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Fatty Acid Synthase, a Novel Target for the Treatment of Drug Resistant Breast CancersLiu, Hailan 18 March 2009 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Many cancers, including breast cancer, often develop resistance to chemotherapeutic drugs over a course of treatment. Many factors, including ABC transporter-mediated drug efflux, have been shown to play a role in acquired drug resistance. Fatty acid synthase (FASN), the key enzyme of lipid synthesis pathway, was found to be over-produced in an Adiamycin resistant breast cancer cell line MCF7/AdrVp3000, compared to its parental drug sensitive MCF7 cell line. Inhibition of FASN expression increased the drug sensitivity in breast cancer cells (MCF7/AdrVp3000 and MDA-MB-468), but not in the normal breast epithelia cell line MCF10A1. Enforced overexpression of FASN in MCF7 breast cancer cells decreased its drug sensitivity. These results indicated that FASN overexpression can induce drug resistance in breast cancers.
Ectopic overexpression of FASN in MCF7 cells did not affect cell membrane permeability, transporter activity, nor did it affect cell proliferation rate. However, FASN overexpression protects cancer cells from drug-induced apoptosis by decreasing caspase-8 activation. In FASN over-expressing MCF7 cells, I discovered the positive feedback relationship between FASN and activation of Akt as previously reported. However, activation of Akt did not mediate FASN-induced drug resistance.
Together with the findings that FASN expression associates with poor prognosis in several types of cancers, my investigations suggest that FASN overexpression is a novel mechanism of drug resistance in breast cancer chemotherapy. Inhibitors of FASN can be used as sensitizing agents in breast cancer chemotherapy.
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Defining the role of efflux pump inhibitors on anti-TB drugs in Rifampicin resistant clinical Mycobacterium Tuberculosis isolatesPule, 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.
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Does degradation of human vault RNA3 by RNA interference reduce multidrug resistance in GLC4/REV, a small-cell lung cancer cell line?Adam, Michael R. January 2004 (has links)
Vaults, recently discovered in 1986, are multi-subunit organelles with a molecular mass of ,--,13 MDa. The specific function of vaults is unknown, although they are believed to be involved in internal transport. These ribonucleoproteins are composed of the major vault protein, which comprises ' 70% of the vault's mass, two minor proteins, TEP1 and vPARP, and untranslated RNA(s). It is believed that the protein components of the vault are structural while the RNAs are the functional components. Implications of the vault's involvement in multi-drug resistance in cancer have been made. In some resistant cancer cells, the major vault protein and vRNA(s) are up-regulated up to 15 times when cells are exposed to a cytotoxic drug. Cytotoxic drugs such as doxorubicin are administered as a cancer treatment, but may be ineffective because the drug is actively pumped out of the cell. Multi-drug resistance is the most common failure of chemotherapeutic cancer treatment. In order to prevent the development of multi-drug resistance this research employed the use of small interfering RNA technology to down-regulate the expression of one of the vault RNAs, vRNA3, in cultured GLC4 cells, a small-cell lung cancer cell line. If the vRNA(s) are the functional portion of the vault and a cloned siRNA prevents their up-regulation after drug exposure, the cells should lose their multi-drug resistance, stimulating apoptosis. If successful, this approach may provide an alternative approach to cancer treatment in cells which respond to chemotherapy by increasing the number of vault particles.Initially, the transfection of a plasmid into GLC4 cells was optimized. The best transfection efficiency (N20%) was obtained by using GeneTherapySystems' GenePORTER2 transfection reagent in serum free conditions. To determine if the vault RNAs are the functional portion of the vault complex that confers multi-drug resistance to a cell, a small interfering RNA fragment was designed to specifically knock-down the expression of human vault RNA 3. The siRNA sequence homologous to a portion of vault RNA3 was cloned into an expression vector, and using optimized transfection protocols was transfected into GLC4/REV cells. A Western analysis using caspase-8 antibodies showed no difference in caspase-8 expression in doxorubicin treated and untreated cells. Preliminary results yielded by reverse transcriptase polymerase chain reaction amplification of isolated RNA indicated that the vRNAs were not down-regulated by the siRNAs. / Department of Biology
