Global ETD Search

171	Targeting the CD4- and Coreceptor-Binding Sites of the HIV-1 Envelope Glycoprotein Gardner, Matthew Ryan 06 June 2014 (has links) The HIV-1 envelope glycoprotein, Env, facilitates the translocation of the viral capsid across the cellular membrane. Env is a trimer of hetero-dimers composed of a gp120 subunit and gp41 transmembrane protein. The gp120 subunit binds the primary receptor, CD4, leading to conformational changes of Env that then promote binding to the coreceptor, principally CCR5 or CXCR4. As the sole protein on the surface of the virion, Env is under continuous pressure from the host's antibody response. Two classes of antibodies target the highly conserved receptor-binding sites of gp120: CD4-binding site (CD4bs) and CD4-induced (CD4i) antibodies. Virology broadly neutralizing antibodies CD4i antibodies eCD4-Ig HIV-1 entry HIV-1 envelope glycoprotein
172	The Role of Histidine-rich Glycoprotein in Angiogenesis and Tumor Growth Thulin, Åsa January 2009 (has links) Histidine-rich glycoprotein (HRG) is a heparin-binding plasma protein modulating immune, hemostatic and vascular functions. I have studied the antiangiogenic functions of HRG in vitro and in vivo in order to understand the molecular mechanisms of action of HRG as an angiogenesis inhibitor. Angiogenesis is the formation of new blood vessels from the pre-existing vasculature. It is a central rate-limiting step of tumor development and thus a possible target for cancer therapeutics. Previous studies have shown that HRG has antiangiogenic functions in vivo and that the antiangiogenic effects are mediated via the proteolytically released His/Pro-rich domain of HRG. In this thesis we demonstrate that HRG can inhibit endothelial cell migration by interfering with focal adhesion and cytoskeletal turnover. Moreover we have identified the minimal active domain of HRG, a 35 amino acid peptide derived from the histidine- and proline-rich domain of HRG. Analyzing human tumor tissue samples, we have found that a His/Pro-rich fragment of HRG is bound to the vasculature from cancer patients but not to the vasculature from healthy individuals. The fragment is found in association with platelets, and we show that activated platelets can induce a functional microenvironment for the His/Pro-rich fragment. Cancer patients often display an increased coagulation and our data describe a new mechanism to confer specificity of an angiogenesis inhibitor for situations with enhanced platelet activation, as in the tumor. We have further studied the role of HRG in tumor growth by crossing HRG-deficient mice with a transgenic mouse model of pancreatic insulinoma. We show that mice lacking HRG display an elevated “angiogenic switch” and that the total tumor volume is larger in these mice than in wild type mice. HRG is also involved in regulation of platelet function and platelets can stimulate angiogenesis in various ways. We have depleted mice of platelets to study the possible connection between the function of HRG in angiogenesis and platelet regulation. Our data suggest an involvement of platelets in the antiangiogenic activities of HRG. Histidine-rich glycoprotein HRG/HRGP/HPRG angiogenesis inhibitor cancer VEGF platelets MEDICINE MEDICIN
173	The effect of different modulators on the transport of rhodamine 123 across rat jejunum using the sweetana-grass diffusion method / C.J. Lamprecht Lamprecht, Christian Johannes January 2004 (has links) P-glycoprotein (Pgp), which leads to multidrug resistance in tumour cells, is an ATP-dependent secretory drug efflux pump. In the intestine, as well as at specific other epithelial and endothelial sites, P-glycoprotein expression is localised to the apical membrane, consistent with secretory detoxifying and absorption limitation functions. The primary function of Pgp is to clear the membrane lipid bilayer of lipophilic drugs. Results from in vitro studies with human Caco-2 cells provide direct evidence for Pgp limiting drug absorption. Limitation has non-linear dependence of absorption on substrate (eg. vinblastine) concentration, increased absorption upon saturation of secretion and increased absorption upon inhibition of Pgp function, with modulators such as verapamil. The aim of this study was to investigate the effect of a known Pgp inhibitor (verapamil) and grapefruit juice components (naringenin, quercetin and bergamottin) on the transport of Rhodamine 123 across rat jejunum and to compare these results with those obtained in similar studies done in Caco-2 cells and in rat intestine (monodirectional). Verapamil, naringenin (442 µM, 662 µM and 884 µM), quercetin (73 µM, 183 µM and 292 µM) and bergamottin (12 µM, 30 µM and 48 µM) were evaluated as modulators of rhodamine 123 transport across rat jejunum using Sweetana-Grass diffusion cells. This study was done bidirectionally, with three cells measuring transport in the apical to basolateral direction (AP / BL) and three cells measuring transport in the basolateral to apical direction (BL / AP). The rate of transport was expressed as the apparent permeability coefficient (Papp) and the extent of active transport was expressed by calculating the ratio of BL/AP to AP/BL. The BL-AP/AP-BL ratio calculated for Rhodamine 123 with no modulators added was 2.31. The known modulator verapamil decreased the BL-AP/AP-BL ratio to 1.52. This was statistically significant and inhibition of active transport was clearly demonstrated. All modulators inhibited active transport. Only naringenin 884 µM, quercetin 183 µM and bergamottin 30 µM did not show a statistically significant decrease in the BL-AP/AP-BL ratio. All three components of grapefruit juice showed inhibition of active transport and should have an effect on the bioavailability of the substrates of Pgp and other active transporters. The results obtained in this study are similar to the results found in Caco-2 cells, which suggests that Sweetana-Grass diffusion method can be used for diffusion studies. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005. P-glycoprotein Naringenin Quercetin Bergamottin Rhodamine 123 Sweetana-Grass diffusion cells
174	The effect of selected methoxy flavonoids on the in vitro efflux transport of rhodamine 123 using rat jejunum / Stanley Anthony Dodd Dodd, Stanley Anthony January 2005 (has links) Many orally administered drugs must overcome several barriers before reaching their target site. The first major obstacle to cross is the intestinal epithelium. Although lipophilic compounds may readily diffuse across the apical plasma membrane, their subsequent passage across the basolateral membrane and into blood is by no means guaranteed. Efflux proteins located at the apical membrane, which include P-glycoprotein (P-gp, MDR1) and Multidrug Resistance-associated Protein (MRP2), may drive compounds from inside the cell back into the intestinal lumen, preventing their absorption into the blood. Intestinal P-gp is localised to the villus tip enterocytes, i.e. the main site of absorption for orally administered compounds and in close proximity to the lumen. P-gp is therefore ideally positioned to limit the absorption of compounds by driving efflux back into the lumen. Drugs may also be modified by intracellular phase I and phase II metabolizing enzymes. This process may not only render the drug ineffective, but it may also produce metabolites that are themselves substrates for P-gp and/or MRP2. Drugs that reach the blood are then passed to the liver, where they are subjected to further metabolism and biliary excretion, often by a similar system of ATP binding cassette (ABC) transporters and enzymes to that present in the intestine. Thus a synergistic relationship exists between intestinal drug metabolizing enzymes and apical efflux transporters, a partnership that proves to be a critical determinant of oral bioavailability. Aim: The aim of this study was to investigate the effect of selected methoxy flavonoids (3-methoxyflavone, 5-methoxyflavone, 6-methoxyflavone and 7- methoxyflavone) on the mean ratio of Rhodamine123 (Rho 123) transport across rat intestine (jejunum) and to investigate structure activity relationships (SAR) of the selected flavonoids with reference to inhibition of P-gp. Methods: 3-Methoxyflavone, 5- methoxyflavone, 6-methoxyflavone and 7-methoxyflavone were evaluated at a concentration of 10μM and 20μM as modulators of Rho 123 transport across rat jejunum. The Sweetana-Grass diffusion cells were used to determine the transport of Rho 123. Each modulator was studied bidirectionally with two cells measuring transport in the apical to basolateral direction (AP/BL) and two cells measuring transport in the basolateral to apical direction (BUAP). The rate of transport was expressed as the apparent permeability coefficient (Papp)and the extent of active transport was expressed by calculating the ratio of BUAP to AP/BL. Each modulators Papp ratio was then compared with that of the control. Results: 3-Methoxyflavone decreased the Papp ratio from 3.34 (control) to 1.66 (10μM) and 1.33 (20μM) and showed statistical significant differences. 