Global ETD Search

11	Capillary electroseparations in pharmaceutical analysis of basic drugs and related substances Enlund, Anna Maria January 2001 (has links) Capillary electroseparation methods<b> </b>are exciting new techniques with very broad application areas and vast potential in pharmaceutical and biomedical analysis. To improve the limit of detection (LOD) capillary zone electrophoresis (CZE) has been combined with isotachophoretic (ITP) preconcentration in a single capillary. Using the ITP-CZE combination the LOD can be improved at least 100-fold. Laser-induced fluorescence (LIF) detection is more sensitive and more selective than the most common detection technique, UV, and the intensity and focusing capability of LIF fits well with the small dimensions in CZE. The total sensitivity enhancement attained for a new acetylcholinesterase inhibitor, NXX-066, by using ITP-CZE-LIF was more than 5500-fold compared to CZE-UV. Capillary electrochromatography (CEC) combines the high separation efficiency of CZE with the vast possibilities to improve selectivity of HPLC. We have examined different ways to solve the problem of extensively tailing peaks and studied the influence of the mobile phase composition on the electrochromatographic performance for a number of tricyclic antidepressants and related quaternary ammonium compounds. (1) Adding aliphatic amines to the mobile phase in reversed phase CEC. The effect on the chromatographic performance was coupled to the hydrophobicity of the additive and the amine of our choice was dimethyloctylamine. (2) Silica-based cation exchangers with different pore sizes. The large-pore materials promoted pore flow, but this had no positive influence on the performance. The small-pore (highest surface area) particles gave the best selectivity. (3) Designing special continuous beds. As the bed is covalently attached to the capillary wall, problems related to retaining frits are avoided. The stationary phase most suitable for our analytes had a molar ratio of 1:80 between the functional ligands, vinyl sulphonic acid and isopropyl groups, respectively. The LOD was lowered 26000-fold by dissolving the sample in a low-conducting medium. Pharmaceutical chemistry Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
12	Development of Methods in CE, CE-MS and MS/MS : Applications in Pharmaceutical, Biomedical and Forensic sciences Jäverfalk-Hoyes, Emmy January 2001 (has links) Capillary electrophoresis-mass spectrometry has been used successfully for the analysis of a wide range of analytes such as chiral local anaesthetics, sulphonated reactive dyes and endogenous neurotransmitters and neuropeptides. The partial filling technique was used in CE-MS for chiral separation of bupivacaine and ropivacaine using the non-volatile selector β-cyclodextrin. By only partially filling the capillary with selector and using capillaries coated with polyacrylamide to suppress the electroosmotic flow, introduction of the selector into the mass spectrometer was avoided. An impurity of 0.25% of the R-enantiomer of ropivacaine in the S-form could be detected. The partial filling technique was developed further using CE employing two different selectors in separate plugs in the capillary. This enhanced the separation efficiency and offered greater flexibility in controlling the separation. By using transient-isotachophoresis (tITP)-CE-MS it was possible to concentrate and detect classical neurotransmitters and neuropeptides with masses ranging from 104 Da to 1642 Da. γ -Aminopropyltriethoxysilane coated capillaries were used to minimize adsorption of the peptides onto to capillary surface. Endogenous dopamine, glutamate, γ-aminobutyric acid (GABA), acetylcholine, methionine-enkephalin and substance P 1-7 were detected in the striatum of marmoset monkey. Sulphonated dyes obtained from single textile fibres were analysed using CE-MS. Capillary electrophoresis was found to be a good way of removing the excess amounts of glucose present in the sample that would otherwise interfere with the electrospray ionisation. Automatic function switching, originally developed for use together with liquid chromatography, was found to be a great method for acquiring MS/MS data when doing infusion experiments saving both time and sample without decreasing the quality of the MS/MS data. It was also found to be a more time efficient way than using the precursor ion scanning mode on the Q-TOF to obtain precursor ion data. Pharmaceutical chemistry Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
13	Design and synthesis of aspartyl protease inhibitors : Targeting HIV-1 and malaria plasmepsin I and II Nöteberg, Daniel January 2003 (has links) Aspartyl proteases can generally be inhibited by peptide mimics containing an uncleavable peptide bond isostere at the proposed cleavage site. One such peptide bond isostere is the hydroxyethylamine moiety, which in this thesis has successfully been incorporated in potential inhibitors of the HIV-1-protease as well as the malarial proteases plasmepsin I and II. The human immunodeficiency virus (HIV) has during the last 20 years given rise to a new fast-spread epidemic. The virus protease is one of the foremost targets for drug intervention. In an attempt to improve an earlier design, a P1'-anthranilic acid was exchanged for all four isomers of 2-aminocyclopentanecarboxylic acid, which were synthesized from racemic starting materials, the trans isomers via a novel synthetic route. None of the isomers enhanced potency as compared to the anthranilic acid. Because of increasing development of resistance, the pharmaceutical intervention with malaria is becoming rapidly more difficult. A prominent new target for drug research is the hemoglobin degradation pathway. Two of the many proteases involved in this pathway are plasmepsin I and II. Two series of peptide mimics with the hydroxyethylamine were prepared and tested against these enzymes as well as against the similar human protease cathepsin D. In the first series the central nitrogen of the target compounds is a secondary amine, derived from natural and unnatural amino acids, the side-chain of which was to bind in the S1'-site of the proteases. It was found that para-aryl substituted phenylalanines resulted in the most active inhibitors. While the P1- and P2-side-chains were kept constant at benzyl and isopropyl respectively, the P3 capping carboxylic acid was varied with a set of diverse carboxylic acids. It was found that many of the carboxylic acids were acceptable. A selection of compounds was tested for inhibition of parasite growth in infected human erythrocytes and found to be active. In the target compounds of the second series the P1'-side-chain was moved from the α-carbon of the initial amino acids to the adjacent nitrogen, thus rendering this a tertiary amine. The SAR of these compounds suggests that this side-chain cannot be larger than benzyl, which is in sharp contrast to the first series, where both isomers of phenylalanine (i.e. a benzyl group on the α-carbon) render inactive compounds. Most of the compounds show a good degree of selectivity for the plasmepsins over cathepsin D, even though a few good inhibitors of the human enzyme could be identified also. Pharmaceutical chemistry Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
14	Regioselective Heck Coupling Reactions : Focus on Green Chemistry Vallin, Karl S. A. January 2003 (has links) Carbon-carbon bond formation reactions are among the most important processes in chemistry, as they represent key steps in the synthesis of more complex molecules from simple precursors. This thesis describes mainly the development of novel regioselective applications of the mild and versatile palladium-catalyzed carbon-carbon coupling method, commonly known as the Heck reaction. In addition, this thesis will focus on environmentally friendly developments of the Heck reaction. Novel ligand-controlled internal Heck vinylations of vinyl ethers and enamides to form branched electron-rich dienes were performed with high regioselectivity. The vinylation of 2-hydroxyethyl vinyl ether permits a chemoselective transformation of a vinylic triflate or bromide into a blocked α,β-unsaturated methyl ketone. Furthermore, a simple separation of the palladium catalyst was achieved with new fluorous-tagged bidentate ligands in combination with fluorous solid phase extraction. The reaction times could be reduced up to 1000 times with controlled microwave heating in the palladium-catalyzed reactions with, in the majority of cases, retained, high selectivity. The development of a “green” regioselective arylation and vinylation method relying on an aqueous DMF-potassium carbonate system and excluding the toxic thallium salt has been accomplished. Ionic liquids as the versatile and environmentally friendly class of solvents have been used in rapid phosphine-free terminal Heck arylations with controlled microwave heating. Recycling of the catalytic medium was achieved after a simple product purification. Pharmaceutical chemistry Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
15	Macrocyclic polypeptides from plants Göransson, Ulf January 2002 (has links) The aim of this work was to explore the structural and functional diversity of polypeptides that are found in plants. Expanding knowledge of simililarities between plant use of these compound and animal use promises exceptional opportunities for finding, from plant research, new structures with biomedical and biotechnological potential. A fractionation protocol was developed and applied to many plant species, providing fractions enriched in polypeptides, amenable to chemical and biological evaluation. From one species, the common field pansy (Viola arvensis), a 29-amino-acid residue polypeptide was isolated, named varv A, which revealed a remarkable macrocyclic structure (i.e., N- and C-termini are joined) stabilised by three knotted disulfides. Varv A, together with an increasing number of homologous peptides, form the currently known peptide family of cyclotides. Their stable structure makes them an attractive scaffold for protein engineering. In addition, they display a wide range of biological activities (e.g., antimicrobial, cytotoxic, and insecticidal). As a part of this work, the cytotoxic effects of varv A and two other isolated cyclotides were evaluated in a human cell-line panel: all were active in the low µM range. Most likely, these effects involve pore formation through cell membranes. Cyclotides were found to be common in the plant family Violaceae; with eleven cyclotides isolated and sequenced from V. arvensis, V. cotyledon, and Hybanthus parviflorus. For six members of the genus Viola, cyclotide expression profiles were examined by liquid chromatography-mass spectrometry (LC-MS): all expressed notably complex mixtures, with single species containing more than 50 cyclotides. These profiles reflect the evolution of the genus. To assess these mixtures, a rational strategy for MS based amino acid sequencing of cyclotides was developed, circumventing inherent structural problems, such as low content of positively charged amino acids and the macrocyclic structure. This was achieved by aminoethylation of cysteines, which, following tryptic digestion, produced fragments of size and charge amenable to MS analysis. This method was also modified and used for mapping of disulfide bonds. Methods for isolation and characterisation developed in this work may prove useful not only for further studies on macrocyclic polypeptides from plants, but also for other plant peptides and disulfide-rich peptides from animals. Pharmaceutical chemistry Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
16	Design and Synthesis of Hepatitis C Virus NS3 Protease Inhibitors Johansson, Anja January 2003 (has links) Hepatitis C Virus (HCV) is the leading cause of chronic liver disease worldwide as well as the primary indication for liver transplantation. More than 3% of the world’s population is chronically infected with HCV and there is an urgent need for effective therapy. NS3 protease, a viral enzyme required for propagation of HCV in humans, is a promising target for drug development in this area. This thesis addresses the design, synthesis and biochemical evaluation of new HCV NS3 protease inhibitors. The main objective of the thesis was the synthesis of peptide-based protease inhibitors of the bifunctional full-length NS3 enzyme (protease-helicase/NTPase). Three types of inhibitors were synthesized: i) classical serine protease inhibitors with electrophilic C-terminals, ii) product-based inhibitors with a C-terminal carboxylate group, and iii) product-based inhibitors with C-terminal carboxylic acid bioisosteres. The developmental work included the establishment of an improved procedure for solid-phase peptide synthesis (SPPS) in the N-to-C direction, in contrast to the C-to-N direction of classical SPPS methods. This inverse method facilitated synthesis of the peptides modified at the C-terminal. The potency of more than seventy newly synthesized inhibitors was assessed in an in vitro assay using the native form of the protease, i.e. the full-length NS3. The structure-activity relationship (SAR) data achieved was different from SAR data obtained from the more widely used truncated NS3 (protease domain) assay, indicating that the helicase domain of NS3 participates in the binding of the inhibitors. The most potent inhibitors identified in this study contained a C-terminal phenyl acyl sulfonamide moiety, i.e. a carboxylic acid bioisostere. It is concluded that the acyl sulfonamide moiety is a promising P1-P1´ spanning entity, which may have potential for use in the development of more drug-like HCV protease inhibitors. Pharmaceutical chemistry Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
17	Structure-based design and synthesis of protease inhibitors using cycloalkenes as proline bioisosteres and combinatorial syntheses of a targeted library / Thorstensson, Fredrik, January 2005 (has links) Diss. (sammanfattning) Linköping : Linköpings universitet, 2005. / Härtill tre uppsatser.
18	Approaches to soft drug analogues of dihydrofolate reductase inhibitors : Design and synthesis Graffner Nordberg, Malin January 2001 (has links) The main objective of the research described in this thesis has been the design and synthesis of inhibitors of the enzyme dihydrofolate reductase (DHFR) intended for local administration and devoid of systemic side-effects. The blocking of the enzymatic activity of DHFR is a key element in the treatment of many diseases, including cancer, bacterial and protozoal infections, and also opportunistic infections associated with AIDS (Pneumocystis carinii pneumonia, PCP). Recent research indicates that the enzyme also is involved in various autoimmune diseases, e.g., rheumatoid arthritis, inflammatory bowel diseases and psoriasis. Many useful antifolates have been developed to date although problems remain with toxicity and selectivity, e.g., the well-established, classical antifolate methotrexate exerts a high activity but also high toxicity. The new antifolates described herein were designed to retain the pharmacophore of methotrexate, but encompassing an ester group, so that they also would serve as substrates for the endogenous hydrolytic enzymes, e.g., esterases. Such antifolates would optimally comprise good examples of soft drugs because they in a controlled fashion would be rapidly and predictably metabolized to non-toxic metabolites after having exerted their biological effect at the site of administration. A preliminary screening of a large series of simpler aromatic esters as model compounds in a biological assay consisting of esterases from different sources was performed. The structural features of the least reactive ester were substituted for the methyleneamino bridge in methotrexate to produce analogues that were chemically stable but potential substrates for DHFR as well as for the esterases. The new inhibitor showed desirable activity towards rat liver DHFR, being only eight times less potent then methotrexate. Furthermore, the derived metabolites were found to be poor substrates for the same enzyme. The new compound showed good activity in a mice colitis model in vivo, but a pharmacokinetic study revealed that the half-life of the new compound was similar to methotrexate. A series of compounds characterized by a high lipophilicity and thus expected to provide better esterase substrates were designed and synthesized. One of these analogues in which three methoxy groups were substituted for the glutamic residue of methotrexate exhibited favorable pharmacokinetics. This compound is structurally similar to another potent DHFR inhibitor, trimetrexate, used in the therapy of PCP (vide supra). The new inhibitor that undergoes a fast metabolism in vivo is suitable as a model to further investigate the soft drug concept. Pharmaceutical chemistry soft drug dihydrofolate reductase synthesis Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
19	Selectivity in Palladium- and Enzyme-Catalyzed Reactions : Focusing on Enhancement of Reactivity Nilsson, Peter January 2003 (has links) <p>Catalysis has a profound impact on all living species on the earth. Nature’s catalysts, the enzymes, have the ability to selectively promote a specific bio-chemical transformation, given the required substrate. As well as being highly selective, enzymes enhance the speed of these reactions, helping them to run at temperatures much lower than normally required, i.e. at body temperature. In comparison, reactions used in the production of new materials such as polymers, medicines, fragrances, petrochemicals, etc. are often catalyzed by transition metals. This thesis describes how the selectivity and activity of these catalysts can be influenced via two conceptually different methods: chelation control and microwave heating. The thesis primarily focuses on regio- and stereochemical aspects of the palladium-catalyzed arylation of olefins, i.e. the Heck reaction. Reaction rate enhancement of both palladium and enzyme (polymerase chain reaction [PCR]) catalysis by microwave heating is also discussed. </p><p>Novel chelation-controlled palladium-catalyzed multi- and asymmetric arylations of vinyl ethers were performed, resulting in tetra-substituted olefins as well as chiral quaternary carbon centers with excellent optical purity. In addition, a new synthetic route to diarylated ethanals, relying on a double chelation-controlled regioselective arylation followed by hydrolysis, has been discovered. High temperature conditions, using microwave heating, substantially reduce the reaction time for ligand-controlled asymmetric Heck arylations, while retaining levels of enantioselectivity in most cases. In addition, a potentially useful fast synthetic protocol for the employment of aryl boronic acids in oxidative Heck arylation was developed. Finally, microwave-assisted PCR was described for the first time; this method allows reductions in the run time of 50%.</p> Pharmaceutical chemistry Palladium Heck PCR Microwaves Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
20	Design and synthesis of HIV-1 protease inhibitors Alterman, Mathias January 2001 (has links) <p>Human Immunodeficiency Virus (HIV) is the causative agent of Acquired Immune Deficiency Syndrome (AIDS). The C<sub>2</sub>-symmetric HIV-1 protease is one of the prime targets for chemotherapy in the treatment of the HIV infection. Inhibition of HIV-1 protease leads to immature and non-infectious viral particles. Design and synthesis of a number of C<sub>2</sub>-symmetrical C-terminal duplicated HIV-1 protease inhibitors and subsequent biological evaluation is presented in this thesis.</p><p>A versatile three step synthetic route has been developed using a carbohydrate as an inexpensive chiral starting material thus allowing inhibitors with the desired stereochemistry to be obtained. By this efficient method a series of tailor-made P2/P2' modified inhibitors were synthesized, and these were evaluated on purified HIV-1 protease and in HIV-1 infected cell assays. Highly active HIV-1 protease inhibitors were identified among the tested compounds. Analyses of the X-ray crystal structures of two of the most active compounds, as complexes with the protease, guided the further design of P1/P1' elongated inhibitors. Substitutions in the para-position of the P1/P1' benzyl groups were promoted efficiently by microwave-irradiated of palladium-catalyzed reactions. Particular modifications in the P1/P1' region of the inhibitors resulted in a 40-fold increase of the anti-viral activity on HIV-1 infected cells. Furthermore, a fast, efficient, and general one-pot microwave enhanced synthesis protocol for transformations of organo-bromides to tetrazoles was developed and applied on the inhibitor scaffold. Attachment of linker molecules to the P1/P1' benzyl groups of one inhibitor was used to develop of sensitivity enhancer tools in surface plasmon resonance biosensor assays. These new assays enable the evaluation of low-molecular weight compounds as HIV-1 protease inhibitors.</p> Pharmaceutical chemistry HIV-1 Protease Inhibitors Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi

Search results