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Nrf2 signaling increases expression of ATP-binding cassette subfamily C mRNA transcripts at the blood–brain barrier following hypoxia-reoxygenation stressIbbotson, Kathryn, Yell, Joshua, Ronaldson, Patrick T. 16 March 2017 (has links)
Background: Strategies to maintain BBB integrity in diseases with a hypoxia/reoxygenation (H/R) component involve preventing glutathione (GSH) loss from endothelial cells. GSH efflux transporters include multidrug resistance proteins (Mrps). Therefore, characterization of Mrp regulation at the BBB during H/R is required to advance these transporters as therapeutic targets. Our goal was to investigate, in vivo, regulation of Abcc1, Abcc2, and Abcc4 mRNA expression (i.e., genes encoding Mrp isoforms that transport GSH) by nuclear factor E2-related factor (Nrf2) using a well-established H/R model. Methods: Female Sprague-Dawley rats (200-250 g) were subjected to normoxia (Nx, 21% O-2, 60 min), hypoxia (Hx, 6% O-2, 60 min) or H/R (6% O-2, 60 min followed by 21% O-2, 10 min, 30 min, or 1 h) or were treated with the Nrf2 activator sulforaphane (25 mg/kg, i.p.) for 3 h. Abcc mRNA expression in brain microvessels was determined using quantitative real-time PCR. Nrf2 signaling activation was examined using an electrophoretic mobility shift assay (EMSA) and chromatin immunoprecipitation (ChIP) respectively. Data were expressed as mean +/- SD and analyzed via ANOVA followed by the post hoc Bonferroni t test. Results: We observed increased microvascular expression of Abcc1, Abcc2, and Abcc4 mRNA following H/R treatment with reoxygenation times of 10 min, 30 min, and 1 h and in animals treated with sulforaphane. Using a biotinylated Nrf2 probe, we observed an upward band shift in brain microvessels isolated from H/R animals or animals administered sulforaphane. ChIP studies showed increased Nrf2 binding to antioxidant response elements on Abcc1, Abcc2, and Abcc4 promoters following H/R or sulforaphane treatment, suggesting a role for Nrf2 signaling in Abcc gene regulation. Conclusions: Our data show increased Abcc1, Abcc2, and Abcc4 mRNA expression at the BBB in response to H/R stress and that Abcc gene expression is regulated by Nrf2 signaling. Since these Mrp isoforms transport GSH, these results may point to endogenous transporters that can be targeted for BBB protection during H/R stress. Experiments are ongoing to examine functional implications of Nrf2-mediated increases in Abcc transcript expression. Such studies will determine utility of targeting Mrp isoforms for BBB protection in diseases with an H/R component.
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Generation of chimeric P-glycoprotein for functional and structural investigationsPluchino, Kristen Marie January 2015 (has links)
A major challenge in cancer treatment is acquired or intrinsic multidrug resistance (MDR) to chemotherapeutics. A notorious mediator of MDR is P-glycoprotein (P-gp, ABCB1), product of the human MDR1 gene, which actively effluxes cytotoxic drugs from cancer cells, resulting in sub-therapeutic intracellular concentrations. Understanding how P-gp interacts with drugs has been severely limited by the lack of high-resolution structures of P-gp. Although numerous efforts to obtain an X-ray crystal structure of P-gp have been attempted, human P-gp has never been crystallized. However, mouse P-gp (87% homologous to human P-gp) has been crystallized, and several structures of mouse P-gp have been recently reported. Despite a high degree of homology, it is currently unknown why mouse P-gp can be crystallized while human P-gp cannot. The studies presented in this thesis describe the creation of novel chimeras of mouse and human P-gp as an approach to investigate whether specific protein domains are responsible for differences in the ability to form crystals between mouse and human P-gp. A range of chimeras, created by protein domain swapping, were expressed in mammalian cells and all were found to retain MDR transport function demonstrating that P-gp can tolerate major structural changes. High-level expression of all chimeras was achieved by baculovirus-mediated heterologous protein expression. Chimeric proteins were purified by a multi-step process including immobilized metal affinity chromatography and size exclusion chromatography. Crystallization screening obtained protein crystals for two of the chimeras, indicating the approach adopted is a successful strategy, and an advance along the path towards a high-resolution structure of human P-gp.
