| 1. |
- Lagerlund, Olof
(författare)
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Design and Synthesis of Novel Glutamine Synthetase Inhibitors and Development of Palladium(0)-Catalyzed Aminocarbonylation
- 2009
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Tuberculosis (TB) is a major infectious disease, killing about 2 million people annually throughout the world. Today's TB treatment is a lengthy procedure involving a combination of antibiotics. No new TB drug has been introduced onto the market in the past 40 years, and the emergence of multi- and extensively drug-resistant TB calls for new drugs. Finding new drug targets is important and one such target is the Mycobacterium tuberculosis enzyme glutamine synthetase (GS), which catalyses the formation of glutamine from glutamic acid. In this work, novel GS inhibitors and new Pd(0)-catalyzed methods have been developed. A microwave-enhanced Pd(0)-catalyzed α-arylation reaction was developed using water as solvent, and a phenylglycine scaffold was identified using structure-based design. A series of α-arylated phenylglycine derivates was produced at moderate to good yields. Some of these were biologically evaluated against GS. A novel scaffold, 3-amino-imidazo[1,2-a]pyridine, was identified by high-throughput screening directed towards GS. This type of compound could be easily produced via a Ugi-type, microwave-promoted multi-component reaction in 20 min. The scaffold was investigated by changing one substituent at a time, and in an experimental design where 8 factors were varied in the same design. Several potent inhibitors were identified; amongst them the most potent inhibitor to date (IC50 = 0.38 µM). Two discrete structure-activity relationships were established, and one of the inhibitors was co-crystallized. The first general aminocarbonylation of aryl chlorides and the first aminocarbonylation of alkenyl phosphates were developed. Alkenyl chlorides, bromides and triflates were investigated in the same transformation utilizing Mo(CO)6 as a solid carbon monoxide source. Two different Pd(0)-based catalytic systems were developed. A wide variety of aryl chlorides and amines could be transformed into the corresponding amides with good yields. The alkenyl substrates produced low to good yields.
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| 2. |
- Nordqvist, Anneli, 1978-
(författare)
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Hit Identification and Hit Expansion in Antituberculosis Drug Discovery : Design and Synthesis of Glutamine Synthetase and 1-Deoxy-D-Xylulose-5-Phosphate Reductoisomerase Inhibitors
- 2011
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Since the discovery of Mycobacterium tuberculosis (Mtb) as the bacterial agent causing tuberculosis, the permanent eradication of this disease has proven challenging. Although a number of drugs exist for the treatment of tuberculosis, 1.7 million people still die every year from this infection. The current treatment regimen involves lengthy combination therapy with four different drugs in an effort to combat the development of resistance. However, multidrug-resistant and extensively drug-resistant strains are emerging in all parts of the world. Therefore, new drugs effective in the treatment of tuberculosis are much-needed. The work presented in this thesis was focused on the early stages of drug discovery by applying different hit identification and hit expansion strategies in the exploration of two new potential drug targets, glutamine synthetase (GS) and 1-deoxy-D-xylulose-5-phosphate reductoisomerase (DXR). A literature survey was first carried out to identify new Mtb GS inhibitors from compounds known to inhibit GS in other species. Three compounds, structurally unrelated to the typical amino acid derivatives of previously known GS inhibitors, were then discovered by virtual screening and found to be Mtb GS inhibitors, exhibiting activities in the millimolar range. Imidazo[1,2-a]pyridine analogues were also investigated as Mtb GS inhibitors. The chemical functionality, size requirements and position of the substituents in the imidazo[1,2-a]pyridine hit were investigated, and a chemical library was designed based on a focused hierarchical design of experiments approach. The X-ray structure of one of the inhibitors in complex with Mtb GS provided additional insight into the structure–activity relationships of this class of compounds. Finally, new α-arylated fosmidomycin analogues were synthesized as inhibitors of Mtb DXR, exhibiting IC50 values down to 0.8 µM. This work shows that a wide variety of aryl groups are tolerated by the enzyme. Cinnamaldehydes are important synthetic intermediates in the synthesis of fosmidomycin analogues. These were prepared by an oxidative Heck reaction from acrolein and various arylboronic acids. Electron-rich, electron-poor, heterocyclic and sterically hindered boronic acids could be employed, furnishing cinnamaldehydes in 43–92% yield.
