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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
51

Collaboration haptique étroitement couplée pour la manipulation moléculaire interactive / Closely coupled haptic collaboration for interactive molecular manipulation

Simard, Jean 12 March 2012 (has links)
Le docking moléculaire est une tâche complexe, difficile à appréhender pour une personne seule. C’est pourquoi, nous nous proposons d’étudier la distribution cognitive des charges de travail à travers la collaboration. Une plate-forme distribuée de déformation moléculaire interactive a été mise en place afin d’étudier les avantages mais aussi les limites et les contraintes du travail collaboratif étroitement couplé. Cette première étude, basée sur trois expérimentations, a permis de valider l’intérêt d’une approche collaborative pour des tâches complexes à fort couplage. Cependant, elle a mis en évidence des conflits de coordination ainsi que des problématiques liées à la dynamique d’un groupe. Suite à cette première étude, nous avons proposés une nouvelle configuration de travail associée à des métaphores de communication haptiques afin d’améliorer la communication et les interactions entre les différents collaborateurs. Une dernière expérimentation avec des biologistes a permis de montrer l’utilité de la communication haptique pour le travail collaboratif sur des tâches complexes à fort couplage. / Molecular docking is a very complex task that can not be deal by only one user. Based on this observation, we propose to study the cognitive workload distribution on group of users in collaboration. For this purpose, we implement a distributed platform to interactively manipulate and deform structures of the molecules. With this platform, we want to study the assets of the closely coupled collaboration but also highlight the constraints and the drawbacks. Based on three experimentations, the study validate the concept of workload distribution in the closely coupled collaboration. However, it highlights limits with coordination conflicts through communication problem. Moreover, some difficulties have been encountered with the dynamic in a group of collaborators.Based on these results, we proposed a new working configuration coupled with new haptic communication metaphors to improve the communication and the coordination between the members of the group. These propositions have been evaluated in a fourth experimentation introducing biologists. The results show the importance of the haptic communication to improve the coordination in closely coupled collaboration.
52

Determinação de ácidos triterpênicos na casca de Malus x domestica e avaliação do potencial de seus derivados semissintéticos como inibidores da Ca2+-ATPase (PfATP6)

