Global ETD Search

21	Methods for Preclinical Evaluation of Cytotoxic Drugs : With Special Reference to the Cyanoguanidine CHS 828 and Hollow Fiber Method Hassan, Saadia Bashir January 2004 (has links) The novel cyanoguanidine CHS 828 has shown promising antitumor activity in many in vitro and in vivo studies. The long-term 14 days in vitro hollow fiber cultures, where tumor cells from different tumor cell lines were cultured inside semipermeable fibers, were more resistant to CHS 828 and other cytotoxic drugs than the shorter-term 3 days cultures. CHS 828 was generally more effective against haematological than solid tumor cells from both cell lines and patients samples. In vivo, the hollow fibers were implanted into immunocompetent rats and the pharmacokinetics, tumor response and/or toxicity (pharmacodynamics) of CHS 828 were successfully assayed. CHS 828 showed higher activity in this model when a more protracted schedule was used. The quantitative relationships between dose, plasma concentration and response (PK/PD model) developed for CHS 828 explained this phenomenon partly by dose-dependent fraction absorbed and partly by a schedule-dependent pharmacodynamic effect. Modelling of the in vitro CHS 828 and standard cytotoxic drugs concentration-time effect data in different tumor cell types and characterization of pattern of change of the potency and the slope of the concentration-time effect curves were performed. The results suggest two different mechanisms of action for CHS 828 and that CHS 828 cytotoxicity may depend on the schedule used. The NF-kB pathway that regulates the transcription of anti-apoptotic genes proved to be inhibited by CHS 828 in different tumor cell lines and the inhibition was correlated to the cell death induced by this agent. CHS 828 did not seem to induce the NF-kB inhibition by affecting the proteasome activity. The in vitro and in vivo hollow fiber methods were also used successfully to evaluate the new paclitaxel formulation, Pacliex. Pacliex had a similar activity to that of the clinically used formulation Taxol®. Pharmacology CHS 828 in vitro in vivo hollow fiber models NF-kB Farmakologi Pharmacological research Farmakologisk forskning
22	Ribosome Associated Factors Recruited for Protein Export and Folding Raine, Amanda January 2005 (has links) Protein folding and export to the membrane are crucial events in the cell. Both processes may be initiated already at the ribosome, assisted by factors that bind to the polypeptide as it emerges from the ribosome. The signal recognition particle (SRP) scans the ribosome for nascent peptides destined for membrane insertion and targets these ribosomes to the site for translocation in the membrane. Trigger factor (TF) is a folding chaperone that interacts with nascent chains to promote their correct folding, prevent misfolding and aggregation. In this thesis, we first investigated membrane targeting and insertion of two heterologous membrane proteins in E. coli by using in vitro translation, membrane targeting and cross-linking. We found that these proteins are dependent on SRP for targeting and that they initially interact with translocon components in the same way as native nascent membrane proteins. Moreover we have characterised the SRP and TF interactions with the ribosome both with cross-linking experiments and with quantitative binding experiments. Both SRP and TF bind to ribosomal L23 close to the nascent peptide exit site where they are strategically placed for binding to the nascent polypeptide. Quantitative analysis of TF and SRP binding determined their respective KD values for binding to non translating ribosomes and reveals that they bind simultaneously to the ribosome, thus having separate binding sites on L23. Finally, binding studies on ribosome nascent chain adds clues as to how TF functions as a chaperone. Pharmacology Signal recognition particle trigger factor ribosomes protein folding membrane targeting Farmakologi Pharmacological research Farmakologisk forskning
23	Hazards of Drug Therapy : On the Management of Adverse Drug Reactions: From Signal Detection and Evaluation to Risk Minimization Hedenmalm, Karin January 2005 (has links) Spontaneous reporting systems (SRSs) for adverse drug reactions (ADRs) have been developed as a result of the thalidomide disaster, whereby thousands of children world-wide were born with birth defects. The Swedish Adverse Drug Reactions Advisory Committee was established in 1965. Since 1975, reporting has been compulsory for all suspected serious or new ADRs. International collaboration started in 1968 with countries contributing their ADR reports to an international database set up by the World Health Organization. ADRs represent the negative side of the benefit-to-risk balance that in theory needs to be counteracted by perceived or established positive drug effects. All drugs are subject to preclinical and clinical