8 ± 1,6 %, respectivamente. A recuperação relativa das sondas in vivo foi de 11,3 ± 1,9 e 13,1 ± 2,7 % para pulmão e próstata, respectivamente; iii) A análise dos perfis plasmáticos e teciduais LEV após dose intravenosa do grupo controle (sem TAR) mostrou boa penetração tecidual na próstata (ƒT = 0,68) e no pulmão (ƒT = 0,69). Para a mesma via de administração, o grupo TAR mostrou uma penetração praticamente inalterada para o pulmão (ƒT = 0,81) e um aumento de mais de 2 vezes na penetração prostática (ƒT= 1,64). Na dose intratraqueal houve um aumento significativo na biodisponibilidade para o grupo TAR (F = 0,86) em relação ao controle (F = 0,4). Nessa via de administração foi detectado um aumento significativo na exposição (ASC) do pulmão ao LEV no grupo TAR demonstrando que o transporte por efluxo no pulmão é mais relevante quando o fármaco é administrado pela via intratraqueal; iv) Para o LEV, o modelo popPK de quatro compartimentos foi capaz de descrever simultaneamente os dados no plasma, pulmão e próstata na presença e ausência do TAR. Além disso, o modelo para administração intravenosa foi estendido e adaptado para administração intratraqueal. Foi possível analisar o impacto do transporte por efluxo sobre a penetração tecidual do LEV por diferentes vias de administração utilizando o modelo popPK; v) A avaliação do perfil farmacocinético plasmático do CIP após administração intravenosa, na presença e ausência de TAR, demonstrou diferença significativa entre todos os parâmetros calculados por análise não-compartimental, exceto para a constante de velocidade de eliminação (= 0,05). Em relação à penetração tecidual do CIP na próstata e pulmão, não houve alteração significativa nos parâmetros de eliminação e exposição tecidual do fármaco na presença do inibidor de efluxo TAR ( = 0,05), demonstrando que o transporte por efluxo possui papel minoritário no processo de distribuição do fármaco para os tecidos estudados. O modelo popPK de quatro compartimentos foi capaz de descrever as concentrações plasmáticas totais, livres no pulmão e próstata em presença e ausência de TAR, simultaneamente; vi) O modelo popPK desenvolvido permitiu o estudo mais profundo do processo de distribuição do LEV e do CIP no pulmão e próstata. / Objectives: The aim of this study was to develop a population pharmacokinetic model (popPK) able to simultaneously describe fluoroquinolones (levofloxacin – LEV and ciprofloxacin – CIP) concentrations in plasma, lung and prostate in the presence and absence of the inhibitor of P-gp tariquidar (TAR) to determine the contribution of this efflux transporter on the tissue distribution of these antimicrobials. Methods: To achieve this goal the following steps were taken: i) An analytical method by HPLC-fluorescence was developed and validated for CIP analysis in plasma and microdialysate samples; ii) microdialysis conditions were established for CIP including determination of in vitro relative recovery by dialysis and retrodialysis. The relative recovery was also determined in vivo, in lung and prostate, by retrodialysis; iii) LEV pharmacokinetics was evaluated after intravenous (i.v.) bolus and intratracheal (i.t.) administration of 7 mg/kg dose alone and following TAR administration (15 mg/kg i.v.) to Wistar rats; iv) a popPK model was developed to describe and predict LEV concentrations in plasma, lung and prostate following i.v. and i.t. dosing with and without TAR co-administration; v) the popPK model developed was used to describe CIP concentrations in plasma, lung and prostate after i.v. bolus administration of 7 mg/kg in presence and absence of TAR; vi) For both drugs non-compartmental analysis was performed besides data modeling by four compartment model using NONMEN®. Results and Conclusions i) The analytical method was developed and successfully validated for quantification of CIP by HPLC/fluorescence. The method was linear in the range of 10-2000 ng/mL in plasma and 5-1000 ng/mL in tissues microdialysate samples with coefficients of determination (r2) higher than 0.99. The relative standard error (RSD) obtained for intra and inter-day precision were lower than 8.8% and 6.0% for microdialysate and lower than 11.1 and 7.4% for plasma, respectively. The accuracy was 86.1% to 114.3% for microdialysate and 85.6 to 108.2 % for plasma samples; ii) the evaluation of CIP microdialysis probes relative recovery in vitro showed that the recovery was concentration independent (0.25 to 1.5 μg/mL). In addition, there was no statistical