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11	Defining the role of efflux pump inhibitors on anti-TB drugs in Rifampicin resistant clinical Mycobacterium Tuberculosis isolates Pule, Caroline 04 1900 (has links) Thesis (MScMedSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Central dogma suggests that mutations in target genes is the primary cause of resistance to first and second-line anti-TB drugs in Mycobacterium tuberculosis. However, it was previously reported that approximately 5% of Rifampicin mono-resistant clinical M. tuberculosis did not harbor mutations in the rpoB gene. The present study hypothesized that active efflux plays a contributory role in the level of intrinsic resistance to different anti-TB drugs (Isoniazid, Ethionamide, Pyrazinamide, Ethambutol, Ofloxacin, Moxifloxacin, Ciprofloxacin, Streptomycin, Amikacin and Capreomycin in RIF mono-resistant clinical M. tuberculosis isolates with a rpoB531 (Ser-Leu) mutation. This study aimed to define the role of Efflux pump inhibitors (verapamil, carbonylcyanide m-chlorophenylhydrazone and reserpine) in enhancing the susceptibility to different anti-TB drugs in the RIF mono-resistant clinical isolates. The isolates were characterized by determining the level of intrinsic resistance to structurally related/unrelated anti-TB drugs; determining the effect of EPIs on the level of intrinsic resistance in the isolates and comparing the synergistic properties of the combination of EPIs and anti-TB drugs. To achieve this, genetic characterization was done by PCR and DNA sequencing. Phenotyping was done by the MGIT 960 system EpiCenter software to determine the MICs of the different anti-TB drugs and the effect of verapamil and carbonylcyanide m-chlorophenylhydrazone on determined MICs. Due to inability to test reserpine in a MGIT, a different technique (broth microdilution) was used for the reserpine experiment. Additionally; fractional inhibitory concentrations (FIC) indices were calculated for each of these drugs. The FIC assess the anti-TB drugs/inhibitor interactions. STATISTICA Software: version 11 was used for statistical analysis. Results revealed that the RIF mono-resistant isolates were sensitive at the critical concentrations of all 10 drugs tested, with the exception of Pyrazinamide. This could be explained by the technical challenges of phenotypic Pyrazinamide testing. A significant growth inhibitory effect was observed between the combination of EPI and anti-TB drug exposure in vitro. This suggests that verapamil, carbonylcyanide m-chlorophenylhydrazone and reserpine play a significant role in restoring the susceptibility (decrease in intrinsic resistance level) of the RIF mono-resistant isolates to all anti-TB drugs under investigation. Additionally, a synergistic effect was observed by the combination treatment of the anti-TB drugs with the different EPIs. Based on these findings, we proposed a model suggesting that efflux pumps are activated by the presence of anti-TB drugs. The activated pumps extrude multiple or specific anti-TB drugs out of the cell, this in turn decrease the intracellular drug concentration, thereby causing resistance to various anti-TB drugs. In contrast, the addition of EPIs inhibits efflux pump activity, leading to an increase in the intracellular drug concentration and ultimate cell death. This is the first study to investigate the effect of different efflux pumps inhibitors on the level of intrinsic resistance to a broad spectrum of anti-TB drugs in drug resistant M. tuberculosis clinical isolates from different genetic backgrounds. The findings are of clinical significance as the combination of treatment with EPI and anti-TB drugs or use of EPIs as adjunctives could improve MDR-TB therapy outcome. / AFRIKAANSE OPSOMMING: Sentrale dogma beweer dat mutasies in teiken gene die primêre oorsaak van die weerstandheid teen anti-TB-middels in Mycobacterium tuberculosis is. Vorige studies het getoon dat ongeveer 5% van Rifampisien enkelweerstandige kliniese M. tuberculosis isolate nie ‘n mutasie in die rpoB geen het nie. Die hipotese van die huidige studie was dat aktiewe pompe 'n bydraende rol speel in die vlak van intrinsieke weerstandheid teen 10 verskillende anti-TB-middels (Isoniasied, Ethionamied, Pyrazinamied, Ethambutol, Ofloxacin, Moxifloxacin, Siprofloksasien, Streptomisien, Amikasien and Capreomycin) in RIF enkelweerstandige kliniese M . tuberculosis isolate met 'n rpoB531 (Ser-Leu) mutasie. Die doel van hierdie studie was om die rol van uitpomp