testing prior to marketing authorization. However, these studies are insufficient to detect rare ADRs, ADRs that occur after long-term administration or with latency, ADRs that occur in special patient groups such as children, the elderly, patients with renal or hepatic insufficiency or patients on concomitant drug treatment, and ADRs that represent a modest increase in the risk of diseases (including mortality) that are prevalent in the study population. Postmarketing surveillance of drugs is therefore essential, and regulatory action may be needed on the basis of new ADR information. SRSs are important sources of ADR information as exemplified here by the evaluation of peripheral sensory disturbances with fluoroquinolones, hyponatremia with antidepressants, blood dyscrasias with dipyrone, glucose intolerance with atypical antipsychotics, pulmonary embolism with combined oral contraceptives and extrapyramidal symptoms with selective serotonin reuptake inhibitors. SRSs can be used to study clinical manifestations of ADRs (that can give insights into potential ADR mechanisms), risk factors for the ADR or for specific outcomes of the ADR, and ADR reporting incidences when combined with sales data. Signals from SRSs may need to be studied further e.g., by use of large-scale epidemiologic studies based on record linkage between drug prescription databases and health databases. Owing to the rapid availability of information, however, SRSs are likely to remain of major importance for the post-marketing surveillance of drugs. Pharmacology adverse drug reactions spontaneous reporting systems drug regulation pharmacovigilance incidence Farmakologi Pharmacological research Farmakologisk forskning
24	Pharmacology of Palmitoylethanolamide and Related Compounds Jonsson, Kent-Olov January 2005 (has links) Anandamide (AEA) is an endogenous fatty acid which activates the same cannabinoid receptors as ∆9-tetrahydrocannabinol, the psychoactive substance in marijuana. In vivo, anandamide exerts a number of actions including effects upon pain and inflammation. However, AEA has a short duration of action since it is rapidly metabolised, primarily by the intracellular enzyme fatty acid amide hydrolase (FAAH). The general aim of this thesis has been to identify and characterize compounds capable of preventing the metabolism of anandamide. The chemical approach was based on the endogenous anti-inflammatory compound palmitoylethanolamide (PEA), a compound related to anandamide with the ability to inhibit anandamide degradation by substrate competition, but without the ability to directly activate cannabinoid receptors. A number of compounds were identified as inhibitors of rat brain FAAH in the initial in vitro studies, without having major affinity for the cannabinoid receptors. In particular, palmitoylisopropylamide (PIA) was found to reduce the metabolism of AEA in intact C6 glioma cells with potency similar to the prototypical AEA reuptake inhibitor AM404. This compound was in addition found to exert less effect upon C6 glioma cell proliferation than either AM404 or the closely related uptake inhibitor VDM11. To evaluate if PIA was effective in vivo, a model of mast cell dependent inflammation, oedema of the ear following local injection of compound 48/80, was set up using anaesthetised mice. Initially, a CB2 cannabinoid receptor selective agonist was used to probe the model and demonstrated to produce an anti-oedema effect. In contrast, the compound was inactive in vitro in skin slice preparations. PIA showed a similar pattern, although there was a large variation in responses which affected the significance of the result obtained, as did the vehicle used to dissolve the compound. Taken together, the present data would suggest that PIA can inhibit the degradation of AEA without having deleterious effects upon cell proliferation or affinity for the cannabinoid receptors. Further experimentation is necessary to elucidate the usefulness of this compound in vivo. Pharmacology anandamide cannabinoid FAAH palmitoylethanolamide palmitoylisopropylamide inflammation mast cells Farmakologi Pharmacological research Farmakologisk forskning
25	Fatty acid amide hydrolase - A target for anti-inflammatory therapies? / Fettsyraamidohydrolas - Ett mål för antiinflammatoriska läkemedel? Holt, Sandra January 2005 (has links) Anti-inflammatory drugs are a widely used class of therapeutic agents, but the use of non-steroidal anti-inflammatory drugs (NSAID) is hampered by their gastrointestinal side-effects. Recent reports that cyclooxygenase-2 inhibitors may cause cardiovascular events underline the importance of identifying new therapeutic strategies for the treatment of inflammation. One such target could be agents modifying the endogenous cannabinoid (endocannabinoid) system, since there is evidence that this system plays a role in our natural defence against inflammation. The levels