Dissertationen zum Thema „Immunosuppressive agents Mechanism of action“
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Gudgeon, M. C. „Studies on the mechanism of action of cyclosporin A“. Thesis, University of Sussex, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.378279.
Der volle Inhalt der QuelleJones, Terence Edward. „Economically beneficial drug interactions with cyclosporin and tacroliumus : clinical studies in recipients of kidney and liver transplants“. Title page, contents and abstract only, 2000. http://web4.library.adelaide.edu.au/theses/09PH/09phj79.pdf.
Der volle Inhalt der QuelleLui, Sing-leung, und 雷聲亮. „The in vivo mechanism of actions of mycophenolate mofetil: insights from murine models of allograft rejection,endotoxemia, ischemia reperfusion injury and lupus nephritis“. Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2003. http://hub.hku.hk/bib/B26625374.
Der volle Inhalt der QuelleChristie, Andrew W. „Mechanism of action of selected anti-lipolytic agents in adipocytes“. Thesis, University of Newcastle Upon Tyne, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.282761.
Der volle Inhalt der QuelleMeister, Gabriel T. „Antiviral mechanism(s) of the experimental immunosuppressive agent leflunomide against human cytomegalovirus and polyomavirus“. Connect to this title online, 2005. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1111428519.
Der volle Inhalt der QuelleTitle from first page of PDF file. Document formatted into pages; contains xiii, 127 p.; also includes graphics (some col.) Includes bibliographical references (p. 113-127). Available online via OhioLINK's ETD Center
Guo, Hong, und 郭紅. „Effects of anti-DNA antibodies on pleural mesothelial cells: in vitro studies to explore thepathogenetic mechanism of pulmonary lupus“. Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2003. http://hub.hku.hk/bib/B26631945.
Der volle Inhalt der Quellepublished_or_final_version
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Medicine
Master
Master of Philosophy
Hearn, Jessica M. „Integrating cell screening and mechanism of action data for organometallic anticancer agents“. Thesis, University of Warwick, 2015. http://wrap.warwick.ac.uk/68071/.
Der volle Inhalt der QuelleHAMED, SAJA H. „EFFICACY AND MECHANISM OF ACTION OF A NEW TYROSINASE INHIBITORY AGENT“. University of Cincinnati / OhioLINK, 2004. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1085566152.
Der volle Inhalt der QuelleLohmeyer, Matthias. „The mechanism of action of antitumour lipid agents related to platelet-activating factor (PAF)“. Thesis, University of Cambridge, 1994. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.319528.
Der volle Inhalt der QuelleXia, Yixuan. „Anticancer efficacy and mechanism of action studies of the potent plant cycloheptapeptide compounds mavacyocines“. HKBU Institutional Repository, 2020. https://repository.hkbu.edu.hk/etd_oa/817.
Der volle Inhalt der Quelle張麗 und Li Zhang. „Interactions of Bismuth complexes with biomolecules: insight into the mechanism of action of Bismuthantimicrobial agents“. Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2003. http://hub.hku.hk/bib/B3124631X.
Der volle Inhalt der QuelleSun, Yang. „STUDY OF THE MECHANISM OF ACTION FOR Ru(II) POLYPYRIDYL COMPLEXES AS POTENTIAL ANTICANCER AGENTS“. UKnowledge, 2018. https://uknowledge.uky.edu/chemistry_etds/97.
Der volle Inhalt der QuelleGruber, Susanne H. M. „Novel mechanism of action of antipsychotic drugs : effects on neuropeptides in rat brain /“. Stockholm : [Karolinska institutets bibliotek], 2002. http://diss.kib.ki.se/2002/91-7349-229-9.
Der volle Inhalt der QuelleDierickx, Karen. „Contribution to the study of the efficacy and the mechanism of action of the alkylating peptide prolyl-m-sarcolysyl-p-fluorophenylalanine (PSF)“. Doctoral thesis, Universite Libre de Bruxelles, 2008. http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/210390.
Der volle Inhalt der QuelleBy comparing the cytotoxicity of PSF and melphalan towards different cancer primary melanoma cell cultures, we noticed some interesting observations: PSF displayed the same toxicity pattern both in short (2h) and long term (24h) cell exposures whereas melphalan and m-sarcolysin needed long term exposure to reach the same toxicity. This could indicate that PSF very quickly penetrates the cells in accordance with what has been shown with red blood cells (RBCs). PSF has shown a much better and quicker penetration into the cells in vitro as compared to melphalan.
In this present work, the cytotoxic effect of PSF was further evaluated in vivo using a standardized nude mice tumor model bearing a human melanoma. First, the acute toxicity in rats and mice and the maximum tolerated dose were determined. After a dose-escalation study one dose was singled out and tested as a single dose and as a fractionated dose. PSF was able to reach the tumor site and a dose-response relationship was observed. The IP administration of fractionated doses of PSF had significantly better effect on tumor growth inhibition, regression and regrowth than single dose administration and this without any evidence for general toxicity monitored by animal weight loss. We also compared the efficacy of PSF to its parent drug m-sarcolysin, melphalan and cyclophosphamide and observed that PSF was much more active than both melphalan and m-sarcolysin at the same molar doses.
Body distribution of the 14C-labelled PSF revealed ratios of 2.4 and 1.5 compared to muscle tissue for the two melanoma tumors evaluated with no significant and stable accumulation in any vital organ. The amount of tracer was still high in the blood after 24 hours explaining the high radioactivity in the kidney and partly in the liver. Interestingly, the spleen had an unusual high radioactivity uptake reflecting the exceptional binding of the tracer to blood cells (BC), while the pancreas very high load was an indicator of protease-mediated specific delivery and strongly support our hypothesis elaborated on the basis of in vitro results.
