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Preclinical Development of New Alkylating Oligopeptides for Cancer TherapyGullbo, Joachim January 2003 (has links)
<p>Oligopeptides can be used to carry cytotoxic agents in cancer chemotherapy, using tumour-associated proteins as the molecular target for selectivity. During the seventies and eighties Peptichemio, a cocktail of six alkylating oligopeptides carrying <i>m</i>-L-sarcolysin, was investigated in a wide variety of human malignancies. Positive clinical results were suggested to result from rapid and effective DNA-crosslinking following uptake in neoplastic cells, but also from antimetabolic properties of the drug. Although <i>m</i>-L-sarcolysin never reached widespread clinical use, the well established <i>para</i>-isomer melphalan still, after nearly fifty years, has a place in cancer chemotherapy.</p><p>The present study was undertaken to synthesise the melphalan containing analogue of the tripeptide P2 (L-prolyl-<i>m</i>-L-sarcolysyl-<i>p</i>-L-fluorophenylalanine ethyl ester, the main contributor to Peptichemio’s activity) and similar compounds, preferably dipeptides. The new compounds compared favourably with melphalan, <i>m</i>-L-sarcolysin and P2, considering their potency in vitro. Structure activity relationship analysis showed that the activity of melphalan dipeptides depended on the amino acid composition, sequence and end group modifications, but only to a minor degree on lipophilicity. Results suggested that the dipeptides, to exert their full cytotoxic activity, had to interact with specific biomolecules such as dipeptide transporters or peptidases. Although no active transport could be demonstrated the influence of peptide hydrolysis was obvious, thereby suggesting a rationale for increased activity as well as potential tumour selectivity in comparison with melphalan.</p><p>Preliminary in vivo studies in mice supported the results, despite equal alkylating capacity the dipeptide J1 (melphalanyl-<i>p</i>-L-fluorophenylalanine ethyl ester) and the tripeptide J3 (L-prolyl-melphalanyl-<i>p</i>-L-fluorophenylalanine ethyl ester) were more active than was melphalan on human tumour cells implanted in test animals although all drugs produced expected side effects, notably leukopenia, of similar magnitude.</p><p>In conclusion, oligopeptide derivatives of melphalan seem to provide improved cytotoxic activity and therapeutic index. Further development of such oligopeptides for clinical use seems worthwhile.</p>
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Cellular Pharmacology of the Novel Antitumoural Cyanoguanidine CHS 828Lövborg, Henrik January 2004 (has links)
<p>The antitumoural cyanoguanidine CHS 828 has shown promising activity in a number of preclinical and clinical studies. However, the mechanisms underlying the cell death induced by CHS 828 has not been clarified. This thesis describes in vitro studies of the cellular pharmacology of CHS 828.</p><p>CHS 828 induced cell death with necrosis like features in the lymphoma cell line U-937 GTB. Addition of 3-aminobenzamide, an inhibitor of ADP-ribosylation, resulted in a decreased sensitivity to CHS 828 and a shift in the mode of cell death towards apoptosis. </p><p>Mouse fibroblasts lacking the enzyme PARP-1 were more sensitive to CHS 828 compared to normal fibroblasts. CHS 828 was able to induce p53 in normal fibroblasts but this effect does not seem to be necessary to induce cell death.</p><p>Characterization of two CHS 828 resistant cell lines indicated that they were selectively resistant to cyanoguanidines. Known mechanisms of anticancer drug resistance did not seem to account for the cyanoguanidine resistance. One possible resistance mediating protein, which was upregulated in the resistant cells, was epidermal fatty acid binding protein.</p><p>A novel high content screening assay was also developed. The assay was shown to be suitable both for screening of potential novel antitumoural substances as well for mechanistic studies. In the assay, CHS 828 induced caspase-3 activity and reduction in mitochondrial membrane potential, both signs of apoptosis, in U-937 GTB cells. However, nuclei in exposed cells did not show nuclear fragmentation, one of the hallmarks of apoptosis.</p><p>CHS 828 was also shown to indirectly inhibit the proteasome activity in U-937 GTB cells. </p><p>In conclusion, the results presented provide new insights into the metabolic and molecular events involved in cell death induced by CHS 828.</p>
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Transcription Factor AP-2 in Relation to Personality and Antidepressant DrugsBerggård, Cecilia January 2004 (has links)