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The role of HER4 in relation to trastuzumab resistance and prognosis in HER2 positive breast cancerMohd Nafi, Siti Norasikin January 2014 (has links)
Background Trastuzumab resistance imposes a major limitation to the successful treatment of HER2 positive breast cancer. The expression of HER4 and its prognostic value is controversial in breast cancer. Furthermore, its role in trastuzumab treatment and resistance in HER2 positive breast cancer has not been reported. Methods The effects of trastuzumab on HER4 cleavage and its localisation were studied in both parental and trastuzumab-resistant SKBR3 and BT474 cells using western blot, RT-PCR, nuclear fractionation and confocal microscopy. Tissue microarrays consisting of a cohort of HER2 positive breast cancer patients were stained for HER4 by immunohistochemistry and the results were correlated with patients’ outcome. This study also assessed HER4 expression in the tumor samples from a window study of trastuzumab alone or in combination with neoadjuvant chemotherapy in HER2 positive breast cancer patients. Results Trastuzumab treatment upregulated HER4 mRNA, and increased expression of both 80 and 180 kDa HER4 protein isoforms, and induced nuclear translocation of 80kDa HER4 protein isoforms, which the results similar to heregulin stimulation. This was also seen in trastuzumab resistant cells although HER4<sub>80kDa</sub> and nuclear HER4 decreased upon overnight withdrawal of trastuzumab in resistant cell lines. In addition, knockdown of HER4 protein expression by specific siRNAs increased trastuzumab sensitivity and reversed trastuzumab resistance in SKBR3 and BT474 cells, confirming the importance of HER4 in trastuzumab response. This study also showed that trastuzumab-induced HER4 nuclear translocation is due to HER4 activation and cleavage since γ-secretase inhibitor (GSi) and neratinib prevented the process when combined with trastuzumab treatment, correlating with an increased apoptosis and decreased cell viability. There was also increased nuclear HER4 expression in tumors from both BT474 xenografts and from patients with breast cancer treated with trastuzumab monotherapy. Furthermore, nuclear HER4 predicted poor clinical response to trastuzumab monotherapy in patients undergoing a window study and was a poor prognostic factor in HER2 positive breast cancer. Conclusions This study suggests HER4 activation, cleavage and nuclear translocation play a key role in trastuzumab resistance in HER2 positive breast cancer. Nuclear HER4 could be a novel predictive and prognostic biomarker in HER2 positive breast cancer patients.
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Resistência aos antimicrobianos e virulência de E. coli isoladas de mastite bovina com diferentes níveis de gravidade clínicaGuerra, Simony Trevizan. January 2019 (has links)
Orientador: Márcio Garcia Ribeiro / Resumo: Escherichia coli é o principal agente de mastite clínica bovina de origem ambiental, caracterizado pela complexidade de fatores de virulência (FV). O patógeno causa sinais clínicos que variam desde alterações exclusivamente no leite (grau 1 ou leve), no quarto afetado (grau 2 ou moderado), até manifestações sistêmicas (grau 3 ou grave). No entanto, até o momento, não está estabelecido o perfil de genes deste patógeno relacionados à virulência em infecções mamárias em vacas, tampouco com a gravidade clínica dos casos. Neste cenário, o presente estudo investigou 18 genes associados com E. coli extraentérica (ExPEC), o perfil “in vitro” de motilidade swimming e swarming, e a sensibilidade/resistência aos antimicrobianos em 114 isolados de E. coli obtidos de vacas com mastite clínica com escores de gravidade 1 (45/114=39,5%), 2 (62/114=54,4%) e 3 (7/114=6,1%). Os principais genes codificadores de FV detectados foram de adesinas (fimH, 114/114=100%; ecpA, 73/114=64,0%; fimA, 36/114=31,6%), resistência ao soro (traT, 93/114=81,6%; ompT, 40/114=35,1%), sideróforos (irp2, 11/114=9,6%) e hemolisina (hlyA, 8/114=7%). Os isolados apresentaram 99,1% (113/114) de resistência in vitro a bacitracina e cloxacilina, 98,2% (112/114) a lincosamina e 54,4% (62/114) a eritromicina. Do total de isolados, 98,2% (n=112/114) foram multirresistentes pelo cálculo do índice de resistência múltipla aos antimicrobianos (IRMA). Não houve diferença estatística significante entre as medianas para motilidade ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Escherichia