Lopes, Andréia Cristina Wildner Campos January 2017 (has links)
Esta tese alia dois enfoques principais dentro da Química Farmacêutica. Por um lado, busca explorar uma nova fonte de insumos naturais, cascas de Malus  domestica, com vistas a obtenção dos triterpenos ácidos ursólico (AU) e betulínico (AB); e por outro lado, estuda a relação dos derivados triterpênicos semissintéticos obtidos com a proteína-alvo (PfATP6) destacada atualmente na literatura da terapia da malária com vistas ao planejamento de novos antimaláricos. O primeiro Capítulo inclui o desenvolvimento de um método eficiente, fácil e extremamente rápido onde são combinadas as técnicas de extração por ultrassom (UAE) e análise por Cromatografia Líquida de Alta Eficiência Acoplada a Detector de Espectroscopia de Massas (LC-MS), para identificação e doseamento dos ácidos ursólico (AU) e betulínico (BA) em extratos de cascas frescas de maçã de cinco clones das cultivares Gala e Fuji (“Baigent”, “Fuji Mishima”, “Fuji Suprema”, “Fuji Select” and “Maxi Gala”) oriundas da Região Sul do Brasil. Os parâmetros cromatográficos do método analítico incluem: ionização por eletro spray em modo positivo (ESI+), fluxo de 1,0 mL/min, em modo de eluição isocrático, consistindo de 80% acetonitrila e 20% acetato de amônio 10 mM em pH 6,0 e temperatura ambiente. O método desenvolvido foi validado e mostrou ser seletivo, sensível (LOD e LOQ de 0,087 e 0,266 μg/mL para BA, e 0,398 e 2,117 μg/ mL para UA), coeficiente de regressão linear (r >0.99), preciso, exato e robusto para os analitos de interesse. A otimização do método combinado de UAE com LC-MS permitiu concluir os procedimentos de extração e análise em tempo inferior a 4 h, uma vez que o método não requer a secagem da amostra, etapa que demanda longos tempos de processamento. Este método foi aplicado e forneceu a primeira caracterização fitoquímica dos cinco clones de maçã estudados. Os resultados demonstraram que o método combinado de UAE-LC-MS é adequado às práticas do controle de qualidade. O segundo Capítulo apresenta o estudo da interação dos ligantes semissintéticos derivados dos AU e AB, sintetizados pelo nosso grupo de pesquisa, com a proteína Ca2+-ATPase do Plasmodium falciparum (PfATP6), através do emprego da técnica de Docking Molecular. A PfATP6 é descrita como um importante alvo para novos antimaláricos como Artemisinina (ART), cujo mecanismo de ação inclui, dentre outros, a modulação da homeostasia do cálcio intracelular. Investigações conduziram à hipótese do extravasamento do cálcio, do interior do retículo sarco-endoplasmático como mecanismo plausível para ação dos derivados triterpênicos do AU e AB. Os escores de energia determinados no Docking, de cada um dos nove ligantes (derivados triterpênicos) e quatro compostos de controle (ácidos ursólico e betulínico, artemisinina (ART) e tapsigargina (TPG) foram determinados (análises realizadas em triplicata) e correlacionados com os valores de IC50, para a atividade antimalárica. Os resultados mostraram excelente correlação entre os escores de energia (com a PfATP6) e os valores de IC50, superior a 80% (r > 0,83360). O estudo fornece fortes evidências de que a PfATP6 pode constituir um alvo para os derivados pentacíclicos do estudo, bem como permitiu identificar o perfil conformacional dos ligantes e os principais resíduos do sítio de ligação (SL) da PfATP6 envolvidos nas interações; bem como, contribuiu para a melhor compreensão das propriedades envolvidas na interação do ligante com o receptor e mecanismo de ação. O terceiro Capítulo faz uso de Métodos Clássicos e Quânticos para descrever as mudanças conformacionais da proteína PfATP6. As simulações de Dinâmica Molecular do receptor na forma isolada e complexada com os ligantes foram realizadas durante 10 ns. As conformações finais obtidas para os receptores foram avaliadas em termos RMSD, efeito da presença dos ligantes no sítio de ligação e tipos de interações estabelecidas entre o ligante e o receptor. Os resultados mostraram que as proteínas PfATP6 e SERCA tendem a manter sua conformação nativa e que o modelo utilizado é adequado aos propósitos do estudo. O monitoramento dos resíduos da região citoplasmática das proteínas permitiu evidenciar o efeito alostérico da presença dos ligantes AU e ART no SL, sobre os domínios A e N, da PfATP6. Esse efeito reproduz as conformações E1 e E2, bem estabelecidas para PfATP6, na presença e ausência de Ca2+. As análises de Dinâmica Molecular corroboram os achados do Capítulo II ao evidenciarem o estabelecimento de interações de hidrogênio com os resíduos importantes do SL da PfATP6. Esses resultados fundamentam os indícios de que as bombas de Ca2+-ATPase (SERCA), possam ser de fato, um alvo para os derivados triterpênicos dos AU e AB. / This thesis combines two main focuses within Pharmaceutical Chemistry. On the one hand, it seeks to explore a new source of natural inputs, bark of Malus domestica, in order to obtain ursolic (UA) and betulinic acid (BA) triterpenes. On the other hand, it studies the relation of the semi-synthetic triterpenic derivatives obtained with the target proteins (PfATP6), currently highlighted in the literature on malaria therapy with a view to planning new antimalarial drugs. The first chapter includes the development of an efficient, easy and extremely fast method where ultrasonic extraction techniques (UAE) and high-performance liquid chromatography coupled to mass spectroscopy (LC-MS) are combined for identification and assay of ursolic acid (UA) and betulinic acid (BA) in fresh apple peel extracts from five clones of the Gala and Fuji cultivars (Baigent, Fuji Mishima, Fuji Suprema, Fuji Select and Maxi Gala ") in the Southern Region of Brazil. Chromatographic parameters of the analytical method include: electrospray ionization (ESI +), flow rate of 1.0 mL/min in isocratic elution mode, consisting of 80% acetonitrile and 20% 10 mM ammonium acetate at pH 6.0 and room temperature. The method was validated and proved to be selective, sensitive (LOD and LOQ of 0.087 and 0.266 μg/mL for BA, and 0.398 and 2.117 μg/mL for UA), linear regression coefficient (r> 0.99), accurate, robust for analytes of interest. The optimization of the combined method of UAE with LC-MS allowed to complete the procedures of extraction and analysis in less than 4 h, since the method does not require drying the sample, a stage that demands long processing times. This method was applied and provided the first phytochemical characterization of the five apple clones studied. The results demonstrated that the combined UAE-LC-MS method is suitable for quality control practices. The second chapter presents the study of the interaction of the semi-synthetic ligands derived from the UA and BA, synthesized by our research group, with the Plasmodium falciparum Ca2+-ATPase protein (PfATP6), using the Molecular Docking technique. PfATP6 is described as an important target for new antimalarials such as Artemisinin (ART), whose action mechanism includes, among others, the modulation of intracellular calcium homeostasis. Investigations led to the hypothesis of extravasation of calcium from the interior of the sarco-endoplasmic reticulum as a plausible mechanism for the action of the triterpenic derivatives of UA and BA. The Docking energy scores (binding energy) of each of the nine ligands (triterpenic derivatives) and four control compounds (ursolic and betulinic acids, artemisinin (ART) and tapsigargine (TPG)) with PfATP6, were calculated (analyses performed in triplicate) and correlated with its antimalarial IC50 value. The results showed an excellent correlation between energy scores (with PfATP6) and IC50 values, higher than 80% (r > 0.83360). The study supplies strong evidence that PfATP6 may be a target for the pentacyclic derivatives of the study, and also allowed identifying the conformational profile of the ligands and the main residues of the PfATP6 binding site (BS) involved in the interactions. It further contributed to a better understanding of the properties involved in the interaction of the ligand with the receptor and its action mechanism. The third chapter uses Classical and Quantum Methods to describe the conformational changes of the PfATP6 protein. The Molecular Dynamics simulations of the receptor in the isolated and complexed form with the ligands were performed for 10 ns. The final conformations obtained for the receptors were evaluated in RMSD terms, effect of the presence of ligands at the binding site and types of interactions established between the ligand and the receptor. The results showed that the PfATP6 and SERCA proteins tend to maintain their native conformations and that the model used is adequate for the purposes of the study. The monitoring of the residues of the cytoplasmic region of the proteins allowed evidencing the allosteric effect of the presence of UA and ART ligands in BS, on the A- and N-domains of PfATP6. This effect reproduces the well-established E1 and E2 conformations for PfATP6, in the presence and absence of Ca2+, respectively. Molecular Dynamics analyses corroborate the findings of Chapter II, by showing the possibility of establishing hydrogen interactions with the important residues of PfATP6 BS. These results support the evidence that Ca2+-ATPase (SERCA) pumps may be a target for the triterpenic derivatives of UA and BA.
53

Conception, synthèse et évaluation de nouveaux inhibiteurs du transport de céramide : vers de nouveaux agents de sensibilisation des cellules cancéreuses chimiorésistantes / Conception, synthesis and evaluation of novel CERT mediated ceramide transport inhibitors, towards new sensitizing agents of chemoresistant cancer cells