Our in vitro data point to a particular mechanism of action of PSF based on the transport of PSF through the body by the rapid binding to blood cells and the delivery at the tumor site by the subsequent release of its active metabolites due to cleavage by tumor-associated proteases.
Concerning the binding of PSF to membranes and its transport the following observations were made: while PSF was stable in human plasma, it disappeared very quickly in whole blood along with the generation of a main metabolite: m-sarcolysin. The presence of BC membranes was required for both binding and generating the metabolites. Binding to natural or artificial membranes was achieved and only competition with melanoma cells or proteolytic enzymes such as dispase, led to the generation of active metabolites. The different metabolites were isolated using preparative LC and were then identified using Electrospray Ionisation Mass Spectrometry (ESI). Three metabolites, of which m-sarcolysin was the main one, were identified all bearing the chloroethyl alkylating group.
Enzymatic catalysis was further supported by a set of experiments where the enzymatic activity was non-specifically and specifically inhibited. In order to look at the effect of extracellular matrix proteases on PSF, three representatives of ECM proteases were incubated with PSF: collagenase A had no effect, but both dispase and trypsine were able to process PSF.
The following data indicate the higher processing of PSF in the presence of cells with a higher proteolytic activity and thus the delivery of the blood cell-bound PSF. When comparing BC with melanoma cells (MC), the latter showed a higher ability to bind and process PSF both by membrane-associated and most interestingly soluble proteases. A lot of families of enzymes are reported to be overexpressed by melanoma cells including: metalloproteases, cysteine cathepsins, serine proteases and aminopeptidases. All the melanoma cells and cell lines evaluated were able to generate PSF active metabolites.
To identify the families of enzymes expressed on the membrane of melanoma cells that might be involved in the mechanism of action of PSF, we performed 2D-gel electrophoresis on their membrane extracts. The 2D-gels experiments revealed the presence of proteins compatible with enzymes known to be important in melanoma and further work is needed to identify the individual enzymes involved by using mass spectrometry and Western blotting.
Both our in vitro and in vivo findings strongly suggest that not only melanoma tumor cells and tumor sites but other types of tumors as well may be targets for the toxic activity of PSF owing to their much higher load in proteolytic enzymes that are closely related to their invasive potential. The transport of PSF by the blood cells and the release of its metabolites at the tumor site result in a low amount of drug in its free soluble form within the blood and this may explain the relatively lower side-effects observed. PSF is thus expected to have a much better therapeutic index than conventional alkylating agents. This original mechanism of drug delivery may well be extended to other cancer and non-cancer drugs than alkylating agents.
Doctorat en Sciences biomédicales et pharmaceutiques
info:eu-repo/semantics/nonPublished
Nguyen, Albert Thu. „The molecular mechanism of action of bevirimat : a prototype HIV-1 maturation inhibitor /“. Oklahoma City : [s.n.], 2009.
Den vollen Inhalt der Quelle findenThowfeik, Fathima Shazna. „Targeting a Common Enemy: Toxic Cellular Mechanism of Novel Anti-cancer Agents that Alter DNA and Transcription“. University of Cincinnati / OhioLINK, 2016. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1460652655.
Der volle Inhalt der QuelleClarke, Alfred Alan. „The mechanism of action of mitomycin C and other agents and their relevance to the pathogenesis of Fanconi anaemia“. Thesis, St George's, University of London, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.312645.
Der volle Inhalt der QuelleWong, Michael. „Rational design of small molecule probes for investigating the mechanism of action of the chemotherapeutic agents CDDO and artemisinin“. Thesis, University of Liverpool, 2015. http://livrepository.liverpool.ac.uk/2006368/.
Der volle Inhalt der QuelleLaw, Yuen-kwan. „Study on the identification of small molecule activators of the autophagic pathway and elucidation of the mechanism of action“. Click to view the E-thesis via HKUTO, 2009. http://sunzi.lib.hku.hk/hkuto/record/B42841793.
Der volle Inhalt der QuelleShao, Xingwu. „Reverse transcriptase assays for analysis of resistance to anti-HIV drugs and their mechanism of action /“. Stockholm, 2003. http://diss.kib.ki.se/2003/91-7349-489-5.
Der volle Inhalt der QuelleEhrhardt, Katharina. „Redox-active 3-benzyl-menadiones as new antimalarial agents : studies on structure-activity relationships, antiparasitic potency and mechanism of action“. Thesis, Strasbourg, 2014. http://www.theses.fr/2014STRAF020.
Der volle Inhalt der QuelleMalaria is still one of the most important infectious diseases worldwide. Previously, the laboratory of Dr. E. Davioud-Charvet presented the chemical design of very promising antimalarial agents, 3-[substituted-Benzyl]-Menadiones (benzylMD). Studies on the mode of action evidenced that these agents disturb the redox balance of the parasitized erythrocyte by acting as redox-Cyclers - a promising strategy for the development of new antimalarial agents. The presented PhD work characterized the in vitro potency and the mechanism of action of the lead agent, the 3-[4-(trifluoromethyl)benzyl]-Menadione 1 c, which represents an essential part of the lead optimization stage of the benzylMD drug development process. A second part of this work focused on the structure-Activity relationships benzylMD derivatives. Overall, the presented findings demonstrate the promising in vitro potency of lead benzylMD 1c and highly support the further development of benzylMDs as antimalarial drug candidates
Law, Yuen-kwan, und 羅婉君. „Study on the identification of small molecule activators of the autophagic pathway and elucidation of the mechanism of action“. Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2009. http://hub.hku.hk/bib/B42841793.
Der volle Inhalt der QuelleJones, Amy R. „Using Drosophila melanogaster as a Whole-Model Animal System to Elucidate the Mechanism of Action of Novel Anticancer Agents“. University of Cincinnati / OhioLINK, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1353153948.