coli is the major pathogen involved in the etiology of bovine mastitis from the environment origin. This pathogen is characterized by a complexity of virulence factors (VF). Mammary infections by E. coli has shown a wide range of clinical signs causing changes in milk (score 1 or mild), quarters (score 2 or moderate), and systemic signs (score 3 or severe). Nevertheless, to date, the profile of the genes related to the virulence of this pathogen in mammary infections and the severity scores of the cases are not fully understood. In this scenario, a panel of 18 genes associated with extra-intestinal E. coli (ExPEC) were investigated, in addition to in vitro swimming and swarming motility profile, and antimicrobial susceptibility/resistance pattern among 114 E. coli strains isolated from cows with clinical mastitis showing severity scores 1 (45/114=39.5%), 2 (62/114=54.4%) and 3 (n=7/114=6.1%). The main genes related to VF harbored by isolates were adhesins (fimH, 114/114=100%; ecpA, 73/114=64.0%; fimA, 36/114=31.6%), serum resistance (traT, 93/114=81.6%; ompT, 40/114=35.1%), siderophores (irp2, 11/114=9.6%) and hemolysin (hlyA, 8/114=7%). Among studied isolates, 99.1% (113/114) showed in vitro resistance to bacitracin and cloxacillin, 98.2% (112/114) to lincosamin, and 54.4% (62/114) to erytromycin. Out of the total isolates, 98.2% (112/114) were considered multidrug resistant based on multiple antimicrobial resistance (MAR) index. No statistical difference was obs... (Complete abstract click electronic access below) / Doutor
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Résistance à la colistine chez Klebsiella pneumoniae / Colistin resistance in Klebsiella pneumoniaeHerold Manuelli, Marine 30 March 2018 (has links)
La diffusion des bactéries multirésistantes aux antibiotiques associée à une diminution du nombre de nouveaux antibiotiques représente un véritable enjeu de santé publique. De nos jours, un vieil antibiotique, la colistine, connait un récent regain d’intérêt, constituant parfois la seule alternative thérapeutique. La colistine est, alors, qualifiée d’antibiotique de « dernier recours ». Cependant, il a été constaté l’apparition de souches résistantes à la colistine. L’objectif principal de ce travail de thèse a été d’étudier le(s) mécanisme(s) de résistance à la colistine chez K. pneumoniae. Afin de mener à bien notre projet, nous nous sommes intéressés à deux aspects de la problématique. Dans un premier temps, nous avons cherché à mieux comprendre ce mécanisme, en associant une étude génotypique à une étude phénotypique. Et dans un second temps, nous avons cherché des alternatives thérapeutiques, en évaluant différentes associations antibiotiques / The global spread of multidrug-resistant Gram-negative bacteria associated with a decrease in the number of new antibiotic therapies is a major public health issue. Colistin is often referred to as the "last-resort" antibiotic, used as the only therapeutic alternative for MDR Gram-negative bacteria infection, which explains the current renewal of interest in this antimicrobial agent. However, the appearance of colistin-resistant bacterial strains has been already observed. The main objective of this PhD work was to study the colistin resistance mechanism (s) in K. pneumoniae by looking at two aspects of the problem. Firstly, we sought to better understand this mechanism, associating a genotypic study with a phenotypic study. Next, we looked for therapeutic alternatives, by evaluating different antibiotic combinations
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Structure and function analysis of the mammalian ATP-binding cassette transporters, ABCB1 and ABCB4Nicolaou, Michael January 2012 (has links)
Mammalian ABC (ATP-binding cassette) transporters are integral membrane proteins that translocate allocrites across biological membranes using ATP as a substrate. ABCB1 is a polyspecific efflux pump which can confer multidrug resistance in cancer. ABCB1 is also expressed in a variety of normal tissues where it functions to prevent the accumulation of toxic allocrites. Direct inhibition of ABCB1 can therefore have detrimental effects on patients. Identification of ABCB1-interacting partners that influence trafficking or function would therefore provide alternative targets for therapy which may be cell- or tissue-type specific. The “split-ubiquitin” yeast two-hybrid system, that can detect protein:protein interactions at the plasma membrane, was used to screen for