Santos, Cécile 30 November 2015 (has links)
Au cours de leur métabolisme, les céramides, produits de novo au niveau du réticulum endoplasmique, sont transportés vers l'appareil de Golgi pour être convertis en sphingomyéline. Le mode principal de ce transport implique la protéine cytosolique CERT (CERamide Transfer). La surexpression de CERT, responsable d'un abaissement du taux intracellulaire en céramide pro-apoptotique, a été associée au phénomène de résistance aux agents chimiothérapeutiques de plusieurs lignées de cellules tumorales. L'inhibition de CERT permet de resensibiliser ces lignées cellulaires aux agents anti-cancéreux. Cependant, une seule famille d'inhibiteurs de CERT est connue à ce jour : les HPAs. A l'extrémité C-terminale de la protéine, le domaine START contient le site de liaison du céramide nécessaire à l'activité de transport de CERT. A partir de structures cristallographiques, une méthode d'identification de nouveaux ligands, combinant des outils in silico et in vitro, a été développée. La jaspine B, des analogues HPAs et des iminosucres ont été mis à jour en tant qu'antagonistes potentiels de CERT par cette méthode. Certains des composés identifiés ont été synthétisés et évalués in vitro. Des sondes fluorescentes de la jaspine B ont été conçues afin d'approfondir la compréhension de son mécanisme d'inhibition. En parallèle, un test de liaison in vitro HTR-FRET a été développé, permettant le criblage haut-débit de la Chimiothèque Nationale Essentielle. / During its metabolism, ceramides, produced de novo in the endoplasmic reticulum, are transported to the Golgi complex to be converted into sphingomyelin. The main way of this transport involves the cytosolic CERT protein (Ceramide Transfer). Overexpression of CERT, responsible for a diminution of intracellular level of proapoptotic ceramide, is associated with the phenomenon of resistance to chemotherapeutic agents in several tumor cell lines. The CERT inhibition allows to resensitize these cell lines to anticancer drugs. Yet, only a single family of inhibitors is known to date: HPAs. Located at the C-terminal region of the protein, the START domain contains the binding site of ceramide necessary for the transport activity of CERT. Based on crystallographic structures, a method for the identification of new CERT ligands, combining in silico and in vitro tools, was developed. Jaspine B, HPAs analogs and iminosugars were identified as potential antagonists using this method. Some of these compounds were synthesized and evaluated in vitro. Fluorescent probes of jaspine B were designed for a better understanding of it mechanism of action. In parallel, an in vitro HTR-FRET binding assay was developed, allowing the high-throughput screening of the National Essential Compound Library.
54

Estudo da intera??o entre albuminas s?ricas e mol?culas biologicamente ativas / A Study of the Interaction between Serum Albumins and Biologically Active Molecules

Chaves, Ot?vio Augusto 19 July 2016 (has links)
Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2017-01-12T11:50:46Z No. of bitstreams: 1 2016 - Otavio Augusto Chaves.pdf: 6300833 bytes, checksum: 156947ce06fa4e3b0674f5eaeaa4ef06 (MD5) / Made available in DSpace on 2017-01-12T11:50:46Z (GMT). No. of bitstreams: 1 2016 - Otavio Augusto Chaves.pdf: 6300833 bytes, checksum: 156947ce06fa4e3b0674f5eaeaa4ef06 (MD5) Previous issue date: 2016-07-19 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico - CNPq / The interactions between human serum albumin (HSA) with 18-PF, BZL, MTZ and MZ and between bovine serum albumin (BSA) with t-DCTN, PF, LF-B, PIA and ?-lap were studied by spectroscopic techniques (molecular absorption in the UV-Vis region, circular dichroism, emission fluorescence in the steady state and temporal resolution) under physiological conditions. Theoretical calculations by molecular docking were performed to complement the experimental data and thus offer accurate to the results. The results obtained for the fluorescence quenching rate constant (kq) is greater than the diffusion rate constant in water (kdiff ? 5,00x109 L/mol), indicating that there is formation of complex between albumin and biologically active molecules in the ground state (for the sample PIA we confirmed this data with time resolved fluorescence experiments). For t-DCTN and LF-B beyond the static mechanism it was observed the presence of dynamic fluorescence quenching mechanism. Finally, for PF and PIA F?rster theory shows that the energy transfer between the fluorophore and the quenchers can occurs with high probability. The thermodynamic values for Gibbs? free energy are in accordance with the spontaneity of the association, for all the samples. Thermodynamic parameters ?H? and ?S? provided evidence of the main intermolecular interactions in the association. The samples 18-FP, t-DCTN, LF-B, PIA, ?-lap, BZL and MTZ interact with albumin by hydrogen bonding and hydrophobic interactions. On the other hand, PF and MZ interact by hydrogen bonding and electrostatic forces. The number of binding sites shows that there is only one main cavity of the protein to the interaction. For 18-PF, PF and LF-B the binding is weak, for t-DCTN the binding is moderate and for PIA, ?-lap, BZL, MTZ and MZ the binding is strong. Circular dichroism results show that upon binding of samples with the albumin there are no significant perturbations on the secondary structure of the protein. Theoretical calculations by molecular docking are in full agreement with the spectroscopic results / As intera??es entre albumina s?rica humana (ASH) com 18-FP, BZL, MTZ e MZ e entre albumina s?rica bovina (ASB) com t-DCTN, PF, LF-B, PIA e ?-lap foram estudadas por t?cnicas espectrosc?picas (absor??o molecular no UV-Vis, dicro?smo circular, emiss?o de fluoresc?ncia no estado estacion?rio e com resolu??o temporal) sobre condi??es fisiol?gicas. C?lculos te?ricos por ancoramento molecular (do ingl?s molecular docking) foram executados para complementa??o dos dados experimentais e dessa forma obter resultados mais precisos. Os resultados obtidos para as constantes de velocidade de supress?o de fluoresc?ncia das albuminas (kq) s?o maiores do que a velocidade de difus?o em ?gua (kdiff ? 5,00x109 L/mols), indicando que h? forma??o de um complexo no estado fundamental entre as albuminas com as mol?culas biologicamente ativas (para amostra PIA tal dado foi confirmado com a fluoresc?ncia resolvida no tempo). Para as amostras t-DCTN e LF-B al?m do mecanismo est?tico foi observado ? presen?a do mecanismo din?mico e j? para as amostras PF e PIA o c?lculo de F?rster mostra alta probabilidade de ocorr?ncia de transfer?ncia de energia entre o fluor?foro e os supressores. Os valores termodin?micos de energia livre de Gibbs, calculados para todas as amostras est?o de acordo com a espontaneidade da associa??o. Par?metros termodin?micos de ?H? e ?S? forneceram ind?cios das principais intera??es intermoleculares na associa??o. As amostras 18-FP, t-DCTN, LF-B, PIA, ?-lap, BZL e MTZ associam com a albumina via liga??o de hidrog?nio e intera??es hidrof?bicas e j? PF e MZ por liga??o de hidrog?nio e intera??es eletrost?ticas. O n?mero de s?tios de liga??o para todas as amostras indicam que h? apenas uma principal cavidade da prote?na para a associa??o das mol?culas estudadas, sendo que essa associa??o ? moderada para 18-FP, PF e LF-B, fraca para t-DCTN e forte para PIA, ?-lap, BZL, MTZ e MZ. Estudos de dicro?smo circular demonstram que n?o h? perturba??es significativas na estrutura secund?ria da albumina com a associa??o. C?lculos te?ricos via ancoramento molecular est?o em total acordo com os resultados espectrosc?picos
55

