Global ETD Search

301	TARGET-DIRECTED BIOSYNTHETIC EVOLUTION: REDIRECTING PLANT EVOLUTION TO GENOMICALLY OPTIMIZE A PLANT’S PHARMACOLOGICAL PROFILE Brown, Dustin Paul 01 January 2015 (has links) The dissertation describes a novel method for plant drug discovery based on mutation and selection of plant cells. Despite the industry focus on chemical synthesis, plants remain a source of potent and complex bioactive metabolites. Many of these have evolved as defensive compounds targeted on key proteins in the CNS of herbivorous insects, for example the insect dopamine transporter (DAT). Because of homology with the human DAT protein some of these metabolites have high abuse potential, but others may be valuable in treating drug dependence. This dissertation redirects the evolution of a native Lobelia species toward metabolites with greater activity at this therapeutic target, i.e. the human DAT. This was achieved by expressing the human DAT protein in transgenic plant cells and selecting gain-of-function mutants for survival on medium containing a neurotoxin that is accumulated by the human DAT. This created a sub-population of mutants with increased DAT inhibitory activity. Some of the active metabolites in these mutants are novel (i.e. not detectable in wild-type cells). Others are cytoprotective, and also protect DAergic neurons against the neurotoxin. This provides proof-of-concept for a novel plant drug discovery platform, which is applicable to many different therapeutic target proteins and plant species. Plant secondary metabolites Lobelia cardinalis human dopamine transporter target-directed biosynthetic evolution drug dependence Agricultural Science Alternative and Complementary Medicine Biotechnology Chemical Actions and Uses Complex Mixtures Evolution Genomics Heterocyclic Compounds Lipids Medicinal and Pharmaceutical Chemistry Medicinal Chemistry and Pharmaceutics Nervous System Organic Chemicals Pharmaceutics and Drug Design Pharmacy and Pharmaceutical Sciences Plant Sciences Polycyclic Compounds Psychiatry and Psychology
302	High Affinity Block of ICl,swell by Thiol-Reactive Small Molecules Park, Sung H 01 January 2016 (has links) Ebselen (Ebs) is considered as a glutathione peroxidase (GPx) mimetic and primarily thought to function by scavenging intracellular reactive oxygen species (ROS). Previous to our work, Deng et al. (2010a) demonstrated complete block of ICl,swell with 15 microM Ebs following endothelin-1 (ET-1) induced activation of the current in cardiomyocytes. This block was presumed to take effect mainly via the quenching of ROS. Nonetheless, our work with DI TNC1 astrocytes strongly emphasizes that Ebs might function by an alternative mechanism based on its kinetic profile in blocking ICl,swell. Our experiments showed that 45 nM Ebs can fully block ICl,swell thus suggesting an apparent IC50 result, we predicted Ebs to possess a high kon with a low koff close to zero. As predicted, Ebs failed to washout in the timescale covered by our patch-clamp experiments. The block was also distal to H2O2, previously considered as the most proximate regulator of ICl,swell. And based on further evidence demonstrating irreversible block of ICl,swell distal to H2O2 with Ebs congeners, complete suppression of native ICl,swell with MTS reagents, and failure of Ebs to block ICl,swell from the cytosol, we concluded that Ebs and its congeners can covalently modify important –SH groups required for current activation while functioning as sulfhydryl reagents. Complete irreversible block of ICl,swell with 110 mM cell impermeant MTSES in native DI TNC1 astrocytes contrasts sharply to SWELL1 (Qiu et al., 2014) or LRRC8A (Voss et al., 2014), the latest molecular entity presumably responsible for ICl,swell, where 3.33 mM MTSES failed to demonstrate block of ICl,swell in the wild-type stably expressing SWELL1 (Qiu et al., 2014). Our data with Ebs, its congeners, and MTS reagents indicate the existence of a common extracellular binding site which involves a selenenylsulfide (Se-S) bond that critically modulates ICl,swell. We, therefore, synthesized a derivative of Ebs called ebselen-para-yne (Ebs-p-yne), which provided an even higher affinity for blocking ICl,swell with a presumed IC50 ~picomolar range. Ebs-p-yne is a promising novel molecule that may serve as a tag in identifying the molecular fingerprint ultimately responsible for ICl,swell. Furthermore, we can take advantage of click chemistry to ultimately pull out the channel or channel component which has remained elusive for greater than two decades. Ebs high affinity block of DI TNC1 astrocytes thiol-reactive small molecules Ebs-p-yne VRAC Biophysics Cellular and Molecular Physiology Medicinal Chemistry and Pharmaceutics Molecular and Cellular Neuroscience Neuroscience and Neurobiology