Der volle Inhalt der QuelleKalathottukaren, Manu Thomas. „Novel anticoagulant neutralizing agents for the management of bleeding : studies on the design, mechanism of action and their influence on blood coagulation“. Thesis, University of British Columbia, 2017. http://hdl.handle.net/2429/61003.
Der volle Inhalt der QuelleMedicine, Faculty of
Pathology and Laboratory Medicine, Department of
Graduate
Katsoulas, Athanasia. „Design and mechanism of action of novel agents termed "combi-molecules" engineered for tandem targeting for Bcr-abl expressing leukemia cells“. Thesis, McGill University, 2007. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=111884.
Der volle Inhalt der QuelleMarcus, Monica M. „Mechanism of action of antipsychotic drugs: focus on the nucleus accumbens and the prefrontal cortex : an experimental study /“. Stockholm, 2005. http://diss.kib.ki.se/2005/91-7140-284-5/.
Der volle Inhalt der QuelleEhrhardt, Katharina [Verfasser], und Michael [Akademischer Betreuer] Lanzer. „Redox-active 3-benzyl-menadiones as new antimalarial agents: Studies on structure-activity relationships, antiparasitic potency and mechanism of action / Katharina Ehrhardt ; Betreuer: Michael Lanzer“. Heidelberg : Universitätsbibliothek Heidelberg, 2017. http://d-nb.info/1178007898/34.
Der volle Inhalt der QuelleSchroeder, Frederick Albert. „A Role for Histone Modification in the Mechanism of Action of Antidepressant and Stimulant Drugs: a Dissertation“. eScholarship@UMMS, 2007. https://escholarship.umassmed.edu/gsbs_diss/370.
Der volle Inhalt der QuelleLôme, Vincent. „Des agents chimiosensibilisants pour lutter contre la résistance aux antibiotiques chez les bactéries Gram-négatif : criblage et caractérisation“. Thesis, Aix-Marseille, 2017. http://www.theses.fr/2017AIXM0063.
Der volle Inhalt der QuelleGram-negative bacteria are naturally resistant to many classes of antibiotics thanks to their ability to control the accumulation of drugs. Decreasing membrane barrier permeability and producing efflux pumps that expel drugs outside bacteria, represent the prevalent mechanisms of this resistance. One of the most promising solutions consists in restoring antibiotic activity by targeting such barriers to accumulation, with chemosensitizers.The purpose of my PhD was to better understand the inhibition of resistance that opposes the accumulation of antibiotics in Gram-negative bacteria.In the first stage of the study, the activity of various synthetic chemosensitizers has been characterized. Three compounds were identified to significantly increase the synergistic activity with antibiotics, that was previously observed with geraniol. These derivatives showed an efflux pump inhibition or an outer membrane permeabilization effect, that could be related to the observed synergy.In the second stage of the study, a screening method has been developed for the specific detection of chemosensitizers, while describing their mechanism of action.This work participated in proposing a patented therapeutic solution in the preclinical stage. This study has led to new tools to identify novel chemosensitizers, but also to better understand how to impair the barriers opposing the accumulation of antibiotics
Léon, Pascale. „Etudes de relations structure-activite dans la serie des dimeres de 7h-pyridocarbazole, agents antitumoraux bis-intercalants de l'adn“. Paris 6, 1987. http://www.theses.fr/1987PA066487.
Der volle Inhalt der QuelleBrunel, Frédéric. „Synthèse, conception et élaboration de nouveaux systèmes dérivés de liquides ioniques antibactériens à base de phosphonium“. Thesis, Aix-Marseille, 2016. http://www.theses.fr/2016AIXM4087.
Der volle Inhalt der QuelleA recent WHO report warns the health authorities about the emergence of new bacterial resistances and the development of multi-resistant strains against current antibiotics treatments. The growth of those resistances is due to several factors. The hospital environment concentrates a significant use of antibiotics and disinfectant representing a favorable ground for bacterial resistance development. Among them the Staphylococcus aureus and its methicillin resistant strain (MRSA) represent a crucial issue in care environments and is a major cause of hospital acquired infections. In this context, it is essential to develop new antibacterial agents to fight against these bacteria. Ionic liquid are low melting point salts, they show significant antibacterial properties. However, the fact that the mechanisms of action of their bactericidal effect have not been established yet constitutes a major obstacle to their development as bactericidal agents. Thus, we propose to synthetize ammonium- and phosphonium-based di-cationic ionic liquids in order to study the different structural factors that govern their antibacterial activity. Then we will develop phosphonium based ionic liquids functionalized with a fluorescent probe. By taking advantage of their spectroscopic properties we will try to observe their interactions with bacterial cells. Finally, we propose to use the phosphonium salts as surface functionalization agents in order to design surfaces with intrinsic antibacterial properties. To do so, we will use innovative methods such as conception of self-assembled monolayers or electropolymerization technics
Bouarab, Lynda. „Évaluation du potentiel et de voies innovantes de mise en oeuvre de composés phénoliques antimicrobiens d’origine végétale pour la conservation des aliments“. Thesis, Lyon, 2018. http://www.theses.fr/2018LYSE1084.
Der volle Inhalt der QuelleThe plant kingdom is a renewable resource of a wide range of biologically active secondary metabolites. This thesis proposes a multidisciplinary strategy for evaluating the potential of plant-derived antimicrobial phenolic compounds for food preservation. A screening of the antimicrobial activity in vitro against 8 strains of foodborne pathogenic and spoilage microorganisms of a hundred pure molecules and about sixty plant extracts allowed to select the most active. Different mechanisms of action with respect to S. aureus could be demonstrated by flow cytometry coupled with the use of probes of the physiological state of the bacteria for some of the selected active compounds. For application to beef, the antibacterial activity of the most active phenolic compounds or plant extracts has been re-evaluated in more complex culture media mimicking their protein and fat content. The results of this screening and a microbiological monitoring of minced beef with 1% (m / m) of added extract made it possible to observe that the observed losses of antibacterial activity were in particular correlated with the interactions of the phenolic compounds with the proteins or fat. Incorporation of phenolic compounds or plant extracts into packaging materials in contact with food constituted was the second proposed route of implementation. Plastic films that retain antibacterial activity have thus been able to be prepared by melting
„Anti-tumour activity of trichosanthin and its mechanism of action“. Chinese University of Hong Kong, 1990. http://library.cuhk.edu.hk/record=b5886644.