Molecular Docking, Synthesis and Evaluation of Pyrrolo[2,1-c][1,4]benzodiazepines Derivatives as Non-β-lactam β-lactamases Inhibitors

Osazee, Joseph Osamudiamen 01 August 2016 (has links)
Our research aim was to design, synthesize, and study the competitive enzyme inhibition kinetics of pyrrolo[2,1-c][1,4]benzodiazepine (PBD) derivatives as potential non-²-lactam ²-lactamase inhibitors. All compounds (1-13) passed the Lipinski’s rule of 5 test and were docked into the active site of TEM-1 ²-lactamase. PBD derivatives 1-7 were synthesized in high yields and tested for their potency against TEM-1 and P99 ²-lactamases. Kinetic data showed that compounds 1, 4, 5, and 7 possessed inhibitory activity against TEM-1 ranging from 4-34 %. Docking results revealed significant interactive spanning of the active site of TEM-1 by PBDs. The limited inhibitory activity of the compounds, 1-7 could be attributed to the lack of solubility and bulky nature of the molecules, thus limiting the optimal ligand-enzyme interactions. 1,2,4- Oxadiazolinones (8-13) were further synthesized to reduce the steric hindrance of the PBD scaffolds while promoting the electrophilicity of the potentially active lactam and also evaluated for potency.
56

Computer-Aided Structure-Based Drug Discovery: CXCL12, <em>P. aeruginosa</em> LpxA, and the Tiam1 PDZ Domain

Smith, Emmanuel William 10 November 2014 (has links)
For structure-based drug discovery, structural information of a target protein is necessary. NMR, or X-ray crystallography can provide necessary information on active site configuration that can lead a successful virtual screening campaign into identifying binders that may then be optimized into potent inhibitors. However, many challenges exist in the structure-based drug discovery cycle. For instance, structure determination of a protein of interest can many times be a daunting task. In addition, complex structure determination, which can allow essential characterization of protein-ligand interactions, is also challenging and many times impossible. Virtual screening heavily relies on such structural information, but hit-to-lead optimization schemes do as well. Furthermore, inherent protein characteristics such as conformational flexibility only add to the complexities in using structural information to identifying and optimizing inhibitors. In the scope of the work presented here, a structure-based drug discovery approach against three different protein targets is described. Each is presented with it's own set of challenges, but each has successfully led to the identification of new ligands. The drug discovery project against CXCL12 will first be described. CXCL12 is a small chemokine (~10KDa) that binds to the CXCR4 receptor promoting chemotaxis of lymphocytes but also metastasis of cancer cells. This interaction is further supported by sulfated tyrosines on CXCR4 that bind specific sites on the CXCL12 surface. The CXCL12-CXCR4 signaling axis has been a major focus of drug discovery, but efforts are mainly focused on CXCR4, since CXCL12 is a small protein lacking surface characteristics that are thought to be druggable. Yet, through a combination of rigid, flexible, and ensemble docking in virtual screening studies, we have successfully identified compounds that bind each of the three sulfotyrosine recognition sites on CXCL12, which normally bind the sulfated tyrosines on CXCR4 (sY7, sY12, and sY21). Furthermore, we have led a hit-to-lead approach in optimizing compounds against the sY21-binding site, aided by trivial information gained through crystallographic complex structure determination of CXCL12 bound by such a compound. We aim to eventually link compounds against different sites together and greatly improve potency. Next, the drug discovery project against P. aeruginosa LpxA will be described. In Gram-negative bacteria, the first step of lipid A biosynthesis is catalyzed by UDP-N-acetylglucosamine acyltrasferase (LpxA) through the transfer of a R-3-hydroxyacyl chain from the acyl carrier protein (ACP) to the 3'-hydroxyl group of UDP-GlcNAc. Acyl chain length selectivity varies between species of bacteria, but is highly specific and conserved within certain species. In E. coli and L. interrogans for example, LpxA is highly selective for longer R-3-hydroxyacil chains (C14 and C12 respectively), while in P. aeruginosa the enzyme is highly selective for R-3-hydroxydecanoyl, a 10-hydrocarbon long acyl chain. Three P. aeruginosa LpxA crystal structures will be described here for the first time; the apo form, the complex with its substrate UDP-GlcNAc, and the complex with its product UDP-3-O-(R-3-hydroxydecanoyl)-GlcNAc. A comparison between the APO form and complexes identifies key residues that position UDP-GlcNAc appropriately for catalysis, and supports the role of His121 in generating the nucleophile by interacting with the UDP-GlcNAc 3'-hydroxyl group. Furthermore, the product-complex structure supports the role of Met169 as the "hydrocarbon ruler", providing structural information on how P. aeruginosa LpxA is granted its exceptional selectivity for the 10-hydrocarbon long acyl chain. Structural information of the active site was subsequently used in designing virtual screening experiments that led to the identification of two ligands, confirmed by X-ray crystallography screening to bind to the active site. We aim to continue application of X-ray crystallography into screening compound binding, and to also use a hit-to-lead approach in compound optimization. Finally, the drug discovery project against the Tiam1 PDZ domain will be described. Tiam1 (T-cell lymphoma invasion and metastasis gene 1) is a GEF (guanine exchange factor) protein that activates Rac1 and initiates tumor formation. Tiam1 is regulated through its PDZ domain, which binds to syndecan1. We have successfully applied a virtual screening strategy to an existing crystallographic structure of the Tiam1 PDZ domain complexed to a syndecan1 peptide and identified four ligands that bind to the PDZ domain with low affinities. These compounds provide a starting point for future hit-to-lead optimization strategies.
57

Determinação de ácidos triterpênicos na casca de Malus x domestica e avaliação do potencial de seus derivados semissintéticos como inibidores da Ca2+-ATPase (PfATP6)