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| 3. |
- Nurbo, Johanna, 1979-
(författare)
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Peptidomimetic Enzyme Inhibitors : Targeting M. tuberculosis Ribonucleotide Reductase and Hepatitis C Virus NS3 Protease
- 2010
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- This thesis focuses on the design and synthesis of inhibitors targeting Mycobacterium tuberculosis ribonucleotide reductase (RNR) and hepatitis C virus (HCV) NS3 protease; enzymes that have been identified as potential drug targets for the treatment of tuberculosis and hepatitis C, respectively. Small peptides have been recognized as inhibitors of these enzymes. However, the use of peptides as drugs is limited due to their unfavorable properties. These can be circumvented by the development of less peptidic molecules, often referred to as peptidomimetics. When this work was initiated, only a few inhibitors targeting M. tuberculosis RNR had been identified, whereas the HCV NS3 protease was an established drug target. Therefore, early peptidomimetic design strategies were applied to inhibitors of RNR while the NS3 protease inhibitors were subjected to modifications in a later stage of development. It has previously been shown that peptides derived from the C-terminus of the small subunit of M. tuberculosis RNR can compete for binding to the large subunit, and thus inhibit enzyme activity. To investigate the structural requirements of these inhibitors, different series of peptides were evaluated. First, peptides from an N-terminal truncation, an alanine scan and a designed library were synthesized and evaluated to examine the importance of the individual amino acid residues. Then, a set of N-terminally Fmoc-protected peptides was evaluated, and it was found that the N-terminal group improved the affinity of the peptides even when the length of the compounds was reduced. Furthermore, potential inhibitors of less peptidic character were generated by the introduction of a benzodiazepine-based scaffold. To further reduce the peptidic character and investigate the binding properties of HCV NS3 protease inhibitors, a series of tripeptides incorporating a β-amino acid was synthesized. Inhibition was evaluated and docking studies were performed to understand how the structural changes affected inhibitory potency. The results illustrated the importance of preserving the hydrogen bonding network and retaining electrostatic interactions in the oxyanion hole between inhibitor and protein.
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| 4. |
- Alogheli, Hiba
(författare)
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Computational Studies of Macrocycles and Molecular Modeling of Hepatitis C Virus NS3 Protease Inhibitors
- 2018
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Computational tools are utilized in the drug discovery process to discover, design, and optimize new therapeutics. One important approach is structure-based drug design which relies on knowledge about the 3D structure of the biological target. The first part of this work focuses on applying structure-based drug design for binding mode prediction of HCV NS3 protease inhibitors. The NS3 protease is a challenging target from a computational perspective as it contains an extended binding site. Binding mode predictions were performed for various classes of new acyclic and macrocyclic HCV NS3 protease inhibitors and was used in the design of new inhibitors. None of the synthetized inhibitors have been co-crystallized yet, which has made the evaluation of the suggested binding mode predictions challenging.Macrocycles are an interesting compound class in drug discovery due to their unique structural architecture, which can enable access to new chemical space. Macrocycles can successfully modulate difficult therapeutic targets, as exemplified in the development of protease inhibitors. Furthermore they can improve drug-like properties, such as cell permeability and bioavailability. The second part of this thesis focuses on macrocycles from a computational point of view. A data set of 47 clinically relevant macrocycles was compiled and used in these studies. First, two different docking protocols rigid docking of pre-generated conformers and flexible docking in Glide were evaluated and compared. The results showed that flexible docking in Glide was sufficient for docking of macrocycles with respect to accuracy and speed.The aim of the second study was to evaluate and compare the performance of the more general conformational analysis tools, MCMM and MTLMOD, with the recently developed macrocycle-specialized conformational sampling tools, Prime-MCS and MMBS. In most cases, the general conformational analysis tools (with enhanced parameter settings) performed equally well as compared to the macrocycle-specialized conformational sampling techniques. However, MMBS was superior at locating the global energy minimum conformation.Finally, calculation of the conformational energy penalty of protein-bound macrocycles was performed. The macrocycle data set was complemented with linear analogues that are similar either with respect to physicochemical properties or 2D fingerprints. The conformational energy penalties of these linear analogues were calculated and compared to the conformational energy penalties of the macrocycles. The complete data set of macrocycles and non-macrocycles in this study differ from previously published work addressing conformational energy penalties, since it covers a more extended area of chemical space. Furthermore, there was a weak correlation between the calculated conformational energy penalties and the flexibility of the structures.