Der volle Inhalt der QuelleThesis (Ph.D.)--Chinese University of Hong Kong, 1990.
Bibliography: leaves 201-224.
Acknowledgments --- p.V
Summary --- p.vi
Publications --- p.ix
Statement of Originality --- p.X
List of Abbreviations --- p.xi
Chapter Chapter 1 --- Introduction --- p.1
Chapter 1.1 --- Preamble --- p.2
Chapter 1.2 --- History of Trichosanthin --- p.6
Chapter 1.3 --- Preparation of Trichosanthin --- p.8
Chapter 1.4 --- Chemistry of Trichosanthin --- p.10
Chapter 1.4.1 --- Primary structure --- p.10
Chapter 1.4.2 --- Three dimensional structure --- p.12
Chapter 1.5 --- Pharmacology of Trichosanthin --- p.14
Chapter 1.5.1 --- Pharmacologic action --- p.14
Chapter 1.5.2 --- Pharmacokinetics --- p.18
Chapter 1.5.3 --- Toxicity --- p.21
Chapter 1.6 --- Clinical Use of Trichosanthin --- p.24
Chapter 1.6.1 --- Clinical application --- p.24
Chapter 1.6.2 --- Mechanism of action --- p.29
Chapter 1.6.3 --- Adverse reactions --- p.31
Chapter 1.6.4 --- Contraindications --- p.33
Chapter 1.7 --- Objectives of Project and Organization of Thesis --- p.35
Chapter Chapter 2 --- Anti-tumour Activity of Trichosanthin In Vitro and In Vivo --- p.37
Chapter 2.1 --- Cytotoxic Effects of Trichosanthin on Cultured Tumour Cells --- p.38
Chapter 2.1.1 --- Introduction --- p.38
Chapter 2.1.2 --- Materials and methods --- p.40
Chapter 2.1.3 --- Results --- p.49
Chapter 2.1.4 --- Discussion --- p.59
Chapter 2.2 --- Effects of Trichosanthin on Co-cultured Cell Lines In Vitro --- p.64
Chapter 2.2.1 --- Introduction --- p.64
Chapter 2.2.2 --- Materials and methods --- p.65
Chapter 2.2.3 --- Results --- p.66
Chapter 2.2.4 --- Discussion --- p.77
Chapter 2.3 --- Combination Effects of Trichosanthin with Adriamycin and Cisplatin on Cultured Tumour Cells --- p.80
Chapter 2.3.1 --- Introduction --- p.80
Chapter 2.3.2 --- Materials and methods --- p.81
Chapter 2.3.3 --- Results --- p.84
Chapter 2.3.4 --- Discussion --- p.93
Chapter 2.4 --- Effects of Trichosanthin on Choriocarcinoma Cells In Vivo --- p.96
Chapter 2.4.1 --- Introduction --- p.96
Chapter 2.4.2 --- Materials and methods --- p.97
Chapter 2.4.3 --- Results --- p.101
Chapter 2.4.4 --- Discussion --- p.107
Chapter 2.5 --- Effects of Trichosanthin Protein and Polysaccharide on Choriocarcinoma Cells In Vitro --- p.110
Chapter 2.5.1 --- Introduction --- p.110
Chapter 2.5.2 --- Materials and methods --- p.112
Chapter 2.5.3 --- Results --- p.114
Chapter 2.5.4 --- Discussion --- p.117
Chapter Chapter 3 --- Mechanism of Action of Trichosanthin on Tumour Cells --- p.119
Chapter 3.1 --- Morphological Study of Effects of Trichosanthin on Cultured Choriocarcinoma Cells --- p.120
Chapter 3.1.1 --- Introduction --- p.120
Chapter 3.1.2 --- Materials and methods --- p.121
Chapter 3.1.3 --- Results --- p.124
Chapter 3.1.4 --- Discussion --- p.133
Chapter 3.2 --- Binding of Radiolabelled Trichosanthin with Tumour Cells In Vitro --- p.137
Chapter 3.2.1 --- Introduction --- p.137
Chapter 3.2.2 --- Materials and methods --- p.138
Chapter 3.2.3 --- Results --- p.146
Chapter 3.2.4 --- Discussion --- p.154
Chapter 3.3 --- Effects of Trichosanthin on Macromolecule Synthesis of Choriocarcinoma Cells In vitro --- p.159
Chapter 3.3.1 --- Introduction --- p.159
Chapter 3.3.2 --- Materials and methods --- p.160
Chapter 3.3.3 --- Results --- p.163
Chapter 3.3.4 --- Discussion --- p.167
Chapter Chapter 4 --- General Discussion --- p.169
Chapter 4.1 --- Anti-tumour Activity of Trichosanthin --- p.170
Chapter 4.2 --- Mechanism of Action of Trichosanthin --- p.180
Chapter 4.3 --- Prospects of Research on Trichosanthin --- p.195
References --- p.201
Appendix 1 --- p.225
Appendix 2 --- p.242
Arac-Ozkan, Demet. „Mechanism of synaptotagmin action in neurotransmitter release“. 2005. http://edissertations.library.swmed.edu/pdf/Arac-OzkanD121905/Arac-OzkanDemet.pdf.