Lopes, Andréia Cristina Wildner Campos January 2017 (has links)
Esta tese alia dois enfoques principais dentro da Química Farmacêutica. Por um lado, busca explorar uma nova fonte de insumos naturais, cascas de Malus  domestica, com vistas a obtenção dos triterpenos ácidos ursólico (AU) e betulínico (AB); e por outro lado, estuda a relação dos derivados triterpênicos semissintéticos obtidos com a proteína-alvo (PfATP6) destacada atualmente na literatura da terapia da malária com vistas ao planejamento de novos antimaláricos. O primeiro Capítulo inclui o desenvolvimento de um método eficiente, fácil e extremamente rápido onde são combinadas as técnicas de extração por ultrassom (UAE) e análise por Cromatografia Líquida de Alta Eficiência Acoplada a Detector de Espectroscopia de Massas (LC-MS), para identificação e doseamento dos ácidos ursólico (AU) e betulínico (BA) em extratos de cascas frescas de maçã de cinco clones das cultivares Gala e Fuji (“Baigent”, “Fuji Mishima”, “Fuji Suprema”, “Fuji Select” and “Maxi Gala”) oriundas da Região Sul do Brasil. Os parâmetros cromatográficos do método analítico incluem: ionização por eletro spray em modo positivo (ESI+), fluxo de 1,0 mL/min, em modo de eluição isocrático, consistindo de 80% acetonitrila e 20% acetato de amônio 10 mM em pH 6,0 e temperatura ambiente. O método desenvolvido foi validado e mostrou ser seletivo, sensível (LOD e LOQ de 0,087 e 0,266 μg/mL para BA, e 0,398 e 2,117 μg/ mL para UA), coeficiente de regressão linear (r >0.99), preciso, exato e robusto para os analitos de interesse. A otimização do método combinado de UAE com LC-MS permitiu concluir os procedimentos de extração e análise em tempo inferior a 4 h, uma vez que o método não requer a secagem da amostra, etapa que demanda longos tempos de processamento. Este método foi aplicado e forneceu a primeira caracterização fitoquímica dos cinco clones de maçã estudados. Os resultados demonstraram que o método combinado de UAE-LC-MS é adequado às práticas do controle de qualidade. O segundo Capítulo apresenta o estudo da interação dos ligantes semissintéticos derivados dos AU e AB, sintetizados pelo nosso grupo de pesquisa, com a proteína Ca2+-ATPase do Plasmodium falciparum (PfATP6), através do emprego da técnica de Docking Molecular. A PfATP6 é descrita como um importante alvo para novos antimaláricos como Artemisinina (ART), cujo mecanismo de ação inclui, dentre outros, a modulação da homeostasia do cálcio intracelular. Investigações conduziram à hipótese do extravasamento do cálcio, do interior do retículo sarco-endoplasmático como mecanismo plausível para ação dos derivados triterpênicos do AU e AB. Os escores de energia determinados no Docking, de cada um dos nove ligantes (derivados triterpênicos) e quatro compostos de controle (ácidos ursólico e betulínico, artemisinina (ART) e tapsigargina (TPG) foram determinados (análises realizadas em triplicata) e correlacionados com os valores de IC50, para a atividade antimalárica. Os resultados mostraram excelente correlação entre os escores de energia (com a PfATP6) e os valores de IC50, superior a 80% (r > 0,83360). O estudo fornece fortes evidências de que a PfATP6 pode constituir um alvo para os derivados pentacíclicos do estudo, bem como permitiu identificar o perfil conformacional dos ligantes e os principais resíduos do sítio de ligação (SL) da PfATP6 envolvidos nas interações; bem como, contribuiu para a melhor compreensão das propriedades envolvidas na interação do ligante com o receptor e mecanismo de ação. O terceiro Capítulo faz uso de Métodos Clássicos e Quânticos para descrever as mudanças conformacionais da proteína PfATP6. As simulações de Dinâmica Molecular do receptor na forma isolada e complexada com os ligantes foram realizadas durante 10 ns. As conformações finais obtidas para os receptores foram avaliadas em termos RMSD, efeito da presença dos ligantes no sítio de ligação e tipos de interações estabelecidas entre o ligante e o receptor. Os resultados mostraram que as proteínas PfATP6 e SERCA tendem a manter sua conformação nativa e que o modelo utilizado é adequado aos propósitos do estudo. O monitoramento dos resíduos da região citoplasmática das proteínas permitiu evidenciar o efeito alostérico da presença dos ligantes AU e ART no SL, sobre os domínios A e N, da PfATP6. Esse efeito reproduz as conformações E1 e E2, bem estabelecidas para PfATP6, na presença e ausência de Ca2+. As análises de Dinâmica Molecular corroboram os achados do Capítulo II ao evidenciarem o estabelecimento de interações de hidrogênio com os resíduos importantes do SL da PfATP6. Esses resultados fundamentam os indícios de que as bombas de Ca2+-ATPase (SERCA), possam ser de fato, um alvo para os derivados triterpênicos dos AU e AB. / This thesis combines two main focuses within Pharmaceutical Chemistry. On the one hand, it seeks to explore a new source of natural inputs, bark of Malus domestica, in order to obtain ursolic (UA) and betulinic acid (BA) triterpenes. On the other hand, it studies the relation of the semi-synthetic triterpenic derivatives obtained with the target proteins (PfATP6), currently highlighted in the literature on malaria therapy with a view to planning new antimalarial drugs. The first chapter includes the development of an efficient, easy and extremely fast method where ultrasonic extraction techniques (UAE) and high-performance liquid chromatography coupled to mass spectroscopy (LC-MS) are combined for identification and assay of ursolic acid (UA) and betulinic acid (BA) in fresh apple peel extracts from five clones of the Gala and Fuji cultivars (Baigent, Fuji Mishima, Fuji Suprema, Fuji Select and Maxi Gala ") in the Southern Region of Brazil. Chromatographic parameters of the analytical method include: electrospray ionization (ESI +), flow rate of 1.0 mL/min in isocratic elution mode, consisting of 80% acetonitrile and 20% 10 mM ammonium acetate at pH 6.0 and room temperature. The method was validated and proved to be selective, sensitive (LOD and LOQ of 0.087 and 0.266 μg/mL for BA, and 0.398 and 2.117 μg/mL for UA), linear regression coefficient (r> 0.99), accurate, robust for analytes of interest. The optimization of the combined method of UAE with LC-MS allowed to complete the procedures of extraction and analysis in less than 4 h, since the method does not require drying the sample, a stage that demands long processing times. This method was applied and provided the first phytochemical characterization of the five apple clones studied. The results demonstrated that the combined UAE-LC-MS method is suitable for quality control practices. The second chapter presents the study of the interaction of the semi-synthetic ligands derived from the UA and BA, synthesized by our research group, with the Plasmodium falciparum Ca2+-ATPase protein (PfATP6), using the Molecular Docking technique. PfATP6 is described as an important target for new antimalarials such as Artemisinin (ART), whose action mechanism includes, among others, the modulation of intracellular calcium homeostasis. Investigations led to the hypothesis of extravasation of calcium from the interior of the sarco-endoplasmic reticulum as a plausible mechanism for the action of the triterpenic derivatives of UA and BA. The Docking energy scores (binding energy) of each of the nine ligands (triterpenic derivatives) and four control compounds (ursolic and betulinic acids, artemisinin (ART) and tapsigargine (TPG)) with PfATP6, were calculated (analyses performed in triplicate) and correlated with its antimalarial IC50 value. The results showed an excellent correlation between energy scores (with PfATP6) and IC50 values, higher than 80% (r > 0.83360). The study supplies strong evidence that PfATP6 may be a target for the pentacyclic derivatives of the study, and also allowed identifying the conformational profile of the ligands and the main residues of the PfATP6 binding site (BS) involved in the interactions. It further contributed to a better understanding of the properties involved in the interaction of the ligand with the receptor and its action mechanism. The third chapter uses Classical and Quantum Methods to describe the conformational changes of the PfATP6 protein. The Molecular Dynamics simulations of the receptor in the isolated and complexed form with the ligands were performed for 10 ns. The final conformations obtained for the receptors were evaluated in RMSD terms, effect of the presence of ligands at the binding site and types of interactions established between the ligand and the receptor. The results showed that the PfATP6 and SERCA proteins tend to maintain their native conformations and that the model used is adequate for the purposes of the study. The monitoring of the residues of the cytoplasmic region of the proteins allowed evidencing the allosteric effect of the presence of UA and ART ligands in BS, on the A- and N-domains of PfATP6. This effect reproduces the well-established E1 and E2 conformations for PfATP6, in the presence and absence of Ca2+, respectively. Molecular Dynamics analyses corroborate the findings of Chapter II, by showing the possibility of establishing hydrogen interactions with the important residues of PfATP6 BS. These results support the evidence that Ca2+-ATPase (SERCA) pumps may be a target for the triterpenic derivatives of UA and BA.
58