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| 5. |
- Andersson, Hanna, 1979-
(författare)
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Design and Synthesis of Angiotensin IV Peptidomimetics Targeting the Insulin-Regulated Aminopeptidase (IRAP)
- 2010
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Peptidomimetics derived from the bioactive hexapeptide angiotensin IV (Ang IV, Val1-Tyr2-Ile3-His4-Pro5-Phe6) have been designed and synthesized. These peptidomimetics are aimed at inhibiting the insulin-regulated amino peptidase (IRAP), also known as the AT4 receptor. This membrane-bound zinc-metallopeptidase is currently under investigation regarding its potential as a target for cognitive enhancers. The work presented herein was based on stepwise replacement of the amino acid residues in Ang IV by natural and unnatural amino acids, non-peptidic building blocks, and also on the introduction of conformational constraints. Initially, we focused on the introduction of secondary structure mimetics and backbone mimetics. The C-terminal tripeptide His-Pro-Phe was successfully replaced by a γ-turn mimetic scaffold, 2-(aminomethyl)phenylacetic acid (AMPA), which was coupled via an amide bond to the carboxyl terminus of Val-Tyr-Ile. Substitution of Val-Tyr-Ile, Val-Tyr, Tyr-Ile and Tyr, respectively, by 4-hydroxydiphenylmethane scaffolds comprising a 1,3,5-substituted benzene ring as a central moiety unfortunately rendered peptidomimetics that were less potent than Ang IV. The subsequent approach involved the introduction of conformational constraints into Val-Tyr-Ile-AMPA by replacing Val and Ile by amino acid residues appropriate for disulfide cyclization or ring-closing metathesis. Chemically diverse structures encompassing an N-terminal 13- or 14-membered macrocyclic tripeptide and a C-terminal non-peptidic moiety were developed. Tyr2 and AMPA were modified to acquire further knowledge about the structure-activity relationships and, in addition, to improve the metabolic stability and reduce the polarity. Several of the compounds displayed a high capacity to inhibit IRAP and exhibited Ki values in the low nanomolar range. Hence, the new compounds were more than ten times more potent than the parent peptide Ang IV. Enhanced selectivity over the closely related aminopeptidase N (AP-N) was achieved, as well as improved stability against proteolysis by metallopeptidases present in the assays. However, additional investigations are required to elucidate the bioactive conformation(s) of the relatively flexible N-terminal macrocycles. The compounds presented in this thesis have provided important information on structure-activity relationships regarding the interaction of Ang IV-related pseudopeptides and peptidomimetics with IRAP. The best compounds in the series constitute important starting points for further discovery of Ang IV peptidomimetics suitable as tools in the investigation of IRAP and other potential targets for Ang IV. The literature presents strong support for the hypothesis that drug-like IRAP inhibitors would serve as a new type of future cognitive enhancers with potential use in the treatment of cognitive disorders, e.g. Alzheimer’s disease.
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| 6. |
- Axelsson, Linda, 1977-
(författare)
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Development of HIV-1 Protease Inhibitors and Palladium-Catalyzed Synthesis of Aryl Ketones and N-Allylbenzamides
- 2014
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- The use of palladium-catalyzed reactions to introduce new carbon-carbon bonds is a fundamental synthetic strategy that has been widely embraced due to its high chemo- and regioselectivity and functional group tolerance. In this context, Pd(0)-catalyzed aminocarbonylations using Mo(CO)6 instead of toxic and gaseous CO and with allylamine as the nucleophile were investigated. The aminocarbonylated product dominated over the Mizoroki-Heck product, and (hetero)aryl iodides, bromides and chlorides gave N-allylbenzamides in good yields.In this thesis improvements to an existing protocol for the Pd(II)-catalyzed synthesis of aryl ketones from five benzoic acids and a variety of nitriles are also presented. Addition of TFA improved the yields and employing THF as solvent enabled the use of solid nitriles, and the aryl ketones were isolated in good yields.The pandemic of HIV infection is one of the greatest public health issues of our time and approximately 35.3 million people worldwide are living with HIV. There are currently many drugs on the market targeting various parts of the viral reproduction cycle, but the problems of resistance warrant the search for new drugs. HIV-1 protease makes the virus mature into infectious particles. In this thesis a new type of HIV-1 protease inhibitor (PI) is presented, based on two of the PIs on the market, atazanavir and indinavir, but it has a tertiary alcohol, as well as a two-carbon tether between the quaternary carbon and the hydrazide β-nitrogen. A total of 25 new inhibitors were designed, synthesized and biologically evaluated, the best compound had an EC50 value of 3 nM.Based on this series a project aimed at synthesizing macrocycles spanning the P1-P3 area was initiated. Macrocycles often tend to have an improved affinity and metabolic profile compared to their linear analogs. Introduction of a handle in the para position of the P1 benzyl group proved difficult, despite efforts to synthesize intermediates containing either a bromo-, hydroxy-, methoxy-, silyl-group protected hydroxy- or an alkyne-group. The lactone intermediate was abandoned in favor of an alternative synthetic route and initial studies were found to be promising. This new approach requires further investigation before the target macrocycles can be synthesized.