Der volle Inhalt der QuelleKim, Mu-yong. „Design and biological evaluation of novel antitumor agents with mechanisms of action against topoisomerase II and/or G-quadruplexes“. Thesis, 2002. http://wwwlib.umi.com/cr/utexas/fullcit?p3110634.
Der volle Inhalt der QuelleGírio, Patrícia Alexandra Madeira. „The role of ABC proteins in the mechanism of action of promising ruthenium anticancer agents“. Master's thesis, 2017. http://hdl.handle.net/10451/31667.
Der volle Inhalt der QuelleO cancro é um termo genérico para um vasto grupo de doenças que podem afetar qualquer parte do nosso corpo. Esta doença é definida pela proliferação anormal de células. Estas células anómalas podem invadir outros tecidos e órgãos formando assim metástases. O cancro, considerado uma doença mundial e que afeta diversas faixas etárias, continua a ser uma preocupação para a população e, nomeadamente, para os cientistas. A investigação nesta área já é longa e felizmente conta já com importantes avanços. No entanto, apesar de todos os progressos, continuam a existir obstáculos para o tratamento cem por cento eficaz. Um desses obstáculos é a resistência das células cancerígenas aos fármacos, o que limita consideravelmente a eficácia dos mesmos. Esta resistência deve-se a vários fatores sendo, um deles, a existência de um tipo de proteínas transportadoras, denominadas transportadores ABC, que se encontram sobre expressas nas células cancerígenas e que atuam sobre os fármacos levando ao seu rápido efluxo para fora da célula limitando, assim, a sua capacidade de ação sobre as células cancerígenas. A resistência a fármacos refere-se à capacidade das células cancerígenas para resistirem a uma variedade estrutural de fármacos anticancerígenos, levando a um dos maiores problemas da quimioterapia. Na realidade, este tipo de resistência é responsável pelo fracasso de mais de 90 % dos tratamentos em cancro. A família ABC (ATP binding cassette) é constituída por várias proteínas, sendo que atualmente as mais conhecidas, e aqui estudadas são: P-gp ou ABCB1, MRP1 ou ABCC1, MRP2 ou ABCC2 e ABCG2 ou BCRP. Apesar de existirem várias teorias que procuram explicar os seus mecanismos de ação, a certeza é que estas proteínas transportadoras permitem a expulsão dos fármacos, aumentando, em consequência, a resistências das células cancerígenas a estes fármacos. Os estudos de elucidação dos mecanismos bioquímicos que permitem combater esta resistência aos fármacos têm-se centrado principalmente na identificação de inibidores seletivos destas proteínas que bloqueiem a passagem dos fármacos para o exterior da célula cancerígena. A maior limitação até agora tem sido encontrar inibidores específicos para cada transportador, que ao mesmo tempo apresentem baixa citotoxicidade para células saudáveis e de alta eficiência. Por isso, a investigação nesta área continua a ser uma prioridade. Foi neste âmbito que o Laboratorio de Química Organometálica da Faculdade de Ciências da Universidade de Lisboa, Portugal, juntamente com o “Drug Resistance and Membrane Proteins team” em Lyon, França, avaliou, durante a realização desta tese de Mestrado, o papel que diversos transportadores ABC têm no mecanismo de ação de uma família de complexos organometálicos de ruténio ciclopentadienilo, “RuCp” (Cp = η5-C5H5). Foram estudados sete compostos, todos contendo o fragmento ‘Ru(η5-CpR)(PPh3)(bipiridina-R)’, com potencial atividade anticancerígena e anteriormente desenvolvidos pelo Laboratório de Química Organometálica. Entre eles, encontram-se os compostos de ruténio-polímero PMC78 e PMC85 que foram escolhidos devido ao seu elevado peso molecular que permite uma maior facilidade de acumulação destes compostos no interior das células pelo efeito de EPR (“enhanced permeation and retention effect”). Para além disso, estes compostos revelaram melhores citotoxicidades que a cisplatina para as linhas celulares do ovário A2780 e mama MCF7 e MDA-MB-231, e parecem ser capazes de ultrapassar os mecanismos de resistência de células cancerígenas (resultados obtidos por comparação entre a linha celular A2780 sensível e A2780CisR, resistente à cisplatina) . Para além destes compostos, foi também escolhido o composto PMC79, composto parental dos anteriores, com a mesma estrutura, mas sem as cadeias de polímero na sua estrutura. O composto PMC79 apresenta uma boa citotoxicidade relativamente à cisplatina para as mesmas linhas celulares. No entanto, para este composto o nível de acumulação nas células A2780 sensíveis foi muito superior que nas resistentes. Devido a estes resultados, o PMC79 foi também escolhido para este trabalho para se tentar perceber em maior detalhe qual o(s) transportadores ABC responsáveis por este efeito. O composto LCR134, [Ru(η5-Cp)(PPh3)(bipiridina-biotina)][CF3SO3], foi também escolhido uma vez que é baseado no PMC79, mas onde foram adicionadas duas moléculas de biotina (vitamina H ou B7) à bipiridina. A inclusão desta biomolécula poderá ser vantajosa devido à capacidade de se ligar a recetores da membrana celular das células cancerígenas. A biotina é essencial para o nosso organismo e tem sido frequentemente utilizada em diversos estudos reportando a sua facilidade