Determinação de ácidos triterpênicos na casca de Malus x domestica e avaliação do potencial de seus derivados semissintéticos como inibidores da Ca2+-ATPase (PfATP6)

Lopes, Andréia Cristina Wildner Campos January 2017 (has links)
Esta tese alia dois enfoques principais dentro da Química Farmacêutica. Por um lado, busca explorar uma nova fonte de insumos naturais, cascas de Malus  domestica, com vistas a obtenção dos triterpenos ácidos ursólico (AU) e betulínico (AB); e por outro lado, estuda a relação dos derivados triterpênicos semissintéticos obtidos com a proteína-alvo (PfATP6) destacada atualmente na literatura da terapia da malária com vistas ao planejamento de novos antimaláricos. O primeiro Capítulo inclui o desenvolvimento de um método eficiente, fácil e extremamente rápido onde são combinadas as técnicas de extração por ultrassom (UAE) e análise por Cromatografia Líquida de Alta Eficiência Acoplada a Detector de Espectroscopia de Massas (LC-MS), para identificação e doseamento dos ácidos ursólico (AU) e betulínico (BA) em extratos de cascas frescas de maçã de cinco clones das cultivares Gala e Fuji (“Baigent”, “Fuji Mishima”, “Fuji Suprema”, “Fuji Select” and “Maxi Gala”) oriundas da Região Sul do Brasil. Os parâmetros cromatográficos do método analítico incluem: ionização por eletro spray em modo positivo (ESI+), fluxo de 1,0 mL/min, em modo de eluição isocrático, consistindo de 80% acetonitrila e 20% acetato de amônio 10 mM em pH 6,0 e temperatura ambiente. O método desenvolvido foi validado e mostrou ser seletivo, sensível (LOD e LOQ de 0,087 e 0,266 μg/mL para BA, e 0,398 e 2,117 μg/ mL para UA), coeficiente de regressão linear (r >0.99), preciso, exato e robusto para os analitos de interesse. A otimização do método combinado de UAE com LC-MS permitiu concluir os procedimentos de extração e análise em tempo inferior a 4 h, uma vez que o método não requer a secagem da amostra, etapa que demanda longos tempos de processamento. Este método foi aplicado e forneceu a primeira caracterização fitoquímica dos cinco clones de maçã estudados. Os resultados demonstraram que o método combinado de UAE-LC-MS é adequado às práticas do controle de qualidade. O segundo Capítulo apresenta o estudo da interação dos ligantes semissintéticos derivados dos AU e AB, sintetizados pelo nosso grupo de pesquisa, com a proteína Ca2+-ATPase do Plasmodium falciparum (PfATP6), através do emprego da técnica de Docking Molecular. A PfATP6 é descrita como um importante alvo para novos antimaláricos como Artemisinina (ART), cujo mecanismo de ação inclui, dentre outros, a modulação da homeostasia do cálcio intracelular. Investigações conduziram à hipótese do extravasamento do cálcio, do interior do retículo sarco-endoplasmático como mecanismo plausível para ação dos derivados triterpênicos do AU e AB. Os escores de energia determinados no Docking, de cada um dos nove ligantes (derivados triterpênicos) e quatro compostos de controle (ácidos ursólico e betulínico, artemisinina (ART) e tapsigargina (TPG) foram determinados (análises realizadas em triplicata) e correlacionados com os valores de IC50, para a atividade antimalárica. Os resultados mostraram excelente correlação entre os escores de energia (com a PfATP6) e os valores de IC50, superior a 80% (r > 0,83360). O estudo fornece fortes evidências de que a PfATP6 pode constituir um alvo para os derivados pentacíclicos do estudo, bem como permitiu identificar o perfil conformacional dos ligantes e os principais resíduos do sítio de ligação (SL) da PfATP6 envolvidos nas interações; bem como, contribuiu para a melhor compreensão das propriedades envolvidas na interação do ligante com o receptor e mecanismo de ação. O terceiro Capítulo faz uso de Métodos Clássicos e Quânticos para descrever as mudanças conformacionais da proteína PfATP6. As simulações de Dinâmica Molecular do receptor na forma isolada e complexada com os ligantes foram realizadas durante 10 ns. As conformações finais obtidas para os receptores foram avaliadas em termos RMSD, efeito da presença dos ligantes no sítio de ligação e tipos de interações estabelecidas entre o ligante e o receptor. Os resultados mostraram que as proteínas PfATP6 e SERCA tendem a manter sua conformação nativa e que o modelo utilizado é adequado aos propósitos do estudo. O monitoramento dos resíduos da região citoplasmática das proteínas permitiu evidenciar o efeito alostérico da presença dos ligantes AU e ART no SL, sobre os domínios A e N, da PfATP6. Esse efeito reproduz as conformações E1 e E2, bem estabelecidas para PfATP6, na presença e ausência de Ca2+. As análises de Dinâmica Molecular corroboram os achados do Capítulo II ao evidenciarem o estabelecimento de interações de hidrogênio com os resíduos importantes do SL da PfATP6. Esses resultados fundamentam os indícios de que as bombas de Ca2+-ATPase (SERCA), possam ser de fato, um alvo para os derivados triterpênicos dos AU e AB. / This thesis combines two main focuses within Pharmaceutical Chemistry. On the one hand, it seeks to explore a new source of natural inputs, bark of Malus domestica, in order to obtain ursolic (UA) and betulinic acid (BA) triterpenes. On the other hand, it studies the relation of the semi-synthetic triterpenic derivatives obtained with the target proteins (PfATP6), currently highlighted in the literature on malaria therapy with a view to planning new antimalarial drugs. The first chapter includes the development of an efficient, easy and extremely fast method where ultrasonic extraction techniques (UAE) and high-performance liquid chromatography coupled to mass spectroscopy (LC-MS) are combined for identification and assay of ursolic acid (UA) and betulinic acid (BA) in fresh apple peel extracts from five clones of the Gala and Fuji cultivars (Baigent, Fuji Mishima, Fuji Suprema, Fuji Select and Maxi Gala ") in the Southern Region of Brazil. Chromatographic parameters of the analytical method include: electrospray ionization (ESI +), flow rate of 1.0 mL/min in isocratic elution mode, consisting of 80% acetonitrile and 20% 10 mM ammonium acetate at pH 6.0 and room temperature. The method was validated and proved to be selective, sensitive (LOD and LOQ of 0.087 and 0.266 μg/mL for BA, and 0.398 and 2.117 μg/mL for UA), linear regression coefficient (r> 0.99), accurate, robust for analytes of interest. The optimization of the combined method of UAE with LC-MS allowed to complete the procedures of extraction and analysis in less than 4 h, since the method does not require drying the sample, a stage that demands long processing times. This method was applied and provided the first phytochemical characterization of the five apple clones studied. The results demonstrated that the combined UAE-LC-MS method is suitable for quality control practices. The second chapter presents the study of the interaction of the semi-synthetic ligands derived from the UA and BA, synthesized by our research group, with the Plasmodium falciparum Ca2+-ATPase protein (PfATP6), using the Molecular Docking technique. PfATP6 is described as an important target for new antimalarials such as Artemisinin (ART), whose action mechanism includes, among others, the modulation of intracellular calcium homeostasis. Investigations led to the hypothesis of extravasation of calcium from the interior of the sarco-endoplasmic reticulum as a plausible mechanism for the action of the triterpenic derivatives of UA and BA. The Docking energy scores (binding energy) of each of the nine ligands (triterpenic derivatives) and four control compounds (ursolic and betulinic acids, artemisinin (ART) and tapsigargine (TPG)) with PfATP6, were calculated (analyses performed in triplicate) and correlated with its antimalarial IC50 value. The results showed an excellent correlation between energy scores (with PfATP6) and IC50 values, higher than 80% (r > 0.83360). The study supplies strong evidence that PfATP6 may be a target for the pentacyclic derivatives of the study, and also allowed identifying the conformational profile of the ligands and the main residues of the PfATP6 binding site (BS) involved in the interactions. It further contributed to a better understanding of the properties involved in the interaction of the ligand with the receptor and its action mechanism. The third chapter uses Classical and Quantum Methods to describe the conformational changes of the PfATP6 protein. The Molecular Dynamics simulations of the receptor in the isolated and complexed form with the ligands were performed for 10 ns. The final conformations obtained for the receptors were evaluated in RMSD terms, effect of the presence of ligands at the binding site and types of interactions established between the ligand and the receptor. The results showed that the PfATP6 and SERCA proteins tend to maintain their native conformations and that the model used is adequate for the purposes of the study. The monitoring of the residues of the cytoplasmic region of the proteins allowed evidencing the allosteric effect of the presence of UA and ART ligands in BS, on the A- and N-domains of PfATP6. This effect reproduces the well-established E1 and E2 conformations for PfATP6, in the presence and absence of Ca2+, respectively. Molecular Dynamics analyses corroborate the findings of Chapter II, by showing the possibility of establishing hydrogen interactions with the important residues of PfATP6 BS. These results support the evidence that Ca2+-ATPase (SERCA) pumps may be a target for the triterpenic derivatives of UA and BA.
59

Estudo computacional dos efeitos farmacológicos das miotoxinas Lys49 de serpentes (Familia:Viperidae): modelos moleculares para citotoxidade e miotoxidade