<p>The CNS monoaminergic systems are considered as the head engine regulating neuropsychiatric functions and personality. Transcription factor AP-2 is known to be essential for the development of the brainstem including the monoaminergic nuclei, and has the ability to regulate many genes in the monoaminergic systems. The ability of transcription factors to regulate specific gene expression, has lately made them hot candidates as drug targets. In this thesis, results indicating a role of AP-2 in the molecular effects of the antidepressant drugs citalopram and phenelzine, are presented. </p><p>A polymorphism in the second intron of the gene encoding AP-2ß has previously been associated with anxiety-related personality traits as estimated by the Karolinska Scales of Personality (KSP). In this thesis, results confirming this association, gained by using a larger material and several different personality scales, are presented. Furthermore, data is presented showing an association between the activity of platelet monoamine oxidase, a trait-dependent marker for personality, and the genotype of the AP-2ß intron 2 polymorphism. </p><p>The functional importance of the AP-2ß intron 2 polymorphism has not yet been elucidated. Included in this thesis are results showing that the AP-2ß intron 2 polymorphism is not in linkage disequilibrium with the only other described polymorphism in the AP-2ß gene, i.e. in the AP-2ß promoter (-67 G/A). Introns have in several studies been shown to include binding sites for regulatory proteins, and thus, to be important in transcriptional regulation. Results are presented demonstrating that one human brain nuclear protein binds only to the long variant of the AP-2ß intron 2 polymorphism. If this protein is involved in the regulation of the AP-2ß gene, it would affect the expression levels of the AP-2ß protein. </p><p>In general, this thesis further establishes the role of transcription factor AP-2 as a regulatory factor of importance for personality and monoaminergic functions.</p>
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Semicarbazide-sensitive Amine Oxidase (SSAO) – Regulation and Involvement in Blood Vessel Damage with Special Regard to Diabetes : A Study on Mice Overexpressing Human SSAOGöktürk, Camilla January 2004 (has links)
<p>Semicarbazide-sensitive amine oxidase (SSAO, EC 1.4.3.6) belongs to a family of copper-containing amine oxidases. SSAO exists as a membrane bound protein in endothelial-, smooth muscle-, and adipose cells as well as soluble in plasma. SSAO catalyses oxidative deamination of primary monoamines, which results in the production of corresponding aldehydes, hydrogen peroxide and ammonia. These compounds are very reactive and potentially cytotoxic, and are able to induce vascular damage if produced in high levels. Patients with diabetes mellitus, and with diabetic complications in particular, have a higher SSAO activity in plasma compared to healthy controls. It has therefore been speculated that high SSAO activity is involved in the development of vascular complications associated with diabetes. The aim of this thesis is to investigate the importance of SSAO in the development of disorders of a vascular origin. We have studied the transcriptional regulation of the SSAO gene, by inducing diabetes in NMRI and in transgenic mice, overexpressing the human form of SSAO in smooth muscle cells. We found that the increase in SSAO activity in diabetes is accompanied by reduced mRNA levels of the endogenous mouse gene, suggesting a negative feedback on the transcription of the SSAO gene. In addition, the transgenic mice exhibited an abnormal phenotype in the elastic tissue of aorta and renal artery. These mice have a lower mean artery pressure and an elevated pulse pressure. These results indicate that high SSAO activity in smooth muscle cells is associated with a change in the morphology of large arteries. This is likely contributing to the development of vascular complications in diabetes.</p>
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Methods for Preclinical Evaluation of Cytotoxic Drugs : With Special Reference to the Cyanoguanidine CHS 828 and Hollow Fiber MethodHassan, Saadia Bashir January 2004 (has links)
<p>The novel cyanoguanidine CHS 828 has shown promising antitumor activity in many in vitro and in vivo studies. </p><p>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. </p><p>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.</p><p>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.</p><p>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. </p><p>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®.</p>
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Ribosome Associated Factors Recruited for Protein Export and FoldingRaine, Amanda January 2005 (has links)
<p>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. </p><p>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. </p><p>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. </p><p>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. </p><p>Finally, binding studies on ribosome nascent chain adds clues as to how TF functions as a chaperone.</p>
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Hazards of Drug Therapy : On the Management of Adverse Drug Reactions: From Signal Detection and Evaluation to Risk MinimizationHedenmalm, Karin January 2005 (has links)