ABCB1-interactors in a human liver library. All candidates isolated from the screen interacted with ABCB1 in a non-specific manner when subjected to strict testing. ABCB4, a close relative of ABCB1, is expressed primarily at the hepatocyte canalicular membrane where it flops phosphatidylcholine (PC) into the outer leaflet for extraction by bile salts. Many ABCB4 non-synonymous mutations have been linked to cholestatic liver diseases in humans, but data confirming an impact on ABCB4 function is lacking. Transient expression of wild-type (WT) ABCB4 in tissue culture has proved difficult because the protein is toxic to HEK293T cells. However, co-expression of the phosphatidylserine flippase ATP8B1 (FIC1) and its accessory protein CDC50A allowed the cells to tolerate ABCB4. To investigate the impact of SNPs on ABCB4 function, equivalent changes were introduced into the ABCB4 cDNA for transient expression in the presence or absence of ATP8B1/CDC50A. ABCB4 expression and targeting to the plasma membrane were monitored by western analysis and confocal microscopy, respectively, and, by “feeding” the transfected cells [methyl-3H]choline, PC efflux to added bile salt acceptor was measured. By thus mimicking the situation at the canalicular membrane I report the preliminary characterisation of nine variants of ABCB4 that have been linked to cholestatic liver disease.
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Risk Factors for Emerging and Reemerging Infectious Diseases in ChildrenMurray, Meghan T. January 2019 (has links)
This dissertation assesses the factors that lead to the emergence of infectious diseases in children, particularly the emergence of multidrug-resistant organisms (MDROs) and diarrheal pathogens in vulnerable pediatric populations. It includes three manuscripts. The initial study is a systematic review that summarized the role of antibiotic exposure on the acquisition of MDROs in children. Twenty-nine studies met the inclusion criteria and a positive association between prior antibiotic use and subsequent colonization or infection with an MDRO was identified in most studies. There were wide variations among study sites, populations, and definitions of antibiotic use and MDROs. Therefore, limited inferences could be made on which components of antibiotic exposure have the greatest impact on MDRO development.
The second analysis examines the relationship between prior stay at a pediatric long-term care (LTC) facility and infection with an MDRO among hospitalized children. This study included 2,945 infections in 258,664 pediatric admissions from 2006 through 2016. At least 1 MDRO was identified in 10% of infections. Of the 1,198 children who had previously resided in a pediatric LTC facility, only 1 child (0.08%) had an MDRO infection. However, prior receipt of pediatric LTC was associated with an increased likelihood of infection (OR 2.4, CI95 1.66 – 3.43), C. difficile infection (OR 2.57, CI95 1.26 – 5.25), days of antibiotic use (OR 1.01, CI95 1.01 – 1.02), length of stay (OR 1.01, CI95 1.01 – 1.01), and death (OR 4.38, CI95 2.93 – 6.55).
The concluding study evaluates the association between animals living in or near the home and diarrheal disease in children. This research is a secondary analysis of the Global Enteric Multicenter Study case control study, which investigated the epidemiology of diarrheal illness in children <5 in sub-Saharan Africa and south Asia. Of 9,439 cases and 13,128 controls, 87% had ≥1 animal in their home. In a multivariable analysis adjusting for exclusive breastfeeding, water source, sanitation facility, number of children <5 years in the household, and wealth index, any animal on a child’s compound decreased the odds of diarrhea by 33% (aOR 0.66, CI95 0.59 – 0.74). However, children with diarrhea who had an animal present were not more likely to have a positive stool culture.
Overall, the three studies provide a thorough analysis of several factors associated with the infectious disease emergence in children, particularly as related to MDROs and diarrheal disease. Environmental characteristics, including antibiotic use and interaction with animals, were shown to be important factors for emergent infectious disease across diverse settings. The development of pediatric infection prevention interventions should take into consideration environmental risk factors in order to effectively mitigate the risks posed infectious disease emergence.
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