de transporte para dentro das células cancerígenas. Os três compostos restantes, pertencem à subfamília de ruténio η5-metilciclopentadienilo e foram escolhidos com o objetivo de se conseguir obter uma correlação entre a sua atividade biológica e os substituintes na bipiridina. Desta forma, para se estudar o papel dos transportadores ABC no mecanismo de ação destes compostos, utilizaram-se diversas técnicas, tais como o teste de viabilidade celular para avaliar a citotoxicidade de cada composto através do cálculo do IC50, citometria de fluxo para verificar a percentagem de inibição de cada composto para os transportadores ABC, citometria de massa para quantificar a percentagem de acumulação do ruténio nas células, e docking molecular para a caracterizar a ligação de compostos ao sitio ativo da proteína P-gp. Todos os compostos obtiveram bons resultados ao nível da citotoxicidade para a linha celular cancerígena 2008C (1.1 - 4.5 μM), assim como bons níveis de internalização celular de ruténio. Os resultados obtidos permitiram concluir que compostos mesmo estruturalmente muito similares, possuem atividades biológicas distintas. Verificou-se que os compostos de ruténio-polímero, PMC78 e PMC85, são mais citotóxicos para células sobre expressas com transportadores (P-gp e MRP1, respetivamente) do que sem transportadores. O PMC78 demonstrou também que seria um bom inibidor para a P-gp. Todos estes fatores levaram a indicar que o uso do polilactídeo poderá potenciar a ação anticancerígena de compostos não poliméricos. Observou-se também que o uso do fragmento da bipiridina funcionalizada com duas moléculas de biotina poderá potenciar a capacidade anticancerígena dos compostos, visto que o complexo LCR134 revelou ser muito bom inibidor da P-gp. Cálculos de docking molecular mostram que é possível que haja competição entre o LCR134 e o conhecido substrato Rodamina 123 pelo centro ativo da P-gp . Os compostos LCR136 e RT11, pertencentes à família η5-MeCp, foram os compostos que revelaram os melhores resultados ao nível das suas atividades inibidoras e a melhor internalização para as linhas com os transportadores ABC estudados, sugerindo uma correlação entre as suas atividades e a sua internalização celular. Para além disso, revelaram melhor citotoxicidade para células sobre expressas. Os compostos PMC79 e RT12, são os compostos estruturalmente mais parecidos, onde a única diferença é a existência do grupo metil no ciclopentadienilo para o RT12. Os resultados mostraram que estes dois compostos têm atividades biológicas muito parecidas. Ambos são mais citotóxicos para as células sem sobre expressão de transportadores do que para as células sobre expressas e parecem não terem qualquer efeito inibitório para este tipo de células resistentes, contrariamente aos outros compostos estudados. Concluindo, pode-se afirmar que o grupo -CH2OH, comum aos dois compostos e que os distingue dos restantes, terá um papel importante no efluxo dos mesmos, tornando-os substratos dos transportadores ABC. Decorrente da avaliação dos estudos biológicos realizados, foi sintetizado com sucesso um novo complexo de ruténio, [Ru(η5-(Me-C5H4)(PPh3)(bipiridina-biotina)][CF3SO3] (Ru2). Este composto foi analisado por técnicas espetroscópicas como o RMN (1H, 31P, 13C e técnicas bidimensionais), UV-Vis e FT-IR, e a sua pureza foi determinada por análises elementares. O complexo revelou também adequada estabilidade em meio celular (variação menor que 5 % às 24 h) e caráter lipofílico (logPo/w= 1,6), o que nos assegurou continuação para os estudos biológicos neste novo composto. Foi então avaliado, para Ru2, a viabilidade celular nas linhas celulares utilizadas anteriormente. Contrariamente aos resultados previamente obtidos, este novo complexo de ruténio é muito menos citotóxico para NIH3T3 WT, NIH3T3-P-gp e 2008C, sendo que não é citotóxico para as outras linhas celulares estudadas. Percebe-se também que este composto é um substrato para a P-gp e não tem qualquer efeito inibitório para esta ou outra proteína transportadora. Concluindo, pode-se afirmar que a coordenação da biotina e do grupo η5-MeCp na mesma estrutura parece modificar a capacidade inibitória para P-gp e MRP2 como tinham os compostos LCR134, RT11 e LCR136. Este resultado revelou ser muito interessante, e como tal deve ser explorado em trabalhos futuros. Deste modo este trabalho apresenta pela primeira vez o estudo de novos compostos de ruténio com fragmento ‘Ru(η5-CpR)(PPh3)(bipiridina-R)’ em células sobre expressas por transportadores ABC. A descoberta de que estes complexos de ruténio são inibidores para proteínas transportadoras abre novas possibilidades relativamente aos seus mecanismos de ação. Para além disso, tal como observado para outros compostos da literatura, verificou-se que pequenas alterações estruturais desencadeiam respostas biológicas muito diferentes mostrando a importância deste tipo de estudos que relaciona a estrutura com a atividade. O objetivo deste trabalho foi então concluído com sucesso revelando que compostos de ‘Ru(η5-CpR)(PPh3)(bipiridina-R)’ poderão constituir uma ferramenta importante para o combate ao cancro, especialmente em cancros resistentes.