Gomes, Antoniel Augusto Severo 14 August 2014 (has links)
Made available in DSpace on 2015-04-01T14:16:06Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 6645115 bytes, checksum: deca0339070b70563febd2b8fada82ec (MD5) Previous issue date: 2014-08-14 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Snakebites are and global endemic problem and the study of its components is important to understand and prevent them. Among its components, phospholipase A2 have been strongly studies as Lys49 myotoxins. However, understanding the molecular mechanisms of its pharmacological effects remains controversial until now. This work studied the Lys49 myotoxins pharmacological structural determinants, emphasizing cytotoxic and myotoxic effects. Protein sequence analysis as well as molecular docking with myotoxin Bn IV and VEGFR-II receptor and different anionic molecules, such as phosphate, heparin and lipopolysaccharide were performed. Sequence analyses showed defied regions within Lys49 myotoxins group, especially cationic regions. In accordance with this, molecular dockings performed in this work observed the presence of anionic non-specific sites, also a heparin recognition site. Molecular dockings between myotoxin Bn IV and VEGFR-II were satisfactory and indicated C-terminal tail as an important interactive region. Our results determine cationic regions as important for cytotoxic effects and bring a new molecular approach to the myotoxic effects, via VEGFR-II. In additional, molecular cytotoxic and myotoxic models for myotoxic Lys49 were presented / Acidentes ofídicos constituem um problema endêmico global, e o estudo de seus componentes é importante para compreender e preveni-los. Dentre seus componentes, fosfolipases A2 têm sido fortemente estudadas, bem como as miotoxinas Lys49. Contudo, o entendimento dos mecanismos moleculares que promovem seus efeitos farmacológicos permanece controverso até hoje. O presente trabalho buscou estudar os determinantes estruturais dos efeitos farmacológicos das miotoxinas Lys49, enfaticamente seus efeitos citotóxicos e miotóxicos. Foram realizados testes de análise de sequências entre tais proteínas, bem como dockings moleculares entre a miotoxina Bn IV e o VEGFR-II e diferentes moléculas aniônicas, como fosfato, heparina e lipopolissacarídeo. As análises das sequências apresentaram regiões bem definidas dentro do grupo das miotoxinas Lys49, notadamente regiões catiônicas. Em concordância com isto, os dockings moleculares realizados neste trabalho apontam para a presença de um sítio não-específico para cargas aniônicas, bem como um sítio de reconhecimento para heparina. Já os dockings moleculares entre a miotoxina Bn IV e o VEGFR-II foram satisfatórias e apontaram a cauda C-terminal como uma importante região de interação. Tais resultados determinam regiões catiônicas importantes para a realização dos efeitos citotóxicos, através do reconhecimento de fosfolipídios aniônicos, e trazem uma nova abordagem molecular para os efeitos miotóxicos, via VEGFR-II. Além disso, são apresentados modelos moleculares para os efeitos citotóxicos e miotóxicos das miotoxinas Lys49
60

Structure Based Drug Design Targeting Bacterial Antibiotic Resistance and Alzheimer's Disease

Lewandowski, Eric Michael 13 October 2015 (has links)
Structure based drug design is a rapidly advancing discipline that examines how protein targets structurally interact with small molecules, or known inhibitors, and then uses this information to lead inhibitor optimization efforts. In the case of novel inhibitors, protein structural information is first obtained via X-ray crystallography, NMR studies, or a combination of both approaches. Then, computational molecular docking is often used to screen, in silico, millions of small molecules and calculate the potential interactions they may have with the target protein’s binding pocket, in hopes of identifying novel low affinity inhibitors. By examining the interactions these small, low affinity, inhibitors have with the binding pocket, optimization efforts can be focused on maximizing interactions with “hot spots” within the pocket, thus leading to larger, high affinity inhibitors. A similar optimization technique can also be applied to known inhibitors. By examining the interactions of a known inhibitor with the binding site, new compounds can be designed to target “hot spots” in the binding pocket using the known inhibitors core structure as a starting point. The affinity of the newly designed compounds can then be compared to the affinity of the original inhibitor, and further rounds of optimization can be carried out. While simple in design, there are many challenges associated with structure based drug design studies, and there is no guarantee novel inhibitors will be found, but ultimately, it is an extremely powerful methodology that results in a much higher hit rate than other, similar, techniques. The work herein describes the use of structure based drug design to target several different proteins involved in bacterial antibiotic resistance, and a protein that has been implicated in the development of Alzheimer’s disease. The goal of the first project was to design a new PBP inhibitor based upon an existing scaffold, and to better understand the binding mechanism and molecular interactions between penicillin binding proteins and their inhibitors. PBPs are a group of proteins that catalyze the last steps of bacterial cell wall formation, and are the targets of the β-lactam antibiotics. Two compounds were designed which conjugated a ferrocene or ruthenocene group to 6-aminopenicillinic acid, and their antibiotic properties were tested against a range of bacterial strains. To get a better understanding of how the 6-APA organometallic compounds interacted with the PBP active site, a CTX-M-14 β-lactamase model system was used for X-ray crystallographic studies. CTX-M-14 was chosen as its active site shares many key catalytic features with PBPs, and it easily, and reproducibly, yields crystals capable of diffracting to sub-atomic (< 1.0 Å) resolution. I determined a 1.18 Å structure of 6-APA-Ru in complex with CTX-M-14 E166A β-lactamase and was able to gain unprecedented details of the interactions of the ruthenocene group with the CTX-M active site. This structure also revealed that the compound bound in the CTX-M active site was actually the decarboxylated and hydrolyzed product, which was the first time a decarboxylated product had been captured in the CTX-M active site. A second, 0.85 Å, structure of CTX-M in complex with 6-APA-Ru was determined and shed light on how the hydrogen bonding network in the CTX-M active site changes in response to the 6-APA-Ru product binding. A final, 1.30 Å, structure captured the carboxylated and hydrolyzed 6-APA-Ru product in complex with CTX-M, which was the first time the carboxylated product had been captured in the CTX-M active with the catalytic Ser70 residue intact. The results show the potential of the ruthenocene group in improving antibiotic potency, and help to better elucidate the changes that occur in the CTX-M active site upon inhibitor binding, while at the same time, telling us what changes could occur in the active site of PBPs. The next project was focused on novel inhibitor discovery against several different PBPs. PBPs have been successfully inhibited by β-lactam antibiotics for decades, but the alarming rise of bacteria resistant to these antibiotics has placed increased urgency on the discovery of novel PBP inhibitors. A fragment based molecular docking approach was employed to virtually screen millions of small compounds for interactions with the targeted active sites, and then high scoring compounds were selected for visual inspection and inhibitory testing. Virtual screening was first done against Staphylococcus aureus monofunctional transglycosylase, a type of PBP. MTG provided a good binding pocket for virtual screening, but proved challenging to purify and crystallize. However, through great effort MTG crystals were eventually obtained. After repeated rounds of virtual screening against MTG, multiple compounds were selected for inhibition testing, and testing is currently ongoing. Virtual screening was also done against Pseudomonas aeruginosa PBP5 and PBP1a. Purification and crystallization of these proteins proved to be easier than MTG, and both yielded diffraction quality crystals. The final project focused on virtual screening against a protein implicated in the development of Alzheimer’s disease, Slingshot Phosphatase 1. The brains of AD patients have been found to contain elevated levels of active Cofilin, and these elevated levels of active Cofilin may lead to the overproduction of amyloid β. Aβ overproduction, and its resulting accumulation, is believed to be one of the pathways that lead to AD symptoms. Cofilin is activated when it is dephosphorylated by SSH1, and inhibiting this activation may decrease the production of Aβ and the development of AD symptoms. