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Polygenic Resistance In The Highly DDT-resistant 91-r Strain Of Drosophila Melanogaster Involves Decreased Penetration, Increased Metabolism And Direct Excretion Of DdtStrycharz, Joseph P 01 January 2010 (has links) (PDF)
Resistance to dichlorodiphenyltrichloroethane (DDT) in the 91-R strain of Drosophila melanogaster is extremely high compared to the susceptible Canton-S strain (>1500 times). Oxidative detoxification is involved in resistance but is not the only mechanism. Rates of DDT penetration, metabolism, and excretion were determined radiometrically between resistant 91-R and susceptible Canton-S strains. Contact penetration was ~1.5-times slower with 91-R flies compared to Canton-S flies. The 91-R strain had 13-fold more cuticular hydrocarbons, possibly resulting in penetration differences. DDT was metabolized ~33-fold more extensively by 91-R than Canton-S resulting in dichlorodiphenyldichloroethane (DDD), two unidentified metabolites and polar conjugates being formed in significantly greater amounts. 91-R also excreted ~5.0 times more DDT and metabolites than Canton-S. Verapamil pretreatment reduced the LD50 value for 91-R flies topically dosed with DDT by a factor of 10-fold. Thus, it is likely that the increased excretion by 91-R flies is due to the increased expression of ATP-binding cassette (ABC) transporter genes, including MDR50 (CG8525) that had a 36% higher transcript level by quantitative real time PCR than Canton-S flies. In summary, DDT resistance in 91-R is polyfactorial and includes reduced penetration, increased detoxification and direct excretion.
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Genetic variation of a P-glycoprotein gene in unselected and ivermectin- and moxidectin-selected strains of Haemonchus contortusLiu, Hao Yuan, 1961- January 1998 (has links)
No description available.
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Novel Antimitotic Compounds with Potent <i>In Vitro</i> and <i>In Vivo</i> Antitumor Effects: the Use of Pharmacokinetics, Metabolism, Efficacy, and Toxicity StudiesAhn, Sunjoo 25 October 2010 (has links)
No description available.
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Pharmacokinetics and P-glycoprotein-Mediated Transport of the Leading IMiDs in MiceRozewski, Darlene M. 19 June 2012 (has links)
No description available.
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Regulation of P-glycoprotein and ABCP transportersKolwankar, Dhanashri R. January 1900 (has links)
Thesis (Ph. D.)--West Virginia University, 2003. / Title from document title page. Document formatted into pages; contains x, 123 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 113-123).
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SUBSTRATE-BASED NOVEL DIMERIC PRODRUG INHIBITORS OF HUMAN P-GLYCOPROTEINElias George Beretta (14228159) 07 December 2022 (has links)
<p>The human multidrug resistance transporter P-glycoprotein (P-gp) is highly expressed at blood- tissue barriers, including the blood-brain barrier (BBB), and poses a serious challenge for the delivery of therapeutics to the brain. Additionally, expression of P-gp is also detected in some blood cancers, and is thought to limit the uptake of therapeutics, leading to a multidrug resistant phenotype (MDR). P-gp has multiple substrate binding sites and uses the energy of ATP hydrolysis to actively transport a variety of hydrophobic compounds out of the cell from the plasma membrane. Our goal is to take advantage of the polyvalency of the substrate binding site to create P-gp inhibitors from substrates through dimerization. Herein, we demonstrate the synthesizes and characterization two libraries of dimeric prodrug inhibitors of P-gp based on the substrates temozolomide and dasatinib, a glioblastoma chemotherapeutic and chronic myelogenous leukemia chemotherapeutic, respectively. In addition to inhibiting P-gp, by containing reversible tethers, these dimers are designed to act as prodrugs and release the therapeutics inside the cell. To improve the efficacy and solubility of our dimers, we synthesized heterodimers with the known substrate quinine to generate libraries of temozolomide-quinine and dasatinib-quinine molecules with varying tether lengths. Both libraries were shown to be potent inhibitors of P- gp efflux at low micromolar concentrations.</p>
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DRUG MILK TO SERUM RATIO PREDICTION AND ONTOGENY OF CYP3A CLEARANCE PATHWAY AS A MODEL OF DRUG EXPOSURE IN THE DEVELOPING RATAbbassi, Maggie Magdi 01 January 2007 (has links)
Transfer of drugs into milk and the clearance of drugs in neonates are critical determinants of the exposure of infants to drugs in breast milk. Models predicting both parameters have been proposed. The objective of this dissertation is to test two models predicting milk to serum ratio and an ontogeny clearance model predicting clearance in the neonate. Predicted milk to serum ratio (M/S) values were generated according to the Atkinson and Begg model. The model did not adequately predict M/S when comparing the predicted values to observed values in the literature. The Fleishaker model was also tested. The model was able to predict whether the drugs appeared in milk by passive diffusion only or whether active transport processes were involved. This model, together with appropriate animal models, is useful in understanding the mechanism of drug transfer into milk. An ontogeny model that predicts clearance was proposed earlier by our laboratory. In order to test the model prediction and assumptions of constant microsomal protein and constant Km for an enzyme-substrate system with age, the male rat was used as an animal model. The ontogeny of Cyp3a1, Cyp3a2, Mdr1a and Mdr1b mRNA was examined in the male rat liver and intestine. The ontogeny pattern of Cyp3a2 mRNA, protein and in vitro Cyp3a activity were found to be similar in male rat liver. The microsomal protein content was found to vary with age in the liver. Km was found to be constant with age for the midazolam 4-hydroxylation by male rat liver microsomes. Scaling factors that extrapolate adult clearance to infant clearance were calculated from in vitro data. The model did not predict the in vivo oral clearance of midazolam for day 7 and 21 age groups from the 112 day age group (adult). The assumption that intestinal availability in the rat pups and adults was equal to unity might not be true resulting in overprediction of rat pup clearance when compared to the adult. Intestinal first pass effect for midazolam in adult rats might be significant. More experiments are needed to further test the model adequacy in clearance prediction.
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Peripheral Inflammatory Pain and P-Glycoprotein in a Model of Chronic Opioid ExposureSchaefer, Charles, Schaefer, Charles January 2017 (has links)
The rates of opioid prescription and use have continued to increase over the last few decades. In turn, a greater number of patients suffer from opioid tolerance. Treatment of acute pain is a clinical challenge for these patients. Acute pain can arise from common occurrences like surgical pain and pain resulting from the injury. P-glycoprotein (p-gp) is a transporter at the blood-brain barrier (BBB) associated with a decrease in the analgesic efficacy of morphine. Peripheral inflammatory pain (PIP) is a pain state known to cause a change in p-gp trafficking at the BBB. P-gp traffics from the nucleus to the luminal surface of endothelial cells making up the BBB. This surface where circulating blood interfaces with the endothelial cell is where p-gp will efflux morphine back into circulation. Osmotic minipumps were used as a long-term delivery method in this model of opioid tolerance in female rats. PIP induced p-gp trafficking away from nuclear stores showed a 2-fold increase when animals were exposed to opioids for 6 days. This observation presents a possible relationship between p-gp trafficking and the challenges of treating post-surgical pain in opioid tolerant patients. This could reveal potential strategies for improving pain management in these patients.
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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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Étude de la réversion du phénotype de Multi Drug Resistance (MDR) par de nouveaux dérivés stéroïdiens, in vitro sur des lignées cellulaires humaines et murines résistantes et in vivo par xénogreffes / Reversion of MultiDrugResistance (MDR) phenotype by new steroids derivatives, in vitro (resistant human tumor cell line) and in vivo (xenografts models)Alame, Ghina 01 December 2009 (has links)
La chimiorésistance des cancers est caractérisée par une résistance pléïotropique à de multiples médicaments. Ce mécanisme est en partie causé par la surexpression des transporteurs à «ATP binding cassette» (Pgp, MRP1, BCRP…). Les inhibiteurs connus de ces transporteurs comme la cyclosporine A, le vérapamil et le RU486 sont toxiques à doses élevées. Dans cette étude, de nombreux dérivés stéroïdiens synthétisés au laboratoire à base de progestérone ou d’acides biliaires ont été évalués pour leur capacité à inhiber les transporteurs ABC et plus spécifiquement les fonctions de transport par la Pgp ou la BCRP. Plusieurs de ces dérivés synthétisés se sont avérés capables de restaurer complètement la sensibilité des cellules résistantes d’une manière plus importante que la cyclosporine A in vitro. De plus, le meilleur des nos dérivés testés s’est avéré capable in vivo de diminuer significativement la progression tumorale de xénogreffe sur les souris et d’augmenter la durée de survie des souris. Cette étude a ainsi permis d’ouvrir la voie au développement de nouveaux dérivés stéroïdiens peu toxiques ayant la capacité d’inhiber le phénotype MDR et de restaurer la sensibilité des cellules cancéreuses vis-à-vis des agents chimiothérapeutiques utilisés, avec un perspective d’application clinique / The chemoresistance of cancer is characterized by a pleitropic resistance to multiple drugs. This mechanism is partly caused by the overexpression of “ATP Binding Cassette” transporters (Pgp, MRP1, BCRP…). Known inhibitors of these transporters such as cyclosporin A, verapamil and RU486 rather toxic at high doses. In this study, many steroid derivatives synthesized in the laboratory (from progesterone or bile acid precursor) to bind and inhibit ABC transporters, specifically the transport by Pgp or BCRP. Several of these synthetic derivatives were able to completely restore the sensivity of the resistant cells compared to cysclosporine A in vitro. In addition, the efficient of these derivatives could, in vivo significantly reduce tumor growth of xenografts on mice and increase survival time of mice. This study opens a route for development of new steroid derivatives with low toxicity, having the ability to reverse the MDR phenotype and restore sensitivity of cancer cells to the chemotherapeutic agents use, with a perspective at clinical use
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