inhibeerders (verapamil, carbonylcyanide m-chlorophenylhydrazone en reserpien) te definieer in die verbetering van die werking vir verskillende anti-TB-middels in die RIF enkelweerstandige kliniese isolate. Die doelstellings van die studie was om die vlak van intrinsieke weerstandigheid teen struktureel verwante/onverwante anti-tuberkulose middels asook die effek van die EPIs op die vlak van intrinsieke weerstand in die isolate is bepaal. Verder is sinergistiese eienskappe van die kombinasie van EPIs en anti-TB-middels ondersoek. Hierdie doelstellings is bereik deur genetiese karakterisering deur PKR en DNS volgorde bepaling. Fenotipering is gedoen deur gebruik te maak van MGIT 960 EpiCenter sagteware om die Minimum Inhibisie Konsentrasie (MIC) van die verskillende anti-TB-middels en die effek van verapamil en carbonylcyanide m-chlorophenylhydrazone op die MIC te bepaal. Reserpien kan nie in die MGIT sisteem getoets word nie, and daarom is 'n ander tegniek (mikro-verdunning) is gebruik om die effek van reserpien te toets. Fraksionele inhiberende konsentrasies (FIC) is bereken vir elk van hierdie middels die anti-TB-middels / inhibeerder interaksies te bepaal. STATISTICA v11 sagteware is gebruik vir alle statistiese analises. Resultate van hierdie studie toon dat die RIF enkelweerstandige isolate sensitief is teen kritieke konsentrasies van al die middels, met die uitsondering van Pyrazinamied. Weerstandigheid van Pyrazinamied kan wees as gevolg van welbekende tegniese probleme met die standaard fenotipiese pyrazinamied toets. ‘n Beduidende groei inhiberende effek is waargeneem tussen die kombinasie van EPI en anti-TB middel blootstelling in vitro. Dit dui daarop dat verapamil, CCCP en reserpine 'n belangrike rol speel in die herstel van die sensitiwiteit (afname in intrinsieke weerstand vlak) van die RIF enkelweerstandige isolate aan alle anti-TB-middels wat ondersoek is. Daarbenewens is 'n sinergistiese effek waargeneem deur die kombinasie van die verskillende anti-TB-middels en die verskillende EPIs. Op grond van hierdie bevindinge het ons ‘n model voorgestel wat toon dat uitvloei pompe geaktiveer word deur die teenwoordigheid van anti-TB-middels en die geaktiveerde pompe dan verskeie of spesifieke anti-TB-middels uit die sel pomp. Dus verminder die intrasellulêre konsentrasie van die middel en veroorsaak daardeur weerstandigheid teen verskeie anti-TB-middels. Die byvoeging van EPIs inhibeer uitvloei pompe se werking en lei tot 'n toename in die intrasellulêre konsentrasie van die middels en uiteindelik die dood van die selle. Hierdie is die eerste studie wat die effek van verskillende uitvloei pompe inhibeerders op die vlak van intrinsieke weerstand teen 'n breë spektrum van anti-TB-middels in die middel-weerstandige kliniese isolate ondersoek. Die bevindinge kan van belangrike kliniese belang wees aangesien die kombinasie van behandeling met EPI en anti-TB-middels die uitkoms MDR-TB terapie kan verbeter. Efflux pump inhibitors Drug resistance in microorganisms Multidrug resistance Multidrug-resistant tuberculosis Mycobacterium tuberculosis UCTD
12	Avalia????o de muta????es associadas a resist??ncia a Tigeciclina em isolados cl??nicos de Klebsiella pneumoniae produtoras de Carbapenemase do tipo KPC Figueiredo, Fernanda Nomiyama 06 March 2018 (has links) Submitted by Sara Ribeiro (sara.ribeiro@ucb.br) on 2018-04-16T14:40:02Z No. of bitstreams: 1 FernandaNomiyamaFigueiredoDissertacao2018.pdf: 2178476 bytes, checksum: 23f38c14567d00ff189eaef20f904495 (MD5) / Approved for entry into archive by Sara Ribeiro (sara.ribeiro@ucb.br) on 2018-04-16T14:40:47Z (GMT) No. of bitstreams: 1 FernandaNomiyamaFigueiredoDissertacao2018.pdf: 2178476 bytes, checksum: 23f38c14567d00ff189eaef20f904495 (MD5) / Made available in DSpace on 2018-04-16T14:40:47Z (GMT). No. of bitstreams: 1 FernandaNomiyamaFigueiredoDissertacao2018.pdf: 2178476 bytes, checksum: 23f38c14567d00ff189eaef20f904495 (MD5) Previous issue date: 2018-03-06 / Klebsiella pneumoniae is one of the main bacterial agents that may cause infections related to health care assistance. K. pneumoniae frequently carries the resistance gene K. pneumoniae carbapenemase (KPC). Currently, tigecycline can be considered one of the last therapeutic options for KPC, but reports of tigecycline-resistant KPC isolates are on the rise, being indicated as most common mechanism the increased AcrAB-TolC efflux pump system expression. However, molecular tigecycline resistance mechanisms associated to AcrAB-TolC still remains obscure. Thus, the main goal of this study was to verify if tigecycline resistance can be related to the presence of mutations in the regulatory genes of AcrAB-TolC, AcrR and RamR. Therefore, 32 K. pneumoniae isolates were used, identification and antibiogram performed using Vitek 2 systems. The minimum inhibitory concentrations were confirmed using E-test. Primers were designed in order to verify mutations within AcrR and RamR genes. PCR analysis showed that the mutations found within these genes were transversions (94% for AcrR and 90% for RamR) and transitions (6% for AcrR and 10% for RamR). Nevertheless among the mutations, no distinction between tigecycline susceptible and resistant isolates was found. Some of the transversions caused change in the amino acid encoding 6 in AcrR and 15 in RamR. Presence of these types of mutations evaluation can be seen as the first bacterial resistance study step, as it may be caused by oxidative damage for bacterial DNA, frequently caused by antibiotic selective pressure. Tigecycline resistance found in this study`s clinical isolates may be associated to alterations in another genes that can trigger mechanisms associated to this antibiotic. / Klebsiella pneumoniae consiste em um dos principais agentes bacterianos causadores de infec????es relacionadas ?? assist??ncia ?? sa??de (IRAS). K. pneumoniae carrega frequentemente o gene de resist??ncia K. pneumoniae carbapenemase (KPC). Atualmente, a tigeciclina pode ser considerada uma das ??ltimas op????es terap??uticas para KPC, mas os relatos de isolados de KPC resistentes a tigecilina est??o em ascens??o, sendo a hiperexpress??o da bomba de efluxo AcrAB-TolC indicado como mecanismo mais comum. No entanto, os mecanismos moleculares de resist??ncia ?? tigeciclina associada ao AcrAB-TolC permanecem obscuros. Desta forma o objetivo deste trabalho foi verificar se a resist??ncia a tigeciclina pode estar relacionada ?? presen??a de muta????es nos genes ArcR e RamR, reguladores de AcrAB-TolC. Para tanto, 32 isolados de K. pneumoniae foram utilizados, sendo a identifica????o e o antibiograma feitos utilizando o sistema Vitek 2. A confirma????o das concentra????es inibit??rias m??nimas (CIMs) foram realizadas por E-test. Iniciadores foram desenhados para verifica????o de muta????es nos genes (AcrR e RamR). As an??lises por PCR mostraram que as muta????es encontradas nos genes AcrR e RamR foram substitui????es por transvers??o (94% e 90% para AcrR e RamR respectivamente) e transi????o (6% e 10% para AcrR e RamR respectivamente), por??m n??o foi identificada distin????o da presen??a de muta????es entre isolados sens??veis e resistentes a tigeciclina. Algumas tranvers??es ocasionaram mudan??a na codifica????o do amino??cido, sendo 6 em AcrR e 15 em RamR. A avalia????o da presen??a desses tipos de muta????es consiste em um primeiro passo para o estudo da resist??ncia bacteriana, j?? que pode ser causada por dano oxidativo ao DNA bacteriano, frequentemente ocasionado por press??o seletiva dos antibi??ticos. A resist??ncia a tigeciclina encontrada nos isolados cl??nicos do presente estudo, provavelmente pode estar associada a altera????es em outros genes desencadeadores de mecanismos de resist??ncia a tigeciclina. Bomba de efluxo Ci??ncias gen??micas Klebsiella pneumoniae Efflux pump AcrAB-TolC RamR AcrR BIOQUIMICA
13	<i>Campylobacter</i> Pathogenesis and Subunit Vaccine Development Zeng, Ximin 01 August 2010 (has links) Campylobacter jejuni is the leading bacterial cause of human gastroenteritis in the United States. Increasing resistance of Campylobacter to clinical antibiotics raises an urgent need for novel strategies to prevent and control infections in humans and animal reservoirs, which necessitates a better understanding of Campylobacter pathogenesis. We hypothesize that multidrug efflux pump CmeABC and ferric enterobactin (FeEnt) iron acquisition systems, which play a critical role in Campylobacter pathogenesis, are novel targets for developing effective measures against Campylobacter. To test this, the molecular, antigenic, functional, and protective characteristics of two outer membrane proteins, CmeC (an essential component of CmeABC drug efflux pump) and CfrA (a FeEnt receptor), were examined. Both CmeC and CfrA are highly conserved and widely produced in C. jejuni strains. Anti-CmeC and Anti-CfrA antibodies inhibited the function of CmeABC efflux pump and CfrA, resulting enhanced susceptibility to bile salts and reduced utilization of FeEnt of C. jejuni, respectively. Immunoblotting