difference between the recoveries determined by dialysis and retrodialysis at the same flow rate. Using the selected flow rate (1.5 μL/min) the recoveries by dialysis and retrodialysis were 23.0 ± 2.8% and 22.8 ± 1.6%, respectively. CIP relative recoveries in vivo by retrodialysis were 11.3 ± 1.9 and 13.1 ± 2.7% for lung and prostate, respectively; iii) the analysis of LEV plasma and tissues concentration-time profiles after i.v. dosing showed a good tissue penetration of LEV in the prostate (ƒT = 0.68) and lung (ƒT = 0.69). For the same route of administration, TAR group showed virtually the same penetration into lung (ƒT = 0.81) and an increase of over 2 fold in drug levels in prostate (ƒT = 1.64). For the i.t. dose, there was a significant increase on LEV bioavailability for TAR group (F = 0.86) compared to control (F = 0.4). Furthermore, a significant increase was detected on lung exposure to LEV for TAR group indicating that efflux transport in the lung is more relevant when the drug is administered by the i.t. route; iv) For LEV, a four compartment model was able to describe the data simultaneously in plasma, lung and prostate in the presence and absence of TAR. Moreover, the intravenous model was extended to adapt the intratracheal dosing route. The popPK model allowed to analyze the impact of efflux transport on tissue LEV penetration of different routes of administration; v) the evaluation of plasma CIP profiles after i.v. dosing with and without TAR showed a significant difference in all parameters determined by non-compartmental analysis in the TAR group, except the elimination rate constant (α = 0.05). The CIP tissue penetration in prostate and lung, no significant difference was observed in tissues exposure and elimination rate when TAR was present demonstrating that efflux transporter play a minor role on CIP distribution to tissues investigated (α = 0.05). The popPK model with four compartments was able to describe CIP concentrations in plasma, lung and prostate in the presence and absence of TAR, simultaneously; vi) the popPK model developed allowed a more detailed investigation of LEV and CIP distribution process in lung and prostate.
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Investigação da formação de biofilme e sua associação com características clínicas e sistemas de bombas de efluxo em Staphylococcus aureusBecker, Ana Paula January 2017 (has links)
Staphylococcus aureus é uma bactéria que pode ser encontrada colonizando diversas partes do corpo humano, entretanto os diversos fatores de virulência que a bactéria possui, ancorados a sua superfície ou excretados para o meio extracelular, tornam essa bactéria um potencial patógeno, causando infecções de pele e tecidos moles, osteomielite, infecções respiratórias, infecções relacionadas a cateteres e outros dispositivos e bacteremia. Um dos fatores de virulência da bactéria, é a habilidade em formar biofilmes. Biofilmes são comunidades bacterianas tridimensionais complexas, que vivem organizadas e aderidas a uma superfície biótica ou abiótica, embebidas em uma matriz exopolimérica. Cerca de 80% das bactérias vivem organizadas na forma de biofilme, pois nestas estruturas são menos sensíveis aos antibióticos e à resposta imune do hospedeiro. A habilidade de S. aureus em formar biofilme é importante pois o torna uma das principais bactérias que infecta dispositivos médicos e implantes, aumentando a morbidade e mortalidade dos pacientes que apresentam esse tipo de infecção. Os medicamentos da classe dos β-lactâmicos eram a principal escolha para o tratamento de S. aureus, entretanto nos últimos anos essa bactéria adquiriu resistência a esses antimicrobianos, através da aquisição do gene mecA, tornando escassa as opções terapêuticas. Como se não bastasse, os biofilmes bacterianos são particularmente mais resistentes a tratamentos com antibióticos, não só devido ao aumento da transmissão de mecanismos de resistência dentro da comunidade, mas também por causa das limitações de difusão da droga colocados pela matriz extracelular, inativação de antibióticos pela alta concentração de íons de metal e baixo pH, entre outros fatores. Combinados, esses atributos tornam o biofilme bacteriano em torno de 1000 vezes mais tolerante e/ou resistente aos antimicrobianos comparado às células planctônicas. A investigação de estudos epidemiológicos para prevenção dessas infecções, bom como de novas estratégias para prevenção e tratamento de infecções por biofilmes, especialmente em isolados clínicos