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| 7. |
- Benediktsdóttir, Andrea, 1990-
(författare)
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Design and synthesis of enzyme inhibitors against Gram-negative bacteria : Targeting protein secretion and lipid A biosynthesis
- 2024
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- The discovery and implementation of antibiotics for clinical use was unquestionably the greatest medical breakthrough of the 20th century. However, the widespread misuse and overuse of these antibiotics, has led to the rapid emergence and spread of antibiotic resistance. The 'ESKAPE' pathogens (Enterococcus faecium, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa, and Enterobacter species) represent a critical threat in multidrug-resistant infections. The Gram-negative species (such as E. coli, K. pneumoniae, P. aeruginosa, and A. baumannii) are especially difficult to combat due to their dual-membrane and efficient efflux pumps, which limit the efficacy of many antibiotics. Despite significant efforts, no new antibiotic class with a new mechanism of action has been approved for Gram-negative pathogens in over five decades. New chemical classes of antibacterial compounds targeting distinct mechanisms within Gram-negative bacteria are therefore urgently called for. The studies outlined in this thesis addresses these challenges by designing and synthesising new antibacterial compounds of three distinct chemical classes, which interact with two unrealized targets, LepB and LpxH, in Gram-negative bacteria, including E. coli and K. pneumoniae. This thesis investigates the effect of macrocyclization of type I signal peptidase (LepB) inhibitors by optimizing previously studied linear lipopeptide boronic acids and esters to address their cytotoxic and hemolytic liabilities while retaining activity. This resulted in the synthesis of first-in-class P2-P1' boronic ester-linked macrocycles with modest improvement of cytotoxicity but at the cost of reduced antibacterial activity (paper I). In another optimization attempt, isosteric modification of LepB inhibitors was explored by introducing the sulfonimidamide motif into oligopeptide boronic esters, displaying potent LepB inhibitors. Prior to the synthesis of these pseudopeptides novel methods were developed to introduce sulfonimidamides into peptides on solid-phase (paper II and paper III). These studies demonstrated the potential of sulfonimidamides to alter the drug properties and which was herein compared to a corresponding sulfonamide. Additionally, the thesis describes how a new series of LpxH inhibitors, meta-sulfonamidobenzamide-based sulfonyl piperazine derivatives, were identified and prepared. This resulted in inhibitors with wild-type activity without causing hemolysis, cell toxicity or inhibition of hERG ion channel (paper IV). In summary, strategies suitable for the synthesis and optimization of new antibacterial compounds targeting two distinct Gram-negative bacterial targets, LepB and LpxH, are described in this thesis. While there was no success in separating toxicity from antibacterial activity of the LepB inhibitors, these results highlight the challenge in this task and contribute to a better understanding of the structure-activity and toxicity relationships of such inhibitors and provide strategies that could be of use in antibacterial drug discovery. The identification of the meta-sulfonamidobenzamide derivatives offer promising LpxH-targeting hits with the potential for further development in future hit-to-lead antibacterial programs.
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| 8. |
- Svensson, Fredrik, 1987-
(författare)
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Computational Methods in Medicinal Chemistry : Mechanistic Investigations and Virtual Screening Development
- 2015
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Computational methods have become an integral part of drug development and can help bring new and better drugs to the market faster. The process of predicting the biological activity of large compound collections is known as virtual screening, and has been instrumental in the development of several drugs today in the market. Computational methods can also be used to elucidate the energies associated with chemical reactivity and predict how to improve a synthetic protocol. These two applications of computational medicinal chemistry is the focus of this thesis.In the first part of this work, quantum mechanics has been used to probe the energy surface of palladium(II)-catalyzed decarboxylative reactions in order to gain a better understating of these systems (paper I-III). These studies have mapped the reaction pathways and been able to make accurate predictions that were verified experimentally.The other focus of this work has been to develop virtual screening methodology. Our first study in the area (paper IV) investigated if the results from several virtual screening methods could be combined using data fusion techniques in order to get a more consistent result and better performance. The study showed that the results obtained from data fusion were more consistent than the results from any single method. The data fusion methods also for several target had a better performance than any of the included single methods.Next, we developed a dataset suitable for evaluating the performance of virtual screening methods when applied to large compound collection as a replacement or complement for high throughput screening (paper V). This is the first benchmark dataset of its kind.Finally, a method for using computationally derived reaction coordinates as basis for virtual screening was developed. The aim was to find inhibitors that resemble key steps in the mechanism (paper VI). This initial proof of concept study managed to locate several known and one previously not reported reaction mimetics against insulin regulated amino peptidase.