analysis also indicated that CfrA is expressed and immunogenic in vivo. Amino acid substitution mutagenesis demonstrated that a highly conserved basic amino acid R327 in CfrA plays a critical role in FeEnt acquisition. The purified recombinant CmeC and a Salmonella live vaccine expressing the protective epitope of CfrA were evaluated as subunit vaccines against Campylobacter infection in the chicken model. CmeC vaccination elicited immune response but failed to reduce C. jejuni colonization in the intestine. However, Salmonella-vectored vaccine conferred significant protection against C. jejuni challenge. To further elucidate the role of iron acquisition in the pathogenesis of Campylobacter, whole genome sequence of a unique C. jejuni strain was determined using a 454 GS FLX sequencer with Titanium series reagents. Comparative genomics analysis led to the identification of a novel Campylobacter Enterobactin Esterase (Cee) that is essential in the CfrB-dependent FeEnt utilization pathway. Extensive genetic manipulation revealed molecular pathways and mechanistic features of the two orchestrated FeEnt acquisition systems in Campylobacter. This project provides critical information about the feasibility of targeting CmeC and CfrA for immune protection against Campylobacter colonization in the intestine, and increases our understanding of the critical role of FeEnt acquisition in the pathophysiology of Campylobacter. Campylobacter vaccine pathogenesis CmeABC efflux pump CfrA CfrB ferric enterobactin acquisition Cee Pathogenic Microbiology
14	STABILITY STUDIES OF MEMBRANE PROTEINS Ye, Cui 01 January 2014 (has links) The World Health Organization has identified antimicrobial resistance as one of the top three threats to human health. Gram-negative bacteria such as Escherichia coli are intrinsically more resistant to antimicrobials. There are very few drugs either on the market or in the pharmaceutical pipeline targeting Gram-negative pathogens. Two mechanisms, the protection of the outer membrane and the active efflux by the multidrug transporters, play important roles in conferring multidrug resistance to Gram-negative bacteria. My work focuses on two main directions, each aligning with one of the known multidrug resistance mechanisms. The first direction of my research is in the area of the biogenesis of the bacterial outer membrane. The outer membrane serves as a permeability barrier in Gram-negative bacteria. Antibiotics cross the membrane barrier mainly via diffusion into the lipid bilayer or channels formed by outer membrane proteins. Therefore, bacterial drug resistance is closely correlated with the integrity of the outer membrane, which depends on the correct folding of the outer membrane proteins. The folding of the outer membrane proteins has been studied extensively in dilute buffer solution. However, the cell periplasm, where the folding actually occurs, is a crowded environment. In Chapter 2, effects of the macromolecular crowding on the folding mechanisms of two bacterial outer membrane proteins (OmpA and OmpT) were examined. Our results suggested that the periplasmic domain of OmpA improved the efficiency of the OmpA maturation under the crowding condition, while refolding of OmpT was barely affected by the crowding. The second direction of my research focuses on the major multidrug efflux transporter in Gram-negative bacteria, AcrB. AcrB is an obligate trimer, which exists and functions exclusively in a trimeric state. In Chapter 3, the unfolding of the AcrB trimer was investigated. Our results revealed that sodium dodecyl sulfate induced unfolding of the trimeric AcrB started with a local structural rearrangement. While the refolding of secondary structure in individual monomers could be achieved, the re-association of the trimer might be the limiting factor to obtain folded wild type AcrB. In Chapter 4, the correlation between the AcrB trimer stability and the transporter activity was studied. A non-linear correlation was observed, in which the threshold trimer stability was required to maintain the efflux activity. Finally, in Chapter 5, the stability of another inner membrane protein, AqpZ, was studied. AqpZ was remarkably stable. Several molecular engineering approaches were tested to improve the thermal stability of the protein. Multidrug resistance multidrug efflux pump outer membrane proteins protein stability AcrB Biochemistry Molecular Biology Structural Biology