Cancer is a global disease that affects most of the age ranges and is still one of the biggest concerns for the scientists worldwide. The research in this area is exhaustive and, fortunately, important developments are done year after year. However, there are some obstacles for the successful treatment such as multidrug resistance (MDR) that limits the drug efficacy. The main reason for this resistance lies in one type of proteins called ABC transporters. These proteins are overexpressed in cancer cell lines and allow the efflux of the drug out from the cell. P-gp or ABCB1, MRP1 or ABCC1, MRP2 or ABCC2 and ABCG2 or BCRP are the most studied proteins belonging to the ABC family. Although the transport mechanism of each pump is still missing, one thing that the scientists are sure is that these proteins are responsible for the efflux of molecules out of the cells. To try to avoid this efflux, the identification of selective inhibitors that block the drugs efflux is being explored. The main challenge of this research is to find compounds that can act as high effective inhibitors while presenting low toxicity for healthy cells. Within this frame, the Organometallic Chemistry Laboratory from Faculdade de Ciências da Universidade de Lisboa, Portugal, and the Drug Resistance and Membrane Proteins in Lyon, France, studied the role of several ABC transporters on the mechanism of action of new ruthenium cyclopentadienyl compounds “Ru(η5-Cp)”. All the complexes were cytotoxic for the cell lines overexpressed and not overexpressed with ABC transporters and also for one cancer cell line, 2008C. Four compounds (PMC78, LCR134, RT11, LCR136) exhibited specific inhibitory activity for some of the ABC transporters studied. The amount of ruthenium internalization on the cell lines was also quantified by mass cytometry (CyTOF), indicating that, in all cases, the compounds are internalized. A molecular docking study was also carried out for one of the structures (LCR134) in P-gp protein revealing that a competition between LCR134 and the P-gp substrate might happen. With the aim of optimizing the inhibitory activity of this family of compounds, a new ruthenium complex was synthesized, [Ru(η5-MeCp)(PPh3)(bipy-biot)][CF3SO3] Ru2, bearing the structural features inducing the best inhibition effects: a biotin molecule and a η5-MeCp ligand. This compound was characterized by the usual techniques (NMR, UV-Vis and IR spectroscopies) and its purity was assessed by elemental analyses. Ru2 was found to be very stable in cell medium (less than 5% variation over 24 h) and it has an hydrophobic character (logPo/w= 1.6), allowing us to carry on with the biological evaluation. The new compound was evaluated in the same cell lines as the previous compounds. Interestingly, this compound is much less cytotoxic for NIH3T3 WT, NIH3T3-P-gp and 2008C cell lines than the previously compounds studied, and is non-cytotoxic for all the other cell lines. Moreover, it seems that this compound is a substrate for P-gp pumps and does not have any inhibitory effect. To conclude, we can say that the biotin and η5-MeCp motifs in the same complex do not improve the inhibitory potential, resulting, in contrast, in the loss of the inhibitory capacity. Altogether, the proposed aims for this work were successfully achieved and allowed us to unravel an unprecedented mechanism of action for ruthenium cyclopentadienyl complexes that can be used as tool to fight the multidrug resistance in cancer.
Domingues, Marco André Manso 1985. „Study of the mechanism of action of the antimicrobial peptide rBPI21 in gram-negative bacteria“. Doctoral thesis, 2012. http://hdl.handle.net/10451/8633.
Der volle Inhalt der QuelleAntimicrobial peptides (AMPs) are currently looked as new candidates to overcome the bacterial resistance against therapeutic antibiotics. However, their mechanism of action remains unclear, despite several theories having been proposed. The understanding of the processes that govern AMPs activity is the best way to provide rational design of new antibiotics for further clinical use against bacterial infections. Human AMPs are part of the innate immune system and synthetic versions of these AMPs are good candidates, due to their low toxicity and high antimicrobial activity. It is believed that the mode of action of these AMPs involves their action at the membrane level. This thesis is focused on the study of the interaction of a fragment based on the N-terminal region of a human antimicrobial protein, the bactericidal/permeability increasing protein (BPI), with biomembrane model systems and bacterial cells. The fragment, named rBPI21, has antimicrobial properties and neutralizes the effect of the lipopolysaccharide (LPS) during bacterial infections. The thesis describes the use of biophysical strategies in order to unravel the fundamental steps involved in the bactericidal activity of rBPI21. Membrane selectivity was quantified using a range of biophysical techniques and reported in Chapters III and V. Chapter III reveals that rBPI21 prefers negatively charged liposome systems containing phosphatidylglycerol, which mimic bacterial membranes. The preference for the anionic phosphatidylglycerol membranes is followed by membrane aggregation/fusion and, at higher rBPI21 concentrations, there is a leakage of liposome content, as described in Chapter IV. Liposomes fusion leads to multilamellar membrane structures, as studied in Chapter V by small angle X-ray scattering. Previous studies revealed that rBPI21 was able to induce membrane perturbations on negatively charged membrane model systems mimicking the membranes of bacteria. On the other hand, membrane model systems that mimic eukaryotic membranes remain unaffected by the presence of rBPI21. In Chapter VI, the interaction of rBPI21 with bacteria was studied using atomic force microscopy, and the results were correlated with those obtained with membrane model systems in order to unravel the possible mechanism of action of the peptide. rBPI21 was shown to induce membrane perturbations, culminating in bacterial cells content leakage, both on the Gram-negative bacteria Escherichia coli and on the Gram-positive Staphylococcus aureus. The interaction of rBPI21 with bacteria was decreased in the presence of free lipopolysaccharide aggregates, demonstrating the affinity of rBPI21 for free LPS, as studied by force spectroscopy. The overall observed results potentiate the use of the rBPI21 in clinics against bacterial infections. Also, the development of new synthetic peptides based on rBPI21 structure is a valuable route to develop new therapeutic agents with antibacterial properties.