<p>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. </p><p>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. </p><p>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.</p>
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Classification, Evolution, Pharmacology and Structure of G protein-coupled ReceptorsLagerström, Malin C January 2006 (has links)
<p>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. </p><p>We have searched the human genome for GPCRs and show that the family includes approximately 800 proteins, which can divided into five main families; <i>Glutamate</i>, <i>Rhodopsin</i>, <i>Adhesion</i>, <i>Frizzled/Taste2</i> and <i>Secretin</i>. 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 <i>Adhesion</i> 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.</p><p>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. </p><p>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. </p>
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Transcription Factor AP-2 in Relation to Serotonergic Functions in the Central Nervous SystemDamberg, Mattias January 2002 (has links)
Eukaryotic gene transcription plays a regulatory role in mammalian developmental processes. It has been shown that transcriptional control is an important mechanism for specification of neurotransmitter phenotypes. In the mammalian central nervous system, the transcription factor AP-2 family is one of the critical regulatory factors for neural gene expression and neuronal development. It has been shown that several genes in the monoaminergic systems have AP-2 binding sites in regulatory regions, suggesting a regulatory role of AP-2 also in the adult brain. Brainstem monoamines are implicated in the expression of personality traits and imbalances in these systems may give rise to psychiatric disorders. The gene encoding AP-2β includes a polymorphic region consisting of a tetranucleotide repeat of [CAAA]4-5 in intron 2. Studies on AP-2β genotype in relation to personality and platelet MAO activity, a trait-dependant marker for personality, are presented in this thesis. Furthermore, correlations between brainstem levels of AP-2α and AP-2β and monoamine turnover in projection areas in rat forebrain are reported. These results strengthen the notion that the AP-2 family is important regulators of the monoaminergic systems in the adult brain. Furthermore, two studies are presented in this thesis with analyses indicating a role for AP-2 in the molecular mechanism of antidepressant drugs. Altogether, this thesis presents data supporting our notion that the transcription factor AP-2 family is involved in the regulation of the monoaminergic systems both pre- and postnatally, and, therefore, might be involved in the pathophysiology of neuropsychiatric disorders.
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Semicarbazide-sensitive amine oxidase and vascular complications in diabetes mellitus : Biochemical and molecular aspectsNordquist, Jenny January 2002 (has links)
Plasma activity of the enzyme semicarbazide-sensitive amine oxidase (SSAO; EC.1.4.3.6) has been reported to be high in disorders such as diabetes mellitus, chronic congestive heart failure and liver cirrhosis. Little is known of how the activity is regulated and, consequently, the cause for these findings is not well understood. Due to the early occurrence of increased enzyme activity in diabetes, in conjunction with the production of highly cytotoxic substances in SSAO-catalysed reactions, it has been speculated that there could be a causal relationship between high SSAO activity and vascular damage. Aminoacetone and methylamine are the best currently known endogenous substrates for human SSAO and the resulting aldehyde-products are methylglyoxal and formaldehyde, respectively. Both of these aldehydes have been shown to be implicated in the formation of advanced glycation end products (AGEs). This thesis is based on studies exploring the regulation of SSAO activity and its possible involvement in the development of vascular damage. The results further strengthen the connection between high SSAO activity and the occurrence of vascular damage, since type 2 diabetic patients with retinopathy were found to have higher plasma activities of SSAO and lower urinary concentrations of methylamine than patients with uncomplicated diabetes. From studies on mice, it was also found that an SSAO inhibitor potently reduces the incorporation of methylamine-metabolite in the tissues. By quantifying SSAO-gene expression in alloxan-induced diabetes, increased transcription could be ruled out as a cause for the increased enzyme activity, thereby opening up for the possibility that the activity is regulated post-translationally. In fact, increased enzyme activity in adipose tissue was accompanied by decreased mRNA-levels, suggesting that the gene expression could be negatively controlled by the enzyme activity.
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