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Showing 1 to 7 of 7 (0.055 seconds)Spelling suggestions: "subject:"molybdenum hexacarbonyl"" "subject:"olybdenum hexacarbonyl""
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Design and Synthesis of Novel HIV-1 Protease Inhibitors Comprising a Tertiary Alcohol in the Transition-State MimicEkegren, Jenny January 2006 (has links)
<p>HIV-1 protease inhibitors are important in the most frequently used regimen for the treatment of HIV/AIDS, the highly active antiretroviral therapy (HAART). For patients with access to this treatment, an HIV infection is no longer lethal, but rather a manageable, chronic infection. However, the HIV-1 protease inhibitors are generally associated with serious shortcomings such as adverse events, development of drug resistance and poor pharmacokinetic properties. Most of the approved inhibitors suffer from high protein binding, rapid metabolism and/or low membrane permeability. </p><p>In this project, novel HIV-1 protease inhibitors comprising a rarely used tertiary alcohol in the transition-state mimic were designed, synthesized and evaluated. The rationale behind the design was to achieve ‘masking’ of the tertiary alcohol by for example, intramolecular hydrogen bonding, which was believed could enhance transcellular transport. </p><p>A reliable synthetic protocol was developed and a series of highly potent inhibitors was obtained exhibiting excellent membrane permeation properties in a Caco-2 cell assay. However, the cellular antiviral potencies of these compounds were low. In an attempt to improve the anti-HIV activity, microwave-accelerated, palladium-catalyzed cross-coupling reactions and aminocarbonylation of aryl bromide precursors were employed to produce P1'-extended test compounds. Inhibitors demonstrating up to six times higher antiviral effect were obtained, the best derivatives having para 3- or 4-pyridyl elongations in P1'.</p><p>Fast metabolic degradation was observed in liver microsome homogenate, which is believed, at least partly, to be attributable to benzylic oxidation of the indanol P2 group of the inhibitors. To enable facile variation of the P2 side chain a new synthetic route was developed using an enantiomerically pure, benzyl-substituted epoxy carboxylic acid as the key intermediate. Cyclic and amino-acid-residue-derived P2 groups were evaluated, and inhibitors equipotent to the series containing an indanol moiety were produced.</p>
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Design and Synthesis of Novel HIV-1 Protease Inhibitors Comprising a Tertiary Alcohol in the Transition-State MimicEkegren, Jenny January 2006 (has links)
HIV-1 protease inhibitors are important in the most frequently used regimen for the treatment of HIV/AIDS, the highly active antiretroviral therapy (HAART). For patients with access to this treatment, an HIV infection is no longer lethal, but rather a manageable, chronic infection. However, the HIV-1 protease inhibitors are generally associated with serious shortcomings such as adverse events, development of drug resistance and poor pharmacokinetic properties. Most of the approved inhibitors suffer from high protein binding, rapid metabolism and/or low membrane permeability. In this project, novel HIV-1 protease inhibitors comprising a rarely used tertiary alcohol in the transition-state mimic were designed, synthesized and evaluated. The rationale behind the design was to achieve ‘masking’ of the tertiary alcohol by for example, intramolecular hydrogen bonding, which was believed could enhance transcellular transport. A reliable synthetic protocol was developed and a series of highly potent inhibitors was obtained exhibiting excellent membrane permeation properties in a Caco-2 cell assay. However, the cellular antiviral potencies of these compounds were low. In an attempt to improve the anti-HIV activity, microwave-accelerated, palladium-catalyzed cross-coupling reactions and aminocarbonylation of aryl bromide precursors were employed to produce P1'-extended test compounds. Inhibitors demonstrating up to six times higher antiviral effect were obtained, the best derivatives having para 3- or 4-pyridyl elongations in P1'. Fast metabolic degradation was observed in liver microsome homogenate, which is believed, at least partly, to be attributable to benzylic oxidation of the indanol P2 group of the inhibitors. To enable facile variation of the P2 side chain a new synthetic route was developed using an enantiomerically pure, benzyl-substituted epoxy carboxylic acid as the key intermediate. Cyclic and amino-acid-residue-derived P2 groups were evaluated, and inhibitors equipotent to the series containing an indanol moiety were produced.
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Design and Synthesis of Inhibitors Targeting the Hepatitis C Virus NS3 Protease : Focus on C-Terminal Acyl SulfonamidesRönn, Robert January 2007 (has links)
Hepatitis C is a global health problem that affects approximately 120–180 million people. This viral infection causes serious liver diseases and the therapy available suffers from low efficiency and severe side effects. Consequently, there is a huge unmet medical need for new therapeutic agents to combat the hepatitis C virus (HCV). Inhibition of the viral NS3 protease has recently emerged as a promising approach to defeat this infection, and the first HCV NS3 protease inhibitors have now entered clinical trials. In this project, several novel HCV NS3 protease inhibitors have been designed, synthesized and biochemically evaluated. Inhibitors with various P1 C-terminal functional groups intended as potential bioisosteres to the carboxylic acid found in product-based inhibitors have been revealed. Special focus has been placed on establishing structure–activity relationships of inhibitors containing the promising P1 C-terminal acyl sulfonamide group. The properties of the acyl sulfonamide functionality that are important for producing potent inhibitors have been identified. In addition, the advantages of the acyl sulfonamide group compared to the carboxylic acid have been demonstrated in both enzymatic and cell-based assays. Besides the acyl sulfonamide functionality, the acyl cyanamide and the acyl sulfinamide groups have been identified as new carboxylic acid bioisosteres in HCV NS3 protease inhibitors. The synthetic work included the development of a fast and convenient methodology for the preparation of aryl acyl sulfonamides. The use of microwave heating and Mo(CO)6 as a solid carbon monoxide source provided aryl acyl sulfonamides from aryl halides in excellent yields. This method was subsequently used in the decoration of novel HCV NS3 protease inhibitors comprising a non-natural P1 moiety. This new class of compounds can be used as lead structures in a future optimization process aimed at producing more drug-like HCV NS3 protease inhibitors.