7-Methoxyflavone decreased the Papp ratio to 1.94 (10μM) and 1.55 (20μM) but only showed a statistical significant difference at 10μM. 5- Methoxyflavone decreased the Papp ratio to 2.41 (10μM) and 1.71 (20μM) and 6- methoxyflavone decreased the Papp to 3.03 (10μM) and 2.49 (20μM). Both 5- and 6- methoxyflavone showed no statistical significant differences from the control. The structure activity relationships with reference to P-gp inhibition clearly indicated that the C3 and C7 positioning of the methoxy-group on the A ring played a major role in the inhibition of Rho 123 transport. Conclusion: All the selected modulators showed inhibition of Rho 123 transport across the jejunum. This should affect the bioavailability of the substrates of P-gp and other active transporters. In summary, this study describe the inhibitory interaction of selected flavonoids with P-gp. Structure activity relationships were identified describing the inhibitory potency of the flavonoids based on methoxy groups positioning. The inhibitory potency results were 3-methoxyflavone > 7- methoxyflavone > 5-methoxyflavone> 6-methoxyflavone / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005. P-glycoprotein Rhodamine 123 Sweetana-Grass diffusion cells 3-methoxyflavone 5-methoxyflavone 6-methoxyflavone 7-methoxyflavone
175	The effect of selected hydroxy flavonoids on the in vitro efflux transport of rhodamine 123 using rat jejunum / S. van Huyssteen Van Huyssteen, Stephanie January 2005 (has links) Background: Multidrug resistance (MDR) is resistance of cancer cells to multiple classes of chemotherapeutic drugs that can be structurally unrelated. MDR involves altered membrane transport that results in a lower cell concentration of cytotoxic drugs which plays an important role during cancer treatment. P-glycoprotein (Pgp) is localised at the apical surface of epithelial cell in the intestine and it functions as a biological barrier by extruding toxic substances and xenobiotics out of cells (Lin, 2003:54). The ATP-binding-cassette superfamily is a rapidly growing group of membrane transport proteins and are involved in diverse physiological processes which include antigen presentation, drug efflux from cancer cells, bacterial nutrient uptake and cystic fibrosis (Germann, 1996:928; Kerr, 2002:47). A number of drugs have been identified which are able to reverse the effects of Pgp, multidrug resistance protein (MRPI) and their associated proteins on multidrug resistance. The first MDR modulators discovered and studied during clinical trials were associated with definite pharmacological actions, but the doses required to overcome MDR were associated with the occurrence of unacceptable side effects. As a consequence, more attention has been given to the development of modulators with proper potency, selectivity and pharmacokinetic characteristics that it can be used at a lower dose. Several novel MDR reversing agents (also known as chemosensitisers) are currently undergoing clinical evaluation for the treatment of resistant tumours (Teodori et al., 2002:385). Aim: The aim of this study was to investigate the effect of selected flavonoids (morin, galangin, kaempferol and quercetin) at two different concentrations (10 μM and 20 μM) on the transport of a known Pgp substrate, Rhodamine 123 (Rho 123) across rat intestine (jejunum) and to investigate structure activity relationships (SAR) of the selected flavonoids with reference to the inhibition of Pgp. Methods: Morin, galangin, kaempferol and quercetin were evaluated as potential modulators of Rho 123 transport, each at a concentration of 10 μM and 20 μM across rat jejunum using Sweetana-Grass diffusion cells. This study was done bidirectionally, with two cells measuring transport in the apical to basolateral direction (AP-BL) and two cells measuring transport in the basolateral to apical direction (BL-AP). The rate of transport was expressed as the apparent permeability coefficient (Pap,) and the extent of active transport was expressed by calculating the ratio of BL-AP to AP-BL. Results: The BL-AP to AP-BL ratio calculated for Rho 123 with no modulators added was 3.29. Morin decreased the BL-AP to AP-BL ratio to 1.88 at a concentration of 10 μM and to 1.49 at a concentration of 20 μM. Galangin decreased the BL-AP to AP-BL ratio to 1.60 at a concentration of 20 μM. These two flavonoids showed statistically significant results and inhibition of active transport were clearly demonstrated. However, the other flavonoids inhibited active transport of Rho 123 but according to statistical analysis, the results were not significantly different. The two different concentrations (10 μM and 20 μM) indicated that galangin, kaempferol and quercetin showed practically significant differences according to the