sabidamente multirresistentes, é urgentemente necessária. Dentre estas estratégias estão a pesquisa de diferentes mecanismos ou substâncias capazes de provocar a inibição da formação ou a erradicação do biofilme formado. Neste contexto, 8 os sistemas de bombas de efluxo e inibidores de bombas de efluxo representam uma fonte promissora de erradicação do biofilme formado. O principal objetivo deste estudo é investigar características clínico-epidemiológicas em isolados clínicos que estejam associadas a formação de biofilme, bem como investigar o papel de bombas de efluxo, inibidores dessas bombas e novos genes envolvidos na habilidade de isolados clínicos de S. aureus em formar biofilme. O capítulo 1 associa características clínicas e epidemiológicas com a habilidade de formação de biofilme. O capítulo 2 mostra o papel da adição de antimicrobianos na inibição e erradicação de biofilmes, a associação com inibidores de bomba de efluxo para melhor entender os sistemas de bomba de efluxo na capacidade desses isolados em formar biofilme e por último, novos genes que participam desse processo, em isolados clínicos de MRSA. Este estudo permite planejar ações preventivas para essas infecções relacionadas a biofilmes. Além disso, demonstra que os sistemas de bombas de efluxo parecem ser alvos promissores para erradicar infecções associadas a biofilmes bacterianos. / Staphylococcus aureus can be found colonizing the human body, however its virulence factors anchored to its surface or secreted into the extracellular medium, makes this bacteria as a potential pathogenic, causing skin and soft tissue infections, osteomyelitis, respiratory infections, catheter-related and other devices infections and bacteremia. One of the virulence factors that bacteria produce is the ability to form biofilms. Biofilms are complex three-dimensional bacterial communities, living organized and attached on a biotic or abiotic surface, embedded in a matrix exopolimérica. About 80% of live bacteria are organized in the form of biofilms because in these structures are less sensitive to antibiotic and the host immune response. The ability of S. aureus to form biofilms is important because it makes it one of the main bacteria that infects medical devices and implants, increasing patient morbidity and mortality. The class of β-lactam drugs used to be main choice for the treatment of S. aureus infections, however in recent years the bacteria acquired resistance to these antibiotics by acquiring mecA gene, so therapeutic options becoming scarce. Besides that, bacterial biofilms are particularly resistant to antibiotic treatments, not only due to increased transmission resistance mechanisms within the community, but also because limitations in drug diffusion by extracellular matrix, inactivation of antibiotics due to high concentration of metal ions and low pH, and other factors. Combined, these attributes make the bacterial biofilm around 1000 times more tolerant and / or resistant to antimicrobial compared to planktonic cells. Investigation of epidemiological studies to prevent such infections, as well as new strategies for prevention and treatment of biofilm infections, especially in known multidrug-resistant clinical isolates, is urgently needed. Among these strategies we could list the different search engines or substances capable of causing or inhibiting the formation of biofilm eradication. In this context, system efflux pumps and efflux pump inhibitors represent a promising source of biofilm eradication. The aim of this study is to investigate the clinical and epidemiological characteristics in clinical isolates that are associated with biofilm formation and investigate the role of efflux pumps and inhibitors of these pumps in the ability of S. 10 aureus clinical isoltes to form biofilms. The chapter 1 associates clinical and epidemiological characteristics with biofilm formation ability. Chapter 2 shows the role of the addition of antimicrobials in inhibition and eradication of biofilms, the association with efflux pump inhibitors to better understand the efflux pump systems in the ability of these isolates to form biofilm and, finally, new genes important in MRSA clincal isolates biofilm formation. This study allows planning preventive actions for these biofilm-related infections. In addition, it demonstrates that efflux pump systems appear to be promising targets for eradicating infections associated with bacterial biofilms.
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