O aumento considerável das resistências bacterianas aos antibióticos em uso na prática clínica têm vindo a deixar as comunidades científica e clínica, alarmadas. O desenvolvimento de novas classes de antibióticos é urgente, para que se possa combater a resistência bacteriana adquirida. Os péptidos antibacterianos são vistos como novos candidatos para uso terapêutico nesta área. No entanto, ainda existem dúvidas e necessidades de esclarecimento quanto ao seu mecanismo de acção. A aquisição deste conhecimento, ainda em falta, irá permitir o desenvolvimento de novos péptidos para uso clínico contra infeções bacterianas e a optimização das suas aplicações e modo de administração. Os péptidos antibacterianos podem-se encontrar em quase todos os organismos vivos expostos à ação dos micróbios, desde os humanos até plantas e insetos. Estes agentes fazem parte da resposta rápida e eficaz contra patogénios. No caso dos humanos, o sistema imune inato é rico em péptidos antibacterianos, o que faz destes agentes bons candidatos para terapêutica, devido à baixa toxicidade e elevada actividade antibacteriana. A maioria dos péptidos antibacterianos são caracterizados principalmente por, em condições fisiológicas, possuírem carga global positiva devido à presença na sua constituição de grande quantidade de aminoácidos catiónicos, como é o caso de argininas e lisinas. É também conhecida a tendência para estas moléculas adquirirem uma estrutura anfipática, ou seja, são moléculas que apresentam uma região hidrófila e uma outra hidrófoba. Em concordância com estas características, estudos demonstram que a actividade antibacteriana destes péptidos ocorre maioritariamente ao nível da membrana. A selectividade destes agentes para as bactérias em detrimento das células humanas, por exemplo, deve-se sobretudo à presença de algumas moléculas específicas na superfície das bactérias, como é o caso dos lipopolissacáridos, e também de uma elevada percentagem de fosfolípidos aniónicos na membrana. É a carga negativa da membrana que potencia a atracão electrostática entre os péptidos antibacterianos e as membranas das bactérias. ação antibacteriana destes agentes ao nível das membranas das bactérias faz com que seja difícil para as bactérias adquirirem resistência. Isto implicaria alterações significativas na constituição membranar, o que levaria a uma alteração no potencial de membrana com custos energéticos e funcionais para a bactéria. De forma a desenvolver os péptidos antibacterianos como fármacos é necessário o estudo pormenorizado da ação dos mesmos em membranas. No entanto, as membranas biológicas são sistemas muito complexos para poderem ser usados na análise da actividade dos péptidos antibacterianos. Uma alternativa comummente usada e bastante viável prende-se com o uso de sistema modelo de membranas, nomeadamente o uso de vesículas lipídicas. É possível usar diferentes misturas de lípidos na realização destas vesículas permitindo aproximar da composição biológica das membranas das bactérias e humanas. Estes sistemas modelo de membranas podem ser usados com diferentes tamanhos, tendo sido nesta tese estudadas as interacções com vesículas lipídicas unilamelares grandes, de aproximadamente 100 nm, e também vesículas multilamelares com tamanhos compreendidos entre 1 e 100 micrometros. A ação sistémica dos antibióticos aquando da morte bacteriana é acompanhada pela libertação de certos componentes bacterianos em circulação sanguínea. Uns destes componentes são os lipopolissacáridos, que são libertados das membranas das bactérias Gram-negativas. Estas moléculas em circulação tornam-se agentes infecciosos que em baixas concentrações mantém o organismo em alerta contra patogénios, mas em concentrações elevadas originam uma produção excessiva de citocinas que podem culminar no choque séptico e daí resultando a morte. No caso de péptidos com actividade antibacteriana contra bactérias Gramnegativas é muito importante que, além da acção antibacteriana, os péptidos sejam capazes de neutralizar o efeito endotóxico do lipopolissacárido. A bactericidal/permeability increasing protein (BPI) é uma proteína homóloga da lipopolysaccharide binding protein (LBP) e que se encontra nos grânulos azurófilos dos neutrófilos. Além da sua actividade antibacteriana descrita é também conhecido o seu efeito neutralizador da ação do lipopolissacárido livre em circulação. Estas actividades estavam associadas à região amina da proteína. Desta forma foi desenvolvido um fragmento baseado nesta região, denominado rBPI21. O rBPI21 possui uma massa molecular de 21 kDa tendo actividade antibacteriana e também é capaz de se ligar ao lipopolissacárido, neutralizando a toxicidade provocada pelo mesmo. Esta tese de doutoramento está focada na interacção do rBPI21 com sistemas modelo de membranas e bactérias. Os estudos realizados ao longo deste trabalho foram essencialmente biofísicos, utilizando técnicas, como exemplo, espectroscopias dispersão de luz, de fluorescência e de força atómica. Nos Capítulos III e V desta tese de doutoramento é determinada, através da espectroscopia de fluorescência e da calorimetria de titulação isotérmica, a selectividade do rBPI21 para sistemas modelo de membranas com carga negativa conferida pelo fosfolípido fosfatidilglicerol. Estas membranas carregadas negativamente são um modelo aproximado das membranas das bactérias Gramnegativas. A preferência do rBPI21 para membranas contendo fosfatidiglicerol é seguida da formação de agregados membranares, estudada por espectroscopia de dispersão de luz, e também da fusão membranar. No entanto, a elevadas concentrações do rBPI21 ocorre a lise do sistema modelo de membrana. Estes estudos estão descritos no Capítulo IV da tese. No Capítulo V da tese mostra-se através do uso da dispersão de raios-X de pequeno ângulo que a interacção do rBPI21 com sistemas modelo de membranas é seguida da formação de sistemas multilamelares aquando da fusão membranar. Após os estudos efectuados com sistemas modelo de membranas, no Capítulo VI foi descrita a interacção do rBPI21 com bactérias, de forma a corroborar o mecanismo de acção observado nos sistemas modelo. Os estudos foram feitos com a bactéria Gram-negativa Escherichia coli e com a Gram-positiva Staphylococcus aureus. Estudos por microscopia de força atómica e espectroscopia de força mostram que o rBPI21 é capaz de causar a lise de ambas as bactérias e que a interacção do péptido com as mesmas é reduzida na presença de agregados livres de lipopolissacárido, evidenciando a afinidade do péptido para o lipopolissacárido na forma livre. Os resultados revelam para os determinantes da selectividade do rBPI21 para as membranas das bactérias, em detrimento das membranas de células humanas. Desta forma, o rBPI21 é um bom candidato para uso clínico, assim como um bom modelo para, através da sua estrutura, serem desenhados novos péptidos com maior actividade antibacteriana e reduzida toxicidade.
Fundação para a Ciência e a Tecnologia (FCT, SFRH/BD/41750/2007)
Rasool, Yusuf. „An evaluation of the anti-inflammatory activity and mechanism of action of three novel auronofin derivatives“. 2008. http://upetd.up.ac.za/thesis/available/etd-02242009-160331.
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