effect sizes. Morin, however, did not show any practically significant differences at the different concentrations. Regarding .the SAR, it was shown by Boumendjel and co-workers (2002:512) that the presence of a 5-hydroxyl group and a 3-hydroxyl group as well as the C2-C3 double bond are required for high potency binding to the nucleotide binding domain (NBD) of Pgp. All the flavonoids tested had the above-mentioned characteristics. Conclusion: All the selected flavonoids showed inhibition of active transport of Rho 123 and should have an effect on the bioavailability of the substrates of Pgp and other active transporters. This study described the inhibitory interaction of selected flavonoids on Pgp activity. Practical significant differences between the same modulator at different concentrations were also observed. Structure activity relationships were identified describing the inhibitory potency of the flavonoids based on hydroxyl group positioning / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005. P-glycoprotein Rhodamine 123 Morin Galangin Kaempferol Quercetin Structure activity relationship Sweetana-Grass diffusion cells
176	The role of Mullerian differentiation in epithelial ovarian carcinogenesis Woo, Michelle 05 1900 (has links) Ovarian cancer is a fatal disease because of the lack of symptoms and markers for early detection. Most ovarian neoplasms resemble and are classified according to the complex characteristics of Mullerian duct epithelia. We tested the hypothesis that Mullerian epithelial characteristics influence early ovarian neoplastic progression. The most common type of ovarian cancer is the serous carcinoma which resembles Mullerian-derived oviductal epithelium. We discovered that oviduct-specific glycoprotein (OVGP1), a tubal differentiation marker, was present in inclusion cysts, which are the preferential sites for malignant transformation, and in most low grade serous tumors, but absent in ovarian surface epithelium and most high grade carcinomas. OVGP1 was almost entirely limited to ovarian neoplasms with the notable exception of endometrial hyperplasia and carcinoma. A new antibody against OVGP1 detected elevated serum levels from most women with low grade ovarian cancers compared to normal controls. OVGP1 also identified a subset of patients with high grade serous carcinomas who had a more favorable outcome. To examine whether the differentiated phenotype of early ovarian neoplasms alters invasiveness, we established the first permanent cell line for serous borderline ovarian tumors (SBOT), which are differentiated but noninvasive. The results revealed a striking phenotypic similarity between two lines regardless of their cytogenetic diversity. They retained Mullerian epithelial characteristics in vitro, as demonstrated by their morphologic appearance and the differentiation markers keratin, E-cadherin, CA125 and OVGP1. Neither disruption of the growth pattern nor manipulations of the cadherin profile induced invasivenesss. Induction of invasiveness by SV40 early genes was associated with a loss in morphologic differentiation and of differentiation markers but increased motility. MMP secretion was independent of the invasion status. Our findings indicate that OVGP1 is an indicator of early ovarian epithelial neoplasia. It can be detected in the sera from women with early ovarian cancer, and thus, may be a new promising diagnostic marker for the early detection of ovarian cancer. In addition, the results show that Mullerian differentiation does not directly prevent invasiveness, but it diminishes in parallel with invasion caused by other factors. The lack of invasiveness by SBOT cells may depend on factors that regulate motility. ovarian cancer detection marker serous borderline ovarian tumours oviduct-specific glycoprotein Mullerian differentiation invasion
177	Characterizing drug interactions in the substrate binding pocket of the P-glycoprotein multidrug efflux pump Ward, David 02 February 2012 (has links) P-glycoprotein (Pgp, ABCB1) is a polyspecific efflux transporter implicated in multidrug resistance in human cancers. In this study, tetramethylrhodamine-5-carbonyl azide (AzTMR) was covalently crosslinked to the Pgp drug binding pocket with a stoichiometry of 1. The Pgp-AzTMR adduct was functionally equivalent to unlabelled Pgp and retained its ability to transport Hoechst 33342. The binding site of AzTMR in Pgp was nonpolar, with a similar environment to that of propanol. Pgp-AzTMR could bind a second drug molecule, with a higher affinity for H-site drugs and lower affinity for other R-site drugs. Unlabelled Pgp interacted with dimeric versions of known Pgp modulators, binding them with higher affinity than the monomer. These compounds were also found to either stimulate or inhibit Pgp ATPase activity depending on the concentration. Pgp-AzTMR was able to bind dimeric drugs, indicating that 3 substrate moieties can fit into the binding pocket. / The Canadian Cancer Society P-glycoprotein Pgp drug resistance cancer tumour MDR drug binding drug transport multidrug resistance chemotherapy
178	Development of block copolymer based nanocarriers for the solubilization and delivery of valspodar Binkhathlan, Ziyad Unknown Date No description available. block copolymer polymeric micelles polymeric vesicles multi-drug resistance cancer P-glycoprotein valspodar pharmacokinetics
179	Examining the integrity of the blood-brain barrier (BBB) and the use of lysophosphatidic acid (LPA) to modulate the barrier properties On, Ngoc H. 03 1900 (has links) INTRODUCTION: The blood brain barrier (BBB), formed by the brain capillary endothelial cells separating the blood from the brain. Furthermore, the brain endothelial cells also express numerous transporter systems which help regulate and maintain the brain microenvironment. The protective function of the BBB and their transporter systems under pathological disease states, including brain tumor, can be an obstacle for the entry of therapeutic agents to the brain. OBJECTIVES: The current study set out to characterize brain tumor-induced alterations of the BBB of a mouse brain tumor model. Studies were performed to address changes in BBB permeability to P-gp dependent solutes using Rhodamine (R800). Furthermore, the use of lysophosphatidic acid (LPA) to modulate BBB permeability was also examined in healthy mice and tumor-bearing mice. METHODS: Tumors were induced by injecting Lewis Lung carcinoma (3LL) cells into the right hemisphere of female Balb/c mice. Changes in BBB permeability were assessed at various stages of tumor development, using both gadolinium contrast-enhanced agent (Gad) and 3H-mannitol. Functional activity of P-gp in the BBB was examined in adult mice following i.v. injection of R800 in the presence and absence of GF120918 (a P-gp inhibitor). Alterations in BBB permeability were characterized in healthy and tumor-bearing mice using a small (Gad) and large (IRdye800cw PEG) vascular permeability agent as well as R800 (changes in P-gp mediated permeability). RESULTS: Median mouse survival following 3LL injection was 17 days. The BBB was largely intact during tumor development with disruptions observed at the later stages of tumor development as indicated by Gad permeability. By inhibiting the function of P-gp with GF120918, the distribution of R800 in the brain increased by 4-fold. The enhancement effect of LPA on BBB permeability occurs within 3-6 minutes of injection with the barrier being restored back to its normal function within 20 minutes. Furthermore, an increased in brain penetration of IRdye800ce PEG and R800 were observed following LPA injection in both healthy and tumo-bearing mice. CONCLUSION: These studies provide the initial proof of concept for the use of BBB modulators including LPA and GF120918 to enhance drug delivery to the brain and the tumor sites. Blood-brain barrier P-glycoprotein Chemotherapeutic agents Brain tumors Lysophosphatidic acid Permeability
180	Repair of CFTR Defects Caused By Cystic Fibrosis Mutations Shi, Li 28 November 2013 (has links) Cystic fibrosis is caused primarily by deletion of Phe508. An exciting discovery was that CFTR’s sister protein, the P-glycoprotein (P-gp) containing the equivalent mutation (ΔY490), could be repaired by a drug-rescue approach. Drug substrates showed specificity, and their mechanism involves direct binding to the transmembrane domains (TMDs) since arginine suppressor mutations were identified in TMDs that mimicked drug-rescue to promote maturation. We tested the possibility of rescuing CFTR processing mutants with a drug-rescue approach. 1) Arginine mutagenesis was performed on TM6, 8, and 12. 2) Correctors were tested for specificity. 3) Truncation mutants were used to map the VX-809 rescue site. Correctors 5a, 5c, and VX-809 were specific for CFTR. VX-809 appeared to specifically rescue CFTR by stabilizing TMD1. Therefore, the TMDs are potential targets to rescue CFTR. Rescue of P-gp and CFTR appeared to occur by different mechanisms since no arginine suppressor mutations were identified in CFTR. Biochemistry cystic fibrosis CFTR membrane protein chloride channel P-glycoprotein arginine mutagenesis VX-809 0307 0566

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