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| 9. |
- Wallinder, Charlotta, 1976-
(författare)
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Design, Synthesis and Biological Evaluation of Selective Nonpeptide AT2 Receptor Agonists and Antagonists
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- The G protein-coupled receptors (GPCRs) are important targets in drug discovery. In several cases, the endogenous ligands that activate the GPCRs of pharmaceutical interest are peptides. Unfortunately, peptides are in general not suitable as drugs, since the peptide structure is associated with several disadvantages, such as low oral bioavailability, rapid degradation and low receptor subtype selectivity. Thus, there is a strong need for drug-like nonpeptide ligands to peptide-activated GPCRs. However, to discover nonpeptide ligands that mimic the effect of the endogenous peptide, i.e. peptidomimetics, is a tremendous challenge. In fact, morphine and the related opioids were the only known examples of peptidomimetics before 1995 and these ligands were known long before the native endogenous peptide ligands were discovered. The main objective of the work described in this thesis was to design, synthesize and biologically evaluate selective nonpeptide agonists to the peptide-activated GPCR AT2. The AT2 receptor belongs to the renin–angiotensin system, where the octapeptide angiotensin II (Ang II) is the major effector peptide. Ang II mediates its effects through the two GPCRs AT1 and AT2. The AT1 receptor is already an established target in the treatment of hypertension. The physiological role of the AT2 receptor, which is up-regulated in certain pathological conditions, is not fully understood but it seems to include positive effects such as vasodilatation, tissue repair, tissue regeneration and neuronal differentiation. In the current investigation we started from the nonpeptide and nonselective (AT1/ AT2) compound L-162,313. This ligand is a known AT1 receptor agonist but its effect on the AT2 receptor was unknown at the start of this project. We were able to show that it acts as an agonist also at the AT2 receptor. Furthermore, stepwise synthetic modifications of L-162,313 led to the identification of the first selective nonpeptide AT2 receptor agonist. Following the discovery of this compound several selective nonpeptide AT2 receptor agonists were identified. It was also revealed that a minor structural alteration of one of these compounds interconverted the functional activity from agonism to antagonism. The structural requirement for agonism vs antagonism was therefore studied. The functionality switch was suggested, at least partly, to be due to the spatial relationship between the methyleneimidazole group and the isobutyl side chain of the compounds. To further investigate the bioactive conformation(s) of this series of compounds enantiomerically pure analogues with conformationally constrained isobutyl chains were prepared. This study revealed that the direction of the isobutyl side chain determine whether the compounds act as agonists or antagonists at the AT2 receptor. Further investigations are required to fully elucidate the bioactive conformation(s) of these nonpeptide AT2 receptor agonists.We believe that the selective nonpeptide AT2 receptor agonists and antagonists identified in this thesis will serve as important research tools in the continuing investigation of the physiological role of the AT2 receptor. We also believe that these drug-like compounds might provide potential leads in drug discovery processes.
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| 10. |
- Ax, Anna, 1975-
(författare)
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Cyclic Sulfamide HIV-1 Protease Inhibitors : Design, Synthesis and Modelling
- 2005
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Ten years ago, the first protease inhibitor targeting the human immunodeficiency virus (HIV) was approved for clinical use. Highly active antiretroviral therapy (HAART), which combined protease and reverse transcriptase inhibitors, quickly became the standard therapy for treating patients infected with HIV and Acquired Immune Deficiency Syndrome (AIDS). Nevertheless, last year the AIDS pandemic reached its highest level ever. Many infected patients, mainly in the developing countries, are still without treatment. Among those patients who receive treatment, an increase in drug resistance and new-infection with drug-resistant strains are seen. To come to terms with these problems, new drugs that are efficient against resistant strains and can be produced at low cost are needed.In this study, we have focused our research efforts on cyclic sulfamides active as HIV-1 protease inhibitors. Distinctive to this compound class, as compared to the inhibitors so far approved for clinical use, was the incorporation of a water mimic that displaces the structural water (W301) observed in the X-ray crystal co-complexes. The first part of the study was aimed at understanding the rationale behind the nonsymmetric binding mode that the inhibitor adopted when bound to the enzyme. Symmetric and nonsymmetric inhibitors were synthesized and the structure-activity relationships and preferable binding modes were rationalized with the help of Comparative Molecular Field Analysis (CoMFA).In the second part of the study, an attempt was made to reduce the size of these inhibitors. As a result, the traditional P1/P1' substituents were removed, while the P2/P2' substituents were elongated in an attempt to reach between the binding sites. The design hypothesis was shown to be successful and inhibitors possessing nanomolar activity were identified.
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| 11. |
- Jacobsson, Micael, 1975-
(författare)
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Structure-Based Virtual Screening : New Methods and Applications in Infectious Diseases
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- A drug discovery project typically starts with a pharmacological hypothesis: that the modulation of a specific molecular biological mechanism would be beneficial in the treatment of the targeted disease. In a small-molecule project, the next step is to identify hits, i.e. molecules that can effect this modulation. These hits are subsequently expanded into hit series, which are optimised with respect to pharmacodynamic and pharmacokinetic properties, through medicinal chemistry. Finally, a drug candidate is clinically developed into a new drug. This thesis concerns the use of structure-based virtual screening in the hit identification phase of drug discovery.Structure-based virtual screening involves using the known 3D structure of a target protein to predict binders, through the process of docking and scoring. Docking is the prediction of potential binding poses, and scoring is the prediction of the free energy of binding from those poses. Two new methodologies, based on post-processing of scoring results, were developed and evaluated using model systems. Both methods significantly increased the enrichment of true positives. Furthermore, correlation was observed between scores and simple molecular properties, and identified as a source of false positives in structure-based virtual screening.Two target proteins, Mycobacterium tuberculosis ribose-5-phosphate isomerase, a potential drug target in tuberculosis, and Plasmodium falciparum spermidine synthase, a potential drug target in malaria, were subjected to docking and virtual screening. Docking of substrates and products of ribose-5-phosphate isomerase led to hypotheses on the role of individual residues in the active site. Additionally, virtual screening was used to predict 48 potential inhibitors, but none was confirmed as an inhibitor or binder to the target enzyme. For spermidine synthase, structure-based virtual screening was used to predict 32 potential active-site binders. Seven of these were confirmed to bind in the active site.