303	Design, Synthesis and Biological Evaluation of Novel Compounds with CNS-Activity Targeting Cannabinoid and Biogenic Amine Receptors Sherwood, Alexander M 16 May 2014 (has links) This work seeks to contribute to the discipline of neuropharmacology by way of structure activity relationship from the standpoint of an organic chemist. More specifically, we sought to develop robust synthetic methodology able to efficiently produce an array of compounds for the purpose of systematic evaluation of their interaction with specific sights within the central nervous system (CNS) in order to better understand the mind and to develop drugs that may have beneficial effects on neurological function. The focus of these studies has been toward the development of novel molecules, using a structure-activity relationship approach, that exhibit binding affinity at specific targets within the CNS. The merit of such studies is twofold: primarily, new compounds are produced that provide valuable scientific insight about their physiological targets, and secondarily, new synthetic methodologies that may arise in order to produce these compounds, thereby contributing to the whole of organic chemistry. As a result of the research described herein, the development of one high affinity and several moderate affinity compounds at the cannabinoid receptor subtype 1 (CB1) has been accomplished. The research demonstrates that a diaryl ether molecular scaffold represents a successful motif in the cannabinoid pharmacophore. The production of the compounds in the SAR studies also introduced a novel general synthetic methodology for the synthesis of diaryl ethers around a phloroglucinol core. A second project was initiated in order to explore the synthetic methods required to develop a general process for the synthesis of rigid aminobenzocyclobutane analogs of known phenethylamines with activity at monoaminergic neurotransmitter sites. Using the synthetic approach devised here, four novel aminobenzocyclobutane isomeric analogs of a known pharmacologically active phenethylamine, (RS)-phenylpropan-amine were synthesized and are currently being evaluated for pharmacological potential. Neuroscience CB1 Receptor Serotonin Dopamine Norepinephrine Addiction Pharmacotherapy Heterocyclic Compounds Lipids Medicinal and Pharmaceutical Chemistry Medicinal-Pharmaceutical Chemistry Nervous System Diseases Organic Chemicals Organic Chemistry Pharmaceutical Preparations Pharmaceutics and Drug Design Substance Abuse and Addiction
304	Desenvolvimento farmacotécnico e analítico de comprimidos revestidos de montelucaste: equivalência farmacêutica e bioequivalência / Pharmaceutical and analytical development film coated tablets of montelukast: pharmaceutical equivalence and bioequivalence ALVES, Carina Pimentel Itapema 18 March 2011 (has links) Made available in DSpace on 2014-07-29T15:25:22Z (GMT). No. of bitstreams: 1 Tese Carina-pos defesa.pdf: 485460 bytes, checksum: 2ca505db4ca73a05349dd92fbfc7df1d (MD5) Previous issue date: 2011-03-18 / Montelukast is a potent reversible selective inhibitor of cysteinilleukotrien- 1 receptor, avoiding that these mediators promote the asthmatic response. Its commercialization in Brazil, as a terminated product, is protected by patent up to 2010. Once the active ingredient Montelukast is recent in the pharmaceutical market and there is no methodology description in official compendiums capable to assure the quality of new formulations, the objective of this paper was the pharmaceutics of montelukast film coated tablets, the development and the validation of analytical and bioanalytical methodologies foreseeing the pharmaceutical equivalence and bioequivalence with the reference medication of the market. With this purpose, some physicalchemical parameters were characterized, assay and dissolution methodologies were developed and validated per high performance liquid chromatography with ultraviolet detection (HPLC-UV) for the quantification of montelukast present in 10.0mg film coated tablets. The quantification of montelukast sodium in human plasma was performed using Loratadine as internal standard and high performance liquid chromatography attached to mass detector (HPLC - MS / MS). The active ingredient was extracted from the human plasma using precipitation extraction. The results found for the parameters of specificity, linearity, accuracy, precision, quantification and detection limits and stability in the methodologies validation confirm they were adequate for the objective proposed. The analytical methodologies developed and validated were applied in the pharmaceutics of the tablets for the determination of the formulation similar to the market reference medication