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Design and Synthesis of Novel AT2 Receptor Ligands : From Peptides to Drug-Like MoleculesGeorgsson, Jennie January 2006 (has links)
Many peptide receptors are of pharmaceutical interest and there is thus a need for new ligands for such receptors. Unfortunately, peptides are not suitable as orally administrated drugs since they are associated with poor absorption, rapid metabolism and low sub-receptor selectivity. One approach that should allow identification of more drug-like ligands is to use the structural information of the endogenous ligand to develop peptidomimetic compounds. The main objective of the work described in this thesis was to convert angiotensin II (Ang II, Asp-Arg-Val-Tyr-Ile-His-Pro-Phe) to small drug-like compounds with retained bioactivity at the AT2 receptor. The study was performed step-wise via incorporation of well-defined secondary structure mimetics and repeated truncation of the peptide. Five scaffolds, comprising a benzene ring as a central element, suitable as a γ-turn or dipeptide mimetics were designed and synthesized. In order to decorate the scaffolds, a method of microwave-assisted alkoxycarbonylation was developed. After incorporation of the scaffolds into Ang II-related peptides or peptide fragments, the affinities for both the AT1 and the AT2 receptor were determined. In the first series of ligands, two tyrosine-related scaffolds were introduced as γ-turn mimetics in Ang II. All five pseudopeptides exhibited good affinities for the AT2 receptor. One compound was chosen for functional studies and was shown to act as an AT2 receptor agonist. After truncation of Ang II it was shown that C-terminal pentapeptide analogs were AT2 receptor selective agonists. A series of pseudopeptides comprising tyrosine-related scaffolds, derived from the pentapeptides, displayed high AT2 receptor affinities. Two compounds had agonistic effect at the AT2 receptor. This study revealed that the N-terminal part was of less importance while a C-terminal Ile residue was a key element for enhanced AT2 receptor affinity. In the final set of compounds, the peptide was truncated to tripeptide C-terminal fragments. After replacing His-Pro by a histidine-related scaffold small drug-like peptidomimetic compounds with nanomolar affinity for the AT2 receptor were identified.
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Développement d'un procédé d'élaboration associant lithographie électronique et auto-assemblage pour la fonctionnalisation des surfaces à l'échelle nanométrique / Innovative electronic lithography using self-assembly films in order to modify material surfaces at nanometric scalePaufert, Pierre 16 December 2013 (has links)
Le concept de décomposition par un faisceau électronique a été développé dans le but de créer des motifs supportés de taille inférieure à celle atteinte par les méthodes lithographiques classiques. Ce travail avait pour objectif d’appréhender ce concept à travers une séparation des mécanismes mis en jeu, de façon à mieux les comprendre pour mieux les contrôler.Un dispositif a été conçu et un protocole défini où une première étape correspond à l'adsorption à température cryogénique de composés carbonylés à cœur métallique. L’adsorbat est ensuite décomposé par un faisceau d’électrons focalisés puis les résidus de la fragmentation sont éliminés lors de recuits permettant la réorganisation du dépôt lithographié. Pour suivre les différentes étapes, une approche de type « science des surfaces » a été choisie car elle offre la possibilité d’étudier les processus mis en jeu à l’aide de techniques d'analyses sensibles à la chimie.Ainsi, ce travail a permis de mettre en évidence que l'adsorption à température cryogénique de Mo(CO)6 et W(CO)6 sur des surfaces métalliques ou oxydes n'induit pas d'important changement de leur structure moléculaire démontrant que cette étape est renversable. Par ailleurs, il a été montré que les électrons de basse énergie (< 150 eV) engendrent la dissociation de ces molécules par un processus de collision mono-électronique et qu'il est aussi possible de les décomposer à l'aide d'un faisceau d'électrons lorsqu'elles sont physisorbées, menant à la formation de dépôts stables à température ambiante. Un traitement thermique finalise la décomposition. La morphologie finale est liée à la dose d'électrons et à la quantité initiale de molécules adsorbées. / The concept of electon beam decomposition has been developed in order to create smaller patterns than those achieved by conventional lithographic methods. This work aimed to go further about this concept through a separation of the involved mechanisms in order to better understand them and thus reach a better control of process.A device was designed and a protocol was defined where the first stage is the adsorption at cryogenic temperature of metal-carbonyl compounds. The adsorbate is then decomposed by a focused electron beam and fragmentation residues are removed through annealing allowing the deposit reorganization. The study of the different steps of the elaboration method was followed through the "surface science" approach because such a way offers the opportunity to study the processes involved by analytical techniques sensitive to material chemistry.Thus, this work has highlighted that the adsorption at cryogenic temperature of Mo(CO)6 and W(CO)6 on metal or oxide surfaces does not induce any significant changes in their molecular structure demonstrating that this step is reversible. Moreover, it was shown that low energy electrons ( <150 eV ) cause dissociation of these molecules by a one-electron process. Moreover, it is possible to decompose adsorbed molecules with a focused electron beam, leading to the formation of a stable deposit at room temperature. Annealing treatment can complete the decomposition. Besides, the final morphology is related to the electron dose as well as the initial amount of adsorbed molecules.
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Microwave-Assisted Synthesis of C<sub>2</sub>-Symmetric HIV-1 Protease Inhibitors : Development and Applications of <i>In Situ</i> Carbonylations and other Palladium(0)-Catalyzed ReactionsWannberg, Johan January 2005 (has links)
<p>The HIV protease is an essential enzyme for HIV replication and constitutes an important target in the treatment of HIV/AIDS. Efficient combination therapies using inhibitors of the reverse transcriptase and protease enzymes have led many to reevaluate HIV infections from a terminal condition to a chronic-but-manageable disease in the developed world. Unfortunately, the emergence of drug resistant viral strains and severe treatment-related adverse effects limit the benefits of current anti-HIV/AIDS drugs for many patients. Furthermore, less than one in ten patients infected with HIV in low- and middle-income countries have access to proper treatment. These important shortcomings highlight the need for new, cost effective anti-HIV/AIDS drugs with unique properties.</p><p>Microwave heating has recently emerged as a productivity-enhancing tool for the medicinal chemist. Reaction times can often be reduced from hours to minutes or seconds and chemistry previously considered impractical or unattainable can now be accessed.</p><p>In this thesis, the search for unique HIV-1 protease inhibitors and the development and application of new microwave-promoted synthetic methods useful in small-scale medicinal chemistry applications are presented. Protocols for rapid amino- and hydrazidocarbonylations were developed. Mo(CO)<sub>6</sub> was used as a solid source of carbon monoxide, enabling a safe, efficient and simple way to exploit carbonylation chemistry without the direct use of toxic carbon monoxide gas. The aminocarbonylation methodology was applied in the synthesis of two series of new HIV-1 protease inhibitors. A biological evaluation suggested that <i>ortho</i>-substitution of P1 and/or P1’ benzyl side chains might provide a new approach to HIV-1 protease inhibitors with novel properties. To assess the scope and limitations of the <i>ortho</i>-substitution concept, a new series of compounds exhibiting fair potency was prepared by various microwave-heated, palladium-catalyzed coupling reactions. Finally, computer modeling was applied to rationalize the binding-modes and structure-activity relationships of these HIV-1 protease inhibitors.</p>
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Microwave-Assisted Synthesis of C2-Symmetric HIV-1 Protease Inhibitors : Development and Applications of In Situ Carbonylations and other Palladium(0)-Catalyzed ReactionsWannberg, Johan January 2005 (has links)
The HIV protease is an essential enzyme for HIV replication and constitutes an important target in the treatment of HIV/AIDS. Efficient combination therapies using inhibitors of the reverse transcriptase and protease enzymes have led many to reevaluate HIV infections from a terminal condition to a chronic-but-manageable disease in the developed world. Unfortunately, the emergence of drug resistant viral strains and severe treatment-related adverse effects limit the benefits of current anti-HIV/AIDS drugs for many patients. Furthermore, less than one in ten patients infected with HIV in low- and middle-income countries have access to proper treatment. These important shortcomings highlight the need for new, cost effective anti-HIV/AIDS drugs with unique properties. Microwave heating has recently emerged as a productivity-enhancing tool for the medicinal chemist. Reaction times can often be reduced from hours to minutes or seconds and chemistry previously considered impractical or unattainable can now be accessed. In this thesis, the search for unique HIV-1 protease inhibitors and the development and application of new microwave-promoted synthetic methods useful in small-scale medicinal chemistry applications are presented. Protocols for rapid amino- and hydrazidocarbonylations were developed. Mo(CO)6 was used as a solid source of carbon monoxide, enabling a safe, efficient and simple way to exploit carbonylation chemistry without the direct use of toxic carbon monoxide gas. The aminocarbonylation methodology was applied in the synthesis of two series of new HIV-1 protease inhibitors. A biological evaluation suggested that ortho-substitution of P1 and/or P1’ benzyl side chains might provide a new approach to HIV-1 protease inhibitors with novel properties. To assess the scope and limitations of the ortho-substitution concept, a new series of compounds exhibiting fair potency was prepared by various microwave-heated, palladium-catalyzed coupling reactions. Finally, computer modeling was applied to rationalize the binding-modes and structure-activity relationships of these HIV-1 protease inhibitors.
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