15	INVESTIGATION OF THE TOXICITY AND EFFLUX OF POLYCHLORINATED BIPHENYLS AND HYDROXYLATED POLYCHLORINATED BIPHENYLS IN <em>ESCHERICHIA COLI</em> Geng, Shen 01 January 2011 (has links) Polychlorinated biphenyls (PCBs) are persistent organic pollutants. Due to their properties, PCBs accumulate in the food-chain and post a threat to the health of human beings and wildlife. Hydroxylated PCBs (OH-PCBs) are oxidative metabolites of PCBs and are more hydrophilic than their parent PCBs. One of the best approaches to break down these contaminants is through bioremediation, which is an environmental friendly process that uses microorganisms to restore natural environment. Towards this goal, we have investigated the toxicity and accumulation of PCBs and OH-PCBs in a Gram-negative bacterium, Escherichia coli. We have also determined the role played by a primary multidrug efflux transporter AcrB on the accumulation of PCBs and OH-PCBs in bacterial cell. We found that one of the PCBs tested was toxic to E. coli, while different OH-PCBs have different levels of toxicity; the acrB knockout strain accumulated significantly more PCBs and OH-PCBs than the wild-type strain, suggesting that these compounds are substrates of the efflux pump; higher cytoplasmic concentrations of OH-PCBs were also observed in the acrB knockout strain using the biosensors. Based on these observations, we conclude that both PCBs and OH-PCBs are substrates of protein AcrB. Therefore the efflux activities of multidrug resistant pumps in Gram-negative bacteria should be considered while designing bioremediation approaches. Polychlorinated biphenyls hydroxylated polychlorinated biphenyls E. coli Multidrug Efflux Pump Protein AcrB Chemistry
16	Characterization of Functionally Relevant Resides of Escherichia coli Multi-Drug Efflux Pump Protein AcrB January 2016 (has links) abstract: Emergence of multidrug resistant (MDR) bacteria is a major concern to global health. One of the major MDR mechanisms bacteria employ is efflux pumps for the expulsion of drugs from the cell. In Escherichia coli, AcrAB-TolC proteins constitute the major chromosomally-encoded drug efflux system. AcrB, a trimeric membrane protein is well-known for its substrate promiscuity. It has the ability to efflux a broad spectrum of substrates alongside compounds such as dyes, detergent, bile salts and metabolites. Newly identified AcrB residues were shown to be functionally relevant in the drug binding and translocation pathway using a positive genetic selection strategy. These residues—Y49, V127, D153, G288, F453, and L486—were identified as the sites of suppressors of an alteration, F610A, that confers a drug hypersensitivity phenotype. Using site-directed mutagenesis (SDM) along with the real-time efflux and the classical minimum inhibitory concentration (MIC) assays, I was able to characterize the mechanism of suppression. Three approaches were used for the characterization of these suppressors. The first approach focused on side chain specificity. The results showed that certain suppressor sites prefer a particular side chain property, such as size, to overcome the F610A defect. The second approach focused on the effects of efflux pump inhibitors. The results showed that though the suppressor residues were able to overcome the intrinsic defect of F610A, they were unable to overcome the extrinsic defect caused by the efflux pump inhibitors. This showed that the mechanism by which F610A imposes its effect on AcrB function is different than that of the efflux pump inhibitors. The final approach was to determine whether suppressors mapping in the periplasmic and trans-membrane domains act by the same or different mechanisms. The results showed both overlapping and distinct mechanisms of suppression. To conclude, these approaches have provided a deeper understanding of the mechanisms by which novel suppressor residues of AcrB overcome the functional defect of the drug binding domain alteration, F610A. / Dissertation/Thesis / Masters Thesis Biology 2016 Biology Microbiology AcrAB-TolC AcrB binding and translocation pathway efflux pump F610A
17	ResistÃncia a azÃlicos em candida spp. de origem veterinÃria: um fenÃmeno mediado por bombas de efluxo / AZOLE RESISTANCE IN CANDIDA SPP. FROM VETERINARY SOURCES: AN EFFLUX-MEDIATED PHENOMENON DÃbora Castelo Branco de Souza Collares Maia 15 December 2011 (has links) CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / O monitoramento da sensibilidade antifÃngica em espÃcies de Candida de origem veterinÃria Ã uma prÃtica recente e os mecanismos envolvidos ainda nÃo foram completamente elucidados. Considerando que o arsenal de drogas antifÃngicas Ã limitado e que o fenÃmeno de resistÃncia tem se tornado mais freqÃente, a compreensÃo deste fenÃmeno e a busca por alternativas terapÃuticas se fazem necessÃrias. Dessa forma, o presente trabalho teve como objetivo monitorar a sensibilidade in vitro de Candida spp. oriundas de animais, com Ãnfase na resistÃncia aos azÃlicos mediada por bombas de efluxo e na avaliaÃÃo da atividade do imidazÃlico levamisol sobre o crescimento destas leveduras. Para tanto, em um primeiro momento, foram avaliados 126 isolados de Candida, sendo 19 C. albicans, 17 C. famata, 5 C. guilliermondii, 8 C. krusei, 29 C. parapsilosis, 48 C. tropicalis, dos quais 22 foram isolados de rapinantes, 32 de periquitos do sertÃo, 56 de papagaios, 7 de araras canindÃ e 3 de um ouriÃo-cacheiro. Todas as cepas foram submetidas ao teste de microdiluiÃÃo em caldo, ante a anfotericina B, itraconazol, fluconazol, segundo metodologia padronizada pelo Clinical Laboratory Standards Institute (documento M27-A3). As concentraÃÃes inibitÃrias mÃnimas (CIMs) variaram de 0,03125 a 2 Âg/mL, 0,125 a 250 Âg/mL e de 0,03125 a 125 Âg/mL para anfotericina B, fluconazol e itraconazol, respectivamente. Dos 126 isolados avaliados por microdiluiÃÃo, 33 (26,2%) foram resistentes aos azÃlicos, sendo 7 (5,6%) resistentes somente a fluconazol, 1 (0.8%) resistente somente ao itraconazol e 24 (19%) resistentes a ambas as drogas. Em um segundo momento, todas estas cepas resistentes aos derivados azÃlicos, mais 20 C. albicans e 3 C. tropicalis resgatadas da nossa coleÃÃo de leveduras resistentes de origem veterinÃria, foram submetidas ao teste de inibiÃÃo de bomba de efluxo com prometazina, perfazendo um total de 56 cepas resistentes a azÃlicos. Dessa forma, as CIMs de fluconazol e itraconazol sofreram reduÃÃes significativas de 2 a 250 e de 16 a 4000 vezes, respectivamente. Investigou-se, ainda, a atividade antifÃngica do levamisol contra 12 C. albicans, 12 C. krusei, 12 C. parapsilosis e 12 C. tropicalis, sendo obtidas CIMs e concentraÃÃes fungicidas mÃnimas que variaram de 0,58 a 2,34 mg/mL e de 2,34 a 9,37 mg/mL, respectivamente. Paralelamente, foi demonstrado que o levamisol inibe a formaÃÃo do biofilme de C. albicans e C. tropicalis, bem como interfere na manutenÃÃo do biofilme maduro. Os dados apontam que a resistÃncia aos derivados azÃlicos Ã, pelo menos em parte, mediada por bombas de efluxo, bem como demonstram o potencial antifÃngico do imidazÃlico levamisol e sua capacidade de inibir o biofilme de cepas de Candida spp. oriundas de animais. / Monitoring of the antifungal susceptibility of Candida species from veterinary sources is a recent practice and the mechanisms involved in antifungal resistance have not been completely elucidated. Considering that the antifungal arsenal is limited and that antifungal resistance has become more frequent, the comprehension of this phenomenon and the pursuit for therapeutic alternatives are necessary. Thus, the present work aimed at monitoring the in vitro susceptibility of Candida spp. isolated from animals, with emphasis on efflux pump-mediated azole resistance and on the evaluation of the effect of the imidazole levamisole on the growth of these yeasts. For such, in a first approach, 126 Candida isolates (19 C. albicans, 17 C. famata, 5 C. guilliermondii, 8 C. krusei, 29 C. parapsilosis, 48 C. tropicalis), out of which 22 were recovered from raptors, 32 from cactus parakeets, 56 from Amazon parrots, 7 from blue-and-gold macaws and 3 from a Brazilian porcupine. All isolates were submitted to broth microdilution test against amphotericin B, itraconazole and fluconazole, according to the methodology recommended by the Clinical Laboratory Standards Institute (document M27-A3). The MICs ranged from 0.03125 to 2 Âg/mL, 0.125 to 250 Âg/mL and 0.03125 to 125 Âg/mL for amphotericin B, fluconazole and itraconazole, respectively. Out of 126 evaluated isolates, 33 (26.2%) were resistant to azoles, with 7 (5.6%) isolates resistant to fluconazole, 1 (0.8%) isolate resistant to itraconazole and 24 (19%) resistant to both drugs. In a second approach, all these azole resistant isolates, plus 20 C. albicans and 3 C. tropicalis that were recovered from our collection of resistant yeasts from veterinary sources, were submitted to the efflux pump inhibition assay with promethazine, with a total of 56 azole resistant isolates. Thus, MICs for fluconazole and itraconazole significantly reduced from 2 to 250 times for fluconazole and from 16 to 4000 times for itraconazole. The antifungal activity of levamisole against 12 C. albicans, 12 C. krusei, 12 C. parapsilosis and 12 C. tropicalis, was also evaluated, and MICs and minimum fungicidal concentrations varying from 0.58 to 2.34 mg/mL and from 2.34 to 9.37 mg/mL were obtained, respectively. Parallelly, it was demonstrated that levamisole significantly inhibits biofilm formation and interferes with the maintenance of mature biofilms. These data show that azole resistance is partially mediated by efflux-pumps and demonstrate the antifungal potential of the imidazole levamisole and its capacity of inhibiting the biofilm of strains of Candida spp. from animals. AzÃlicos ResistÃncia Bomba de efluxo Animals Candida spp. azoles efflux pump biofilm levamisole promethazine MICROBIOLOGIA MEDICA
18	ILLUMINATE THE PATHWAY OF MEMBRANE PROTEIN ASSOCIATION AND DEGRADATION Wang, Zhaoshuai 01 January 2017 (has links) Escherichia coli transporter protein AcrB and its homologues are the inner membrane components of the Resistance-Nodulation-Division (RND) family efflux pumps in Gram-negative bacteria. It is well accepted that soluble proteins are only marginally stable, but such insight is missing for membrane proteins. The lack of stability data, including thermodynamic stability and oligomer association affinity is a result of intrinsic difficulties in working with membrane proteins. In addition, the degradation of soluble proteins in E. coli has been extensively studied whereas the degradation process of membrane proteins remains unclear. A focus of my thesis is the validation and development of methods used to measure the thermo- and oligomeric- stability of membrane proteins. I investigated the mechanism of a popular thermal-stability assay developed specifically for the study of membrane proteins uses a thiol-specific probe, 7-diethylamino-3-(4-maleimidophenyl)-4-methylcoumarin (CPM). I found that, contrary to current understanding, the presence of a sulfhydryl group was not a prerequisite for the CPM thermal stability assay. The observed fluorescence increase is likely caused by binding of the fluorophore to hydrophobic patches exposed upon protein unfolding. I then applied these methods in the study of three projects. In the first project, I investigated how suppressor mutations restore the function of AcrBP223G, in which the Pro223 to Gly mutation compromised the function of AcrB via disrupting AcrB trimerization. The results suggested that the function loss resulted from compromised AcrB trimerization could be restored through various mechanisms involving the compensation of trimer stability and substrate binding. In the second project, I created two AcrB fusion proteins, with C-terminal yellow fluorescence protein (YFP) and cyan fluorescence protein (CFP), respectively. YFP and CFP form a fluorescence resonance energy transfer (FRET) pair. Using this pair of fusion proteins, I studied AcrB assembly both in detergent micelles and in lipid bilayers. A positive cooperativity was observed in kinetic studies of association of AcrB trimer. Reconstitution experiment revealed that the association showed a higher FRET efficiency and faster association rate in liposome than in DDM. In the last project, I developed a fluorescence method to study the degradation of AcrB-ssrA by the ClpXP system. Comparing to the degradation of GFP-ssrA, degradation of AcrB-CFP-ssrA showed a lower maximum velocity and tighter binding to the enzymes with a positive cooperativity. multidrug efflux pump AcrB FRET oligomerization degradation ssrA Biochemistry Molecular Biology
19	INVESTIGATIONS ON THE ROLES OF EFFLUX PUMP INHIBITORS ON THE ANTIBIOTIC TOLERANCE OF NON-REPLICATING MYCOBACTERIUM SMEGMATIS Sushanta Ratna (8787791) 01 May 2020 (has links) <p>Normal healthy people are not susceptible to tuberculosis (TB) but immunocompromised and HIV positive patients are at high risk of TB. The treatment regimen (rifampin, isoniazid and amikacin) for TB patients is 6-9 months for normal patients but if <i>Mycobacterium tuberculosis</i> (Mtb) becomes multidrug resistant, it takes 20-30 months to treat. According to the World Health Organization in 2018, there were about half a million new cases among which 78% were multidrug resistant TB. This antibiotic resistance is due in part to its ability to survive in the macrophage in our body by entering a non-replicating persistent state. Mtb also contains efflux pumps that increase antibiotic tolerance by pumping out the drugs. Therefore, if the efflux pump activity can be blocked by using efflux pump inhibitors, then it might increase antibiotic susceptibility of the pathogen. In our study, we used <i>Mycobacterium smegmatis</i> (Msm) as a model organism for Mtb and subjected it to a combination of three stresses (low oxygen, low pH and low nutrients) that mimic the physiological stresses in the human body and report that these conditions produced a non-replicating state in Msm. This is the first report of the use of this combination of stresses to produce a non-replicating state in Msm. Our results show that non-replicating Msm became completely tolerant to isoniazid and displayed increased tolerance to rifampin and clarithromycin by nearly 2-fold when compared to log-phase cells. Moreover, the efflux pump inhibitor verapamil decreased the antibiotic tolerance of the nonreplicating Msm to the antibiotics by 6-10 fold and the efflux pump inhibitor piperine decreased tolerance to the antibiotics by 2-4 fold. Also, in this study we attempted to construct a gene knockout mutant lacking two potential ATP-binding cassette transporters to study their functions as drug exporters. However, we were unable to obtain homologous recombination mutants. Further studies on efflux pump inhibitors could potentially enable greater understanding of antibiotic tolerance mechanisms in non-replicating, drug tolerant Mtb and enable the development of novel therapies that shorten treatment time for tuberculosis.</p> Microbiology Molecular Biology
20	INVESTIGATIONS ON THE EFFECTS OF EFFLUX PUMP INHIBITORS ON ANTIBIOTIC RESISTANCE, BIOFILM FORMATION AND LIPID BIOSYNTHESIS IN MYCOBACTERIUM ABSCESSUS Timilehin David Faboro (15348484) 26 April 2023 (has links) <p>Mycobacterium abscessus (Mab) is a non-tuberculous mycobacterium that is highly resistant to many antibiotics. Mab causes pulmonary infections in immunocompromised individuals. The presence of efflux pumps to pump out antibiotics and its ability to form biofilms makes Mab a virulent pathogen. Studies have been done on Mab antibiotic tolerance but there are still a lot of gaps in knowledge about the effects of efflux pump inhibitors (EPIs) on antibiotic resistance and lipid biosynthesis in this bacterium during biofilm formation. In this study, we investigated the effects of the EPIs chlorpromazine (CPZ), 1-(1-naphthylmethyl)-piperazine (NMP), thioridazine (TRZ), Phenylalanine-arginine β-naphthylamide (PBN) and plumbagin (PLU) on antibiotic resistance, efflux, biofilm formation and lipid biosynthesis associated with log-phase growth and biofilm formation in Mab. We used the resazurin assay to determine the minimum inhibitory concentration (MIC) of the EPIs. We investigated the effects of the EPIs during biofilm-forming growth conditions on the MICs of antibiotics such as clarithromycin, amikacin, cefoxitin, ciprofloxacin which are the frontline antibiotics used to treat non-tuberculous mycobacterial infections. We also assessed the effects of the EPIs on the accumulation and efflux activities of the Mab cells through ethidium bromide (EtBr) assay. Furthermore, we evaluated the effects of the EPIs at sub-MIC concentrations on Mab biofilm formation under normoxic and hypoxic conditions. We utilized metabolic radiolabeling methods using 14C-palmitic acid and 14C- acetic acid which are precursors of lipid biosynthesis and analyzed lipids by silica-thin layer chromatography and autoradiography. We observed that Mab cells developed higher tolerance to the EPIs in a biofilm-stimulating medium. Furthermore, a decrease in the MICs of antibiotics was observed in the presence of the EPIs. Also, in the presence of the EPIs, there was less efflux activity within the Mab cells. In addition, EPIs inhibited biofilm formation significantly. We also noticed that NMP and PBN inhibited 14C-palmitic acid and 14C- acetic acid incorporation into polar lipids such as glycopeptidolipids, trehalose monomycolate, phosphatidylethanolamine, phosphatidylglycerol/cardiolipin, phosphatidylinositol mannosides at specific tested conditions. Our findings suggest that the EPIs inhibited the activities of the efflux pumps associated with the efflux of the antibiotics and lipid biosynthesis involved in biofilm formation. In conclusion, the results from this study gives insights on possible therapeutic opportunities.</p> Clinical microbiology Mycobacterium abscessus Efflux pump inhibitors Efflux pumps Antibiotics Lipids biosynthesis Biofilms

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