Singulair®. This formulation was submitted to stability assays to assure its quality and to allow the performance of pharmaceutical equivalence and bioequivalence with the purpose of registering as a generic medication. / O Montelucaste é um potente inibidor seletivo reversível do receptor cisteinil-leucotrieno-1, evitando que os mediadores provoquem a resposta asmática. Sua comercialização no Brasil, na forma de produto acabado, é protegida por patente até 2010. Uma vez que o fármaco Montelucaste é recente no mercado farmacêutico e não há descrição de metodologia em compêndios oficiais capaz de assegurar a qualidade das novas formulações, o objetivo deste trabalho foi o desenvolvimento farmacotécnico de comprimidos revestidos de montelucaste, desenvolvimento e validação de métodos analítico e bioanalítico visando obtenção de equivalência farmacêutica e bioequivalência com o medicamento referência de mercado. Com esta finalidade, foram caracterizados alguns parâmetros físico-químicos, desenvolvidos e validados métodos de doseamento e dissolução por cromatografia líquida de alta eficiência com detecção ultravioleta (HPLC-UV) para quantificação de montelucaste presente em comprimidos revestidos de 10,0 mg. A determinação de montelucaste sódico em plasma humano foi realizada utilizando-se loratadina como padrão interno e cromatografia líquida de alta eficiência acoplada a detector de massas (HPLC MS/MS). O fármaco foi extraído do plasma humano utilizando extração por precipitação. Os resultados encontrados dos parâmetros de especificidade, linearidade, exatidão, precisão, limites de quantificação e detecção e estabilidade nas validações dos métodos confirmam que os mesmos foram adequados para a finalidade proposta. Os métodos analíticos desenvolvidos e validados foram aplicados no desenvolvimento farmacotécnico dos comprimidos para determinação de uma formulação próxima ao medicamento referência de mercado Singulair®. Esta formulação foi submetida a ensaios de estabilidade para assegurar sua qualidade e permitir a realização de equivalência e bioequivalência farmacêutica com o intuito de registro como medicamento genérico. Montelucaste HPLC-UV HPLC-MS/MS desenvolvimento analítico desenvolvimento farmacotécnico validação equivalência farmacêutica bioequivalência Montelukast HPLC-UV HPLC-MS/MS analytical development pharmaceutics validation pharmaceutical equivalence bioequivalence
305	DEVELOPMENT AND PRECLINICAL EVALUATION OF LONG-LASTING COCAINE HYDROLASES FOR COCAINE OVERDOSE AND COCAINE USE DISORDER TREATMENT Zhang, Ting 01 January 2018 (has links) Cocaine is a plant-based illicit drug commonly involved in substance use disorder. Although cocaine overdose and cocaine use disorders cause adverse health consequences to individuals and the economic burden on their family and society, there are no FDA (Food and Drug Administration) approved medications for treatment. Recently, it has been recognized that delivery of cocaine hydrolase (CocH) is a promising therapeutic strategy. Human butyrylcholinesterase (hBChE), the primary enzyme involved in cocaine metabolism in human, have advantages over other candidates for the development of CocH. Previous studies in our laboratory have designed and characterized hBChE mutants that have ~4,000-fold improved catalytic efficiency against naturally occurring (-)-cocaine as compared to the wild-type hBChE. Besides the catalytic efficiency, the biological half-life is another essential factor that influences the desired therapeutic value in the long-term treatment of cocaine use disorder. In order to provide prolonged effects to reduce administration frequency in clinical use, efforts have been made to increase the retention time of CocHs in blood circulation by fusing CocHs with other thermostable proteins or their mutants, including human serum albumin (Albu) or the Fc region of the human IgG (Fc). In this dissertation, we demonstrated the clinical potential and the benefits of long-lasting CocHs for cocaine overdose treatment. We used rodent models to show the ability of AlbuCocH1 to block or reverse manifestations of toxic effects of cocaine. In addition, a concomitant LC-MS/MS-based analysis was conducted to investigate the pharmacokinetic profile of a lethal dose of cocaine with the presence of AlbuCocH1. These experimental data demonstrated AlbuCocH1 as an effective cocaine detoxification agent by accelerating the metabolism of cocaine. In order to examine the potential therapeutic value of Fc-fused CocHs in the treatment of cocaine use disorder, we conducted a series of behavioral experiments in rats to evaluate the effectiveness and duration of Fc-fused CocHs in blocking or attenuating cocaine-induced psychostimulant and discriminative stimulus effects. In addition, the intravenous self-administration model was used to investigate the long-term effectiveness of Fc-fused CocHs in blocking or attenuating the reinforcing effects of cocaine. It has been shown that a single dose of E30-6-Fc (3 mg/kg) was able to effectively alter the cocaine dose-response curve and attenuate the reinforcing efficacy of cocaine for at least a month in both male and female rats. In summary, AlbuCocH1 (TV-1380), which failed to meet the primary efficacy endpoint in clinical trials for facilitating abstinence in cocaine-dependent subjects with a weekly dosing schedule (due to the short biological half-life), is more suitable to be developed as a cocaine detoxification agent. On the contrary, the newly designed Fc-fused CocH (e.g. CocH3-Fc, E30-6-Fc) with higher catalytic efficiency and longer biological half-life will be beneficial for long-term abstinence management in cocaine-dependent individuals. Therapeutic protein Butyrylcholinesterase Enzyme therapy Substance use disorder Animal models of addiction Cocaine self-administration Animal Experimentation and Research Macromolecular Substances Medical Pharmacology Mental Disorders Neurosciences Pharmaceutics and Drug Design Pharmacology Substance Abuse and Addiction
306	USING THE QBEST EQUATION TO EVALUATE ELLAGIC ACID SAFETY DATA: GENERATING A QNOAEL WITH CONFIDENCE LEVELS FROM DISPARATE LITERATURE Dickerson, Cynthia Rose 01 January 2018 (has links) QBEST, a novel statistical method, can be applied to the problem of estimating the No Observed Adverse Effect Level (NOAEL or QNOAEL) of a New Molecular Entity (NME) in order to anticipate a safe starting dose for beginning clinical trials. The NOAEL from QBEST (called the QNOAEL) can be calculated using multiple disparate studies in the literature and/or from the lab. The QNOAEL is similar in some ways to the Benchmark Dose Method (BMD) used widely in toxicological research, but is superior to the BMD in some ways. The QNOAEL simulation generates an intuitive curve that is comparable to the dose-response curve. The NOAEL of ellagic acid (EA) is calculated for clinical trials as a component therapeutic agent (in BSN476) for treating Chikungunya infections. Results are used in a simulation based on nonparametric cluster analysis methods to calculate confidence levels on the difference between the Effect and the No Effect studies. In order to evaluate the statistical power of the algorithm, simulated data clusters with known parameters are fed into the algorithm in a separate study, testing the algorithm’s accuracy and precision “Around the Compass Rose” at known coordinates along the circumference of a multidimensional data cluster. The specific aims of the proposed study are to evaluate the accuracy and precision of the QBEST Simulation and QNOAEL compared to the Benchmark Dose Method, and to calculate the QNOAEL of EA for BSN476 Drug Development. Mahalanobis Equation No Observed Adverse Effect Limit Discriminant Cluster Analysis Artificial Intelligence and Robotics Multivariate Analysis Pharmaceutics and Drug Design Pharmacy and Pharmaceutical Sciences
307	GLYCOSAMINOGLYCAN LYASES IN THE PREPARATION OF OLIGOSACCHARIDES Alabbas, Alhumaidi B 01 January 2018 (has links) Glycosaminoglycans are heterogeneous polysaccharides that mediate important biological functions. There has been considerable interest in deciphering the precise GAG sequences that are responsible for protein interactions. In fact, several GAG oligosaccharides have been discovered to date as targeting proteins with higher level of specificity. Yet, it has been difficult to develop GAG oligosaccharides as drugs. One of the key reasons for this state of art is that GAG synthesis is extremely challenging and is highly structure-specific. Thus, much of the biology and pharmacology of GAG remains unknown and unexploited to date. An alternative approach is to prepare GAG oligosaccharides using enzymatic depolymerization of polymeric GAGs. GAG lyases, including heparinases and chondritinases represent powerful tools that can theoretically generate multiple oligosaccharides in parallel. However, it is difficult to implement such procedures with high consistency. Moreover, GAG lyases can digest GAGs down to disaccharides. A priori, non-polymeric GAGs, or alternatively GAG oligosaccharides containing 4 to 10 residues, would be expected to function better as therapeutic agents because they would be more homogeneous and less non-specific than their polymeric precursors. Thus, we reasoned that immobilization of these enzymes may engineer altered biopolymer processing, which may afford longer oligosaccharides in higher proportions and greater consistency. Heparinase-I and chondroitinase ABC were immobilized on CNBr-activated Sepharose and compared with the free form of the enzyme. Immobilized GAG lyases retained high efficiency of depolymerization over a wide range of pH, temperature and reusability. Most importantly, the immobilized enzyme was found to produce larger proportions of oligosaccharides longer than di- and tetra-saccharides as compared to lyases in the free form. A two dimensional separation involves size exclusion chromatography followed by reversed phase ion-pairing ultra performance liquid chromatography coupled to electrospray ionization mass spectrometry was employed to separate and characterize oligosaccharide structures. We have identified 40 heparin oligosaccharides, including regular and rare structures ranging from dp4 to dp10 and 39 chondroitin sulfate oligosaccharides in high homogeneity and significant yields. Overall, this technology is likely to offer a simple and cost effective route to preparation of larger amounts of sequences that can be expected to bind and modulate protein function. Glycosaminoglycan Heparin Heparinases Chondroitin sulfate Chondroitinase ABC Immobilization Carbohydrates Enzymes and Coenzymes Macromolecular Substances Medicinal and Pharmaceutical Chemistry Other Medical Sciences Pharmaceutical Preparations Pharmaceutics and Drug Design Therapeutics
308	ATP-Binding Cassette Efflux Transporters and Passive Membrane Permeability in Drug Absorption and Disposition Matsson, Pär January 2007 (has links) <p>Transport into and across the cells of the human body is a prerequisite for the pharmacological action of drugs. Passive membrane permeability and active transport mechanisms are major determinants of the intestinal absorption of drugs, as well as of the distribution to target tissues and the subsequent metabolism and excretion from the body. In this thesis, the role of ATP-binding cassette (ABC) transporters and passive permeability on drug absorption and disposition was investigated. Particular emphasis was placed on defining the molecular properties important for these transport mechanisms. </p><p>The influence of different transport pathways on predictions of intestinal drug absorption was investigated using experimental models of different complexity. Experimental models that include the paracellular pathway gave improved predictions of intestinal drug absorption, especially for incompletely absorbed drugs. Further, the inhibition of the ABC transporters breast cancer resistance protein (BCRP/ABCG2) and multidrug-resistance associated protein 2 (MRP2/ABCC2) was experimentally investigated using structurally diverse datasets that were representative of orally administered drugs. A large number of previously unknown inhibitors were identified among registered drugs, but their clinical relevance for drug-drug interactions and drug-induced toxicity remains to be determined. The majority of the inhibitors affected all three major ABC transporters BCRP, MRP2 and P-glycoprotein (P gp/ABCB1), and these multi-specific inhibitors were found to be enriched in highly lipophilic weak bases. </p><p>To summarize, the present work has led to an increased knowledge of the molecular features of importance for ABC transporter inhibition and passive membrane permeability. Previously unknown ABC transporter inhibitors were identified and predictive computational models were developed for the different drug transport mechanisms. These could be valuable tools to assist in the prioritization of experimental efforts in early drug discovery.</p> Pharmaceutics ATP-binding cassette ABC transporter P-gp P-glycoprotein ABCB1 BCRP Breast cancer resistance protein ABCG2 MRP2 ABCC2 Membrane permeability Drug transport Active transport Passive diffusion Multivariate data analysis PLS OPLS QSAR Galenisk farmaci
309	ATP-Binding Cassette Efflux Transporters and Passive Membrane Permeability in Drug Absorption and Disposition Matsson, Pär January 2007 (has links) Transport into and across the cells of the human body is a prerequisite for the pharmacological action of drugs. Passive membrane permeability and active transport mechanisms are major determinants of the intestinal absorption of drugs, as well as of the distribution to target tissues and the subsequent metabolism and excretion from the body. In this thesis, the role of ATP-binding cassette (ABC) transporters and passive permeability on drug absorption and disposition was investigated. Particular emphasis was placed on defining the molecular properties important for these transport mechanisms. The influence of different transport pathways on predictions of intestinal drug absorption was investigated using experimental models of different complexity. Experimental models that include the paracellular pathway gave improved predictions of intestinal drug absorption, especially