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| 12. |
- Lindström, Anton, 1976-
(författare)
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A multivariate approach to characterization of drug-like molecules, proteins and the interactions between them
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- En sjukdom kan många gånger härledas till en kaskadereaktion mellan proteiner, co-faktorer och substrat. Denna kaskadreaktion blir många gånger målet för att behandla sjukdomen med läkemedel. För att designa nya läkemedelsmoleyler används vanligen datorbaserade verktyg. Denna design av läkemedelsmolekyler drar stor nytta av att målproteinet är känt och då framförallt dess tredimensionella (3D) struktur. Är 3D-strukturen känd kan man utföra så kallad struktur- och datorbaserad molekyldesign, 3D-geometrin (f.f.a. för inbindningsplatsen) blir en vägledning för designen av en ny molekyl. Många faktorer avgör interaktionen mellan en molekyl och bindningsplatsen, till exempel fysikalisk-kemiska egenskaper hos molekylen och bindningsplatsen, flexibiliteten i molekylen och målproteinet, och det omgivande lösningsmedlet. För att strukturbaserad molekyldesign ska fungera väl måste två viktiga steg utföras: i) 3D anpassning av molekyler till bindningsplatsen i ett målprotein (s.k. dockning) och ii) prediktion av molekylers affinitet för bindningsplatsen. Huvudsyftena med arbetet i denna avhandling var som följer: i) skapa modeler för att prediktera affiniteten mellan en molekyl och bindningsplatsen i ett målprotein; ii) förfina molekyl-protein-geometrin som skapas vid 3D-anpassning mellan en molekyl och bindningsplatsen i ett målprotein (s.k. dockning); iii) karaktärisera proteiner och framför allt deras sekundärstruktur; iv) bedöma effekten av olika matematiska beskrivningar av lösningsmedlet för förfining av 3D molekyl-protein-geometrin skapad vid dockning och prediktion av molekylers affinitet för proteiners bindningsfickor. Ett övergripande syfte var att använda kemometriska metoder för modellering och dataanalys på de ovan nämnda punkterna. För att sammanfatta så presenterar denna avhandling metoder och resultat som är användbara för strukturbaserad molekyldesign. De rapporterade resultaten visar att det är möjligt att skapa kemometriska modeler för prediktion av molekylers affinitet för bindningsplatsen i ett protein och att dessa presterade lika bra som andra vanliga metoder. Dessutom kunde kemometriska modeller skapas för att beskriva effekten av hur inställningarna för olika parametrar i dockningsprogram påverkade den 3D molekyl-protein-geometrin som dockingsprogram skapade. Vidare kunde kemometriska modeller andvändas för att öka förståelsen för deskriptorer som beskrev sekundärstrukturen i proteiner. Förfining av molekyl-protein-geometrin skapad genom dockning gav liknande och ickesignifikanta resultat oberoende av vilken matematisk modell för lösningsmedlet som användes, förutom för ett fåtal (sex av 30) fall. Däremot visade det sig att användandet av en förfinad geometri var värdefullt för prediktion av molekylers affinitet för bindningsplatsen i ett protein. Förbättringen av prediktion av affintitet var markant då en Poisson-Boltzmann beskrivning av lösningsmedlet användes; jämfört med prediktionerna gjorda med ett dockningsprogram förbättrades korrelationen mellan beräknad affintiet och uppmätt affinitet med 0,7 (R2).