of the endocannabinoid anandamide (arachidonoyl ethanolamide, AEA) are low under normal conditions, and stand under strict regulatory control of synthesising and degrading enzymes. Fatty acid amide hydrolase (FAAH) is the main enzyme degrading AEA, hydrolysing it to ethanolamine and arachidonic acid. The focus of this thesis lies in exploring the pharmacology of FAAH to evaluate its possibilities as a target for new anti-inflammatory drugs. In Papers I and II, the effects of the ambient pH on the properties of FAAH were investigated, since tissue pH is known to decrease under inflammatory conditions. In homogenates, it was found that the activity of FAAH decreased as the assay pH was decreased, consistent with the known pH profile of the enzyme. More importantly, the sensitivity of the enzyme to inhibition by FAAH inhibitors changed. In particular, the sensitivity of the enzyme to inhibition by the NSAID ibuprofen increased seventeen-fold as the assay pH decreased from 8.37 to 5.28. A similar pattern was found using intact C6 glioma cells when the extracellular, but not the intracellular pH was reduced. Thus, at an extracellular pH value of 6.2, (R)-ibuprofen, (S)-flurbiprofen and (R,S)-flurbiprofen inhibited the metabolism of AEA with IC50 values of 26, 14 and 15 µM, respectively. These values are in theory reachable upon normal dosing of the compounds. In Paper III, the effect of the selective FAAH inhibitor URB597 and the NSAID indomethacin were investigated in vivo upon the oedema response to carrageenan administration in the paw of anaesthetised mice. Both compounds reduced the oedema in a manner completely blocked by the CB2 receptor antagonist SR144528. In Paper IV, the effect of inflammation upon endocannabinoid synthesis was investigated in mice. Lipopolysaccharide-induced pulmonary inflammation was found not to affect the release of AEA to any obvious extent, and did not change the activities of the AEA synthesising enzymes N-acyl transferase or N-acyl phosphatidylethanolamine phospholipase D, or of FAAH in lung tissue. The results of this thesis would suggest that FAAH inhibitors can produce anti-inflammatory effects, and that the endocannabinoid system contributes to the actions of the NSAID indomethacin in the carrageenan model of inflammation, but that an increased endocannabinoid synthesis (a prerequisite for FAAH inhibition as a therapeutic strategy) is not an obligatory response to an inflammatory stimulus. Pharmacology FAAH anandamide endocannabinoid pH inflammation NSAID Farmakologi Pharmacological research Farmakologisk forskning
26	Classification, Evolution, Pharmacology and Structure of G protein-coupled Receptors Lagerström, Malin C January 2006 (has links) G protein-coupled receptors (GPCR) are integral membrane proteins with seven α-helices that translate a remarkable diversity of signals into cellular responses. The superfamily of GPCRs is among the largest and most diverse protein families in vertebrates. We have searched the human genome for GPCRs and show that the family includes approximately 800 proteins, which can divided into five main families; Glutamate, Rhodopsin, Adhesion, Frizzled/Taste2 and Secretin. This study represents one of the first overall road maps of the GPCR family in a mammalian genome. Moreover, we identified eight novel members of the human Adhesion family which are characterized by long N-termini with various domains. We also investigated the GPCR repertoire of the chicken genome, where we manually verified a total of 557 chicken GPCRs. We detected several specific expansions and deletions that may reflect some of the functional differences between human and chicken. Substantial effort has been made over the years to find compounds that can bind and activate the melanocortin 4 receptor (MC4R). This receptor is involved in food intake and is thus an important target for antiobesity drugs. We used site-directed mutagenesis to insert micromolar affinity binding sites for zinc between transmembrane (TM) regions 2 and 3. We generated a molecular model of the human MC4R which suggests that a rotation of TM3 is important for activation of the MC4R. Furthermore, we present seven new vertebrate prolactin releasing hormone receptors (PRLHRs) and show that they form two separate subtypes, PRLHR1 and PRLHR2. We performed a pharmacological characterization of the human PRLHR which showed that the receptor can bind neuropeptide Y (NPY) related ligands. We propose that an ancestral PRLH peptide has coevolved with a redundant NPY binding receptor, which then became PRLHR. This suggests how gene duplication events can lead to novel peptide ligand/receptor interactions and hence spur the evolution of new physiological functions. Pharmacology Classification Structure Pharmacology Evolution G protein-coupled receptor Farmakologi Pharmacological research Farmakologisk forskning
27	Substance P Endopeptidase : Purification and Characterizataion of Enzyme Activity and Evaluation of its Function during Stressful Condition Karlsson, Krister January 2004 (has links) <p>The purification and biochemical characterization of the substance P (SP) hydrolyzing enzyme, substance P endopeptidase (SPE), have been carried out; with subsequent orientation in neurobiological fundamental processes involved in opioid dependence, withdrawal, and heat-stress.</p><p>SPE was purified from rat spinal cord, human spinal cord and cerebrospinal fluid (CSF), rat ventral tegemental area (VTA), and rat hippocampus. The enzyme activity was found to release the biologically active fragments SP(1-7) and SP(1-8) as major products. The purified enzymes were characterized with regard to their biochemical and kinetic properties. The typical SPE is neither inhibited by phosphoramidon nor captopril nor phenylmethanesulfonylflourid (PMSF). In comparison to other known proteases SPE differed in characteristics regarding substrate specificity, inhibition-profile, cleavage pattern, and other kinetic parameters. The technically very delicate approach of micro purification of SPE from the rat ventral tegemental area (VTA) (this is a very small tissue), turned out to be possible with the ÄKTA™-purifier system. Studies revealed a crucial role of SPE in a series of clinically important neuropathological conditions, such as opioid tolerance, and withdrawal (SPE, increased); and heat-stress (SPE, increased). These findings emerged from assessment of enzyme activity in hypothalamus, nucleus accumbens (NAc) periaqueductal gray (PAG), pituitary, striatum, substantia nigra (SN), VTA, spinal cord. Viewing the role of SPE in morphine tolerance, it was possible to note regional differences with a decrease in PAG, and striatum, whereas an increase was seen in SN, and VTA. After heat-stress treatment, SPE was raised in several regions (cerebral cortex, hippocampus, diencephalon, cerebellum, spinal cord), and the most precise observation of this was located to the hippocampus structure.</p> Pharmacology Substance P Endopeptidase Neuropeptide Central Nervous System Purification Drug Dependence Heat Stress Farmakologi Pharmacological research Farmakologisk forskning
28	Cloning, Expression, Pharmacological Characterization and Anatomical Distribution of Melanocortin Receptors in an Evolutionary Perspective Ringholm, Aneta I. January 2004 (has links) <p>The melanocortin (MC) receptors are G-protein coupled receptors thatparticipate in several important physiological functions such as the regulation of the energy balance. This thesis focuses on the evolutionary aspect of the MC receptors and their pharmacology.</p><p>One MC4 receptor and two MC5 receptor subtypes were found in a teleost fish, zebrafish. This indicates that the MC receptor subtypes arose very early in vertebrate evolution. Important pharmacological and functional properties, as well as gene structure and syntenic relationships have been highly conserved over a period of more than 400 million years implying that these receptors participate in vital physiological functions. Moreover, we found a MC4 receptor from a shark, spiny dogfish that represents the most distant MC receptor gene cloned to date. We also characterized the pharmacology of a MC4 receptor in goldfish. The conserved central expression pattern and physiological role in regulation of food intake of the MC4 receptor suggests that neuronal pathways of the melanocortin system may be important for regulation of energy homeostasis in most vertebrates. We determined the chromosomal position of the chicken MC receptors genes and found conserved synteny of the MC2, MC5, and MC4 receptor genes. These results suggest that there exist a clustering of these genes that is ancient. Analysis of conserved synteny with mammalian genomes and paralogon segments prompted us to predict an ancestral gene organization that may explain how this family has been formed through both local duplication and tetraploidization processes.</p><p>There are several common point mutations in the human MC1 receptor that are over represented in North European red-heads, and in individuals with pale skin. We pharmacologically characterised four naturally occurring human MC1 receptor variants providing molecular explanation to the respective phenotype.</p><p>The MC receptor subtypes have highly diverse physiological functions despite having relative high similarities in their primary structure. Our studies on the structural and functional properties of the MC receptor subtypes have provided insight into the molecular mechanism of how the specification of these receptors may have occurred.</p> Pharmacology evolution melanocortin MSH pharmacology genome duplication tetraploidization zebrafish spiny dogfish chicken GPCR polymorphism pigmentation Farmakologi Pharmacological research Farmakologisk forskning
29	Substance P Endopeptidase : Purification and Characterizataion of Enzyme Activity and Evaluation of its Function during Stressful Condition Karlsson, Krister January 2004 (has links) The purification and biochemical characterization of the substance P (SP) hydrolyzing enzyme, substance P endopeptidase (SPE), have been carried out; with subsequent orientation in neurobiological fundamental processes involved in opioid dependence, withdrawal, and heat-stress. SPE was purified from rat spinal cord, human spinal cord and cerebrospinal fluid (CSF), rat ventral tegemental area (VTA), and rat hippocampus. The enzyme activity was found to release the biologically active fragments SP(1-7) and SP(1-8) as major products. The purified enzymes were characterized with regard to their biochemical and kinetic properties. The typical SPE is neither inhibited by phosphoramidon nor captopril nor phenylmethanesulfonylflourid (PMSF). In comparison to other known proteases SPE differed in characteristics regarding substrate specificity, inhibition-profile, cleavage pattern, and other kinetic parameters. The technically very delicate approach of micro purification of SPE from the rat ventral tegemental area (VTA) (this is a very small tissue), turned out to be possible with the ÄKTA™-purifier system. Studies revealed a crucial role of SPE in a series of clinically important neuropathological conditions, such as opioid tolerance, and withdrawal (SPE, increased); and heat-stress (SPE, increased). These findings emerged from assessment of enzyme activity in hypothalamus, nucleus accumbens (NAc) periaqueductal gray (PAG), pituitary, striatum, substantia nigra (SN), VTA, spinal cord. Viewing the role of SPE in morphine tolerance, it was possible to note regional differences with a decrease in PAG, and striatum, whereas an increase was seen in SN, and VTA. After heat-stress treatment, SPE was raised in several regions (cerebral cortex, hippocampus, diencephalon, cerebellum, spinal cord), and the most precise observation of this was located to the hippocampus structure. Pharmacology Substance P Endopeptidase Neuropeptide Central Nervous System Purification Drug Dependence Heat Stress Farmakologi Pharmacological research Farmakologisk forskning
30	Cloning, Expression, Pharmacological Characterization and Anatomical Distribution of Melanocortin Receptors in an Evolutionary Perspective Ringholm, Aneta I. January 2004 (has links) The melanocortin (MC) receptors are G-protein coupled receptors thatparticipate in several important physiological functions such as the regulation of the energy balance. This thesis focuses on the evolutionary aspect of the MC receptors and their pharmacology. One MC4 receptor and two MC5 receptor subtypes were found in a teleost fish, zebrafish. This indicates that the MC receptor subtypes arose very early in vertebrate evolution. Important pharmacological and functional properties, as well as gene structure and syntenic relationships have been highly conserved over a period of more than 400 million years implying that these receptors participate in vital physiological functions. Moreover, we found a MC4 receptor from a shark, spiny dogfish that represents the most distant MC receptor gene cloned to date. We also characterized the pharmacology of a MC4 receptor in goldfish. The conserved central expression pattern and physiological role in regulation of food intake of the MC4 receptor suggests that neuronal pathways of the melanocortin system may be important for regulation of energy homeostasis in most vertebrates. We determined the chromosomal position of the chicken MC receptors genes and found conserved synteny of the MC2, MC5, and MC4 receptor genes. These results suggest that there exist a clustering of these genes that is ancient. Analysis of conserved synteny with mammalian genomes and paralogon segments prompted us to predict an ancestral gene organization that may explain how this family has been formed through both local duplication and tetraploidization processes. There are several common point mutations in the human MC1 receptor that are over represented in North European red-heads, and in individuals with pale skin. We pharmacologically characterised four naturally occurring human MC1 receptor variants providing molecular explanation to the respective phenotype. The MC receptor subtypes have highly diverse physiological functions despite having relative high similarities in their primary structure. Our studies on the structural and functional properties of the MC receptor subtypes have provided insight into the molecular mechanism of how the specification of these receptors may have occurred. Pharmacology evolution melanocortin MSH pharmacology genome duplication tetraploidization zebrafish spiny dogfish chicken GPCR polymorphism pigmentation Farmakologi Pharmacological research Farmakologisk forskning

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