for incompletely absorbed drugs. Further, the inhibition of the ABC transporters breast cancer resistance protein (BCRP/ABCG2) and multidrug-resistance associated protein 2 (MRP2/ABCC2) was experimentally investigated using structurally diverse datasets that were representative of orally administered drugs. A large number of previously unknown inhibitors were identified among registered drugs, but their clinical relevance for drug-drug interactions and drug-induced toxicity remains to be determined. The majority of the inhibitors affected all three major ABC transporters BCRP, MRP2 and P-glycoprotein (P gp/ABCB1), and these multi-specific inhibitors were found to be enriched in highly lipophilic weak bases. To summarize, the present work has led to an increased knowledge of the molecular features of importance for ABC transporter inhibition and passive membrane permeability. Previously unknown ABC transporter inhibitors were identified and predictive computational models were developed for the different drug transport mechanisms. These could be valuable tools to assist in the prioritization of experimental efforts in early drug discovery. Pharmaceutics ATP-binding cassette ABC transporter P-gp P-glycoprotein ABCB1 BCRP Breast cancer resistance protein ABCG2 MRP2 ABCC2 Membrane permeability Drug transport Active transport Passive diffusion Multivariate data analysis PLS OPLS QSAR Galenisk farmaci
310	In vitro and in silico prediction of drug-drug interactions with transport proteins Ahlin, Gustav January 2009 (has links) Drug transport across cells and cell membranes in the human body is crucial for the pharmacological effect of drugs. Active transport governed by transport proteins plays an important role in this process. A vast number of transport proteins with a wide tissue distribution have been identified during the last 15 years. Several important examples of their role in drug disposition and drug-drug interactions have been described to date. Investigation of drug-drug interactions at the transport protein level are therefore of increasing interest to the academic, industrial and regulatory research communities. The gene expression of transport proteins involved in drug transport was investigated in the jejunum, liver, kidney and colon to better understand their influence on the ADMET properties of drugs. In addition, the gene and protein expression of transport proteins in cell lines, widely used for predictions of drug transport and metabolism, was examined. The substrate and inhibitor heterogeneity of many transport proteins makes it difficult to foresee whether the transport proteins will cause drug-drug interactions. Therefore, in vitro assays for OCT1 and OATP1B1, among the highest expressed transport proteins in human liver, were developed to allow investigation of the inhibitory patterns of these proteins. These assays were used to investigate two data sets, consisting of 191 and 135 registered drugs and drug-like molecules for the inhibition of OCT1 and OATP1B1, respectively. Numerous new inhibitors of the transport proteins were identified in the data sets and the properties governing inhibition were determined. Further, antidepressant drugs and statins displayed strong inhibition of OCT1 and OATP1B1, respectively. The inhibition data was used to develop predictive in silico models for each of the two transport proteins. The highly polymorphic nature of some transport proteins has been shown to affect drug response and may lead to an increased risk of drug-drug interactions, and therefore, the OCT1 in vitro assay was used to study the effect of common genetic variants of OCT1 on drug inhibition and drug-drug interactions. The results indicated that OCT1 variants with reduced function were more susceptible to inhibition. Further, a drug-drug interaction of potential clinical significance in the genetic OCT1 variant M420del was proposed. In summary, gene expression of transport proteins was investigated in human tissues and cell lines. In vitro assays for two of the highest expressed liver transport proteins were used to identify previously unknown SLC transport protein inhibitors and to develop predictive in silico models, which may detect previously known drug-drug interactions and enable new ones to be identified at the transport protein level. In addition, the effect of genetic variation on inhibition of the OCT1 was investigated. Solute carrier SLC transporter OCT1 Organic cation transporter 1 SLC22A1 OATP1B1 SLCO1B1 Organic anion transporting peptide 1B1 Drug transport Active transport Genetic polymorphism Cell lines Gene expression Multivariate data analysis OPLS Pharmaceutics Galenisk farmaci Biopharmacy Biofarmaci

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