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| 13. |
- Söderström, Marcus, 1992-
(författare)
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C1 Building Blocks: New Approaches for Thiomethylations and Esterification
- 2023
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- The thioether motif is found in numerous pharmaceuticals. The simplest form of this motif, the methyl-thioether is similarly found in many biologically active compounds and has exhibited many advantageous properties. The installation of the thiomethyl moiety can be troublesome due to the toxicity and malodor of small sulfur reagents. To avoid these issues, many alternative sources and methods have been developed, although these often require metal catalysis, or operate via electrophilic species as the sulfur source.The first section of this thesis covers the discovery and development of BF3SMe2 as a Lewis acid and non-malodorous source for nucleophilic installation of the thiomethyl moiety. In paper I, this reagent is leveraged for the Lewis acid activation and the nucleophilic thiomethylation of electron-deficient haloarenes. The reagent was also found to be a selective reductant for nitropyridines and could in some instances perform concomitant thiomethylation via C-H substitution. The nucleophilic installation of the thiomethyl moiety was continued in paper II, where BF3SMe2 was developed for the conversion of aromatic aldehydes into methyl-dithioacetals. The dithioacetal is an important protecting group, and a useful intermediate, and since there are only a handful of reported strategies for the synthesis of the methyl-analog, this method represents an important addition to existing methods. In addition, BF3SMe2 was able to promote Friedel-Crafts reactions between aldehydes and electron-rich arenes, resulting in unsymmetrical, thiomethylated diarylmethanes. In the final part of this section, BF3SMe2 was used for the activation of trifluoromethylarenes for defluorination and sulfur incorporation, resulting in the methyl-dithioester moiety. This functional group is a useful intermediate, but current methodology for its synthesis suffers from several drawbacks, including multistep reactions. The method developed in paper III is a convenient one-step approach to reach the methyl-dithioester, and was also expanded to one-pot synthesis of thioamides and different heterocyclic systems starting from the trifluoromethyl moiety.In the second section of this thesis, an in situ method for diazomethane release and consumption was investigated and applied. Diazomethane is a useful reagent with a unique reactivity profile, including mild and selective O-methylation of carboxylic acids. The reactivity of this gaseous reagent however comes with hazards, such as high toxicity. Therefore, earlier efforts have been made for in situ generation of diazomethane, although with limitations such as specific solvent requirements or alkaline conditions. The method developed in paper IV however is an improvement upon these with base-free conditions, and wide solvent compatibility, and was successfully applied to the methylation of carboxylic acids, solvent-mediated deuterium labeling without any a priori deuterium incorporation, and synthesis of diazoketones.
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| 14. |
- Erdélyi, Máté, 1975-
(författare)
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Towards the Development of Photoswitchable β-Hairpin Mimetics
- 2004
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Peptide secondary structure mimetics are important tools in medicinal chemistry, as they provide analogues of endogeneous peptides with new physicochemical and pharmacological properties. The β-hairpin motif has been shown to be involved in numerous physiological processes, among others in regulation of eucariotic gene transcription. This thesis addresses the design, synthesis and conformational analysis of photoswitchable β-hairpin mimetics.The developmental work included the establishment of an improved procedure for cross coupling of aryl halides with terminal alkynes. Microwave mediated Sonogashira couplings in closed vessels were optimized under homogeneous and solid-phase conditions furnishing excellent yields for a large variety of substrates within 5 – 25 minutes. In addition, microwave heating was shown not to have any non-conventional effect on the reaction rate.Furthermore, the most important factors affecting β-hairpin stability were evaluated. Studies of tetrapeptide and decapeptide analogues revealed the essential role of the β-turn in initiation of hairpin folding. Moreover, hydrogen bonding was shown to be the main interchain stabilizing force, whereas hydrophobic interactions were found to be relatively weak. Nevertheless, hydrophobic packing appears to provide an important contribution to the thermodynamic stability of β-hairpins.Photoswitchable peptidomimetics were prepared by incorporation of various stilbene moieties into tetra- and decapeptides. Synthesis, photochemical isomerisation and spectroscopic conformational analysis of the compounds were performed.
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| 15. |
- Gising, Johan, 1981-
(författare)
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Design and Synthesis of Enzyme Inhibitors Against Infectious Diseases : Targeting Hepatitis C Virus NS3 Protease and Mycobacterium tuberculosis Ribonucleotide Reductase
- 2012
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Infectious diseases, including hepatitis C and tuberculosis, claim the lives of over 15 million people each year. Hepatitis C is caused by the hepatitis C virus (HCV) which infects the liver and can ultimately result in liver transplantation. HCV is very adaptive as a result of its high mutation rate. Thus, there is a potential high risk for the development of drug resistance and also a possible cross-resistance due to a structural similarity between many of the HCV NS3 protease inhibitors currently in clinical trial and on the market, that all are based on a P2-proline or a proline mimic. Thus, part of the research behind this thesis was to explore a new structural P3-P2 unit for the NS3 protease inhibitors, a 2(1H)-pyrazinone moiety. A microwave-assisted protocol was developed, and the 2(1H)-pyrazinone core was synthesized in only 2 × 10 min. A series of optimization steps resulted in several submicromolar 2(1H)-pyrazinone-containing NS3 protease inhibitors that performed well against drug-resistant NS3 protease variants. The key modifications were: exchanging the unstable carbamate P3 capping group for a stable urea functionality, transferring the P2 group from the amino acid residue to the pyrazinone ring and elongating the substituent, and using an aromatic acyl sulfonamide in the P1-P1' position.The causative agent of tuberculosis is Mycobacterium tuberculosis (Mtb), which currently infects one third of the world's population. No new TB drugs have been approved in nearly 50 years and drug resistance has been observed for all of the current first-line drugs. Because of the importance of identifying novel drug targets, the ribonucleotide reductase (RNR) enzyme was investigated. The RNR enzyme consists of two R1 and two R2 subunits and is essential for Mtb replication. Starting from hits identified in a virtual screening program, a small library of low molecular weight inhibitors of the association between the R1 and R2 subunits was designed and synthesized. The compounds with the strongest affinity for the R1 subunit of RNR were further evaluated in an orthogonal activity assay. Two RNR inhibitors with promising antimycobacterial effects were identified, which can serve as leads in the further optimization of this class of compounds.
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| 16. |
- Lindh, Martin, 1981-
(författare)
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Computational Modelling in Drug Discovery : Application of Structure-Based Drug Design, Conformal Prediction and Evaluation of Virtual Screening
- 2017
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Structure-based drug design and virtual screening are areas of computational medicinal chemistry that use 3D models of target proteins. It is important to develop better methods in this field with the aim of increasing the speed and quality of early stage drug discovery.The first part of this thesis focuses on the application of structure-based drug design in the search for inhibitors for the protein 1-deoxy-D-xylulose-5-phosphate reductoisomerase (DXR), one of the enzymes in the DOXP/MEP synthetic pathway. This pathway is found in many bacteria (such as Mycobacterium tuberculosis) and in the parasite Plasmodium falciparum.In order to evaluate and improve current virtual screening methods, a benchmarking data set was constructed using publically available high-throughput screening data. The exercise highlighted a number of problems with current data sets as well as with the use of publically available high-throughput screening data. We hope this work will help guide further development of well designed benchmarking data sets for virtual screening methods.Conformal prediction is a new method in the computer-aided drug design toolbox that gives the prediction range at a specified level of confidence for each compound. To demonstrate the versatility and applicability of this method we derived models of skin permeability using two different machine learning methods; random forest and support vector machines.
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| 17. |
- Åkerbladh, Linda
(författare)
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Palladium(0)-Catalysed Carbonylative Multicomponent Reactions : Synthesis of Heterocycles and the Application of Quinolinyl Pyrimidines as Enzyme Inhibitors
- 2017
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Palladium-catalysed carbonylative multicomponent reactions have proven useful for the synthesis of structurally diverse compounds. Carbon monoxide serves as an atom-efficient, one-carbon building block, which allows for further structural elaboration of the carbonyl compound. By varying the components of the carbonylative multicomponent reaction, considerable product diversity can readily be attained. However, due to the reluctance to use toxic CO gas, considerable efforts have been directed at exploring non-gaseous approaches. The work described in this thesis has mainly focused on the development of palladium(0)-catalysed, carbonylative multicomponent synthetic methodology, using the non-gaseous CO source molybdenum hexacarbonyl, in the synthesis of heterocycles and other biologically relevant functional groups.The first part of this work describes the development of a non-gaseous carbonylative Sonogashira cross-coupling of bifunctional ortho-iodoanilines and terminal alkynes. Where 4-quinolones were synthesised via a carbonylation/cyclisation sequence. Using a similar synthetic strategy, three different N-cyanobenzamide intermediates were prepared by palladium-catalysed carbonylative couplings of various aryl halides and bromides and cyanamide. The formed intermediates provided a basis for further chemical transformations. First, ortho-iodoanilines were carbonylatively coupled with cyanamide and subsequently cyclised to yield heterocyclic 2-aminoquinazolinones. Next, building on those findings, the same synthetic strategy was applied to ortho-halophenols to provide a highly convenient domino carbonylation/cyclisation method for the preparation of benzoxazinones. The developed method was used to evaluate the efficiency of various non-gaseous CO sources. Third, the palladium-catalysed carbonylative synthesis of N-cyanobenzamides, was used to produce biologically relevant N-acylguanidines with considerable product diversity. Finally, one of the developed carbonylative methodologies was used in the preparation of potential NDH-2 inhibitors based on a quinolinyl pyrimidine scaffold. The prepared compounds were biologically evaluated in terms of inhibition of oxidoreductase NDH-2 and antibacterial activity on Gram-negative bacteria, S. aureus and Mtb. The biological evaluation revealed that some of the quinolinyl pyrimidines exerted inhibitory activity on the NDH-2 enzyme and possessed antibacterial properties.The work described in this thesis has been devoted to the development of non-gaseous one-pot, multicomponent carbonylation/cyclisation and carbonylation/amination reactions. The described methods offer highly attractive synthetic strategies that can be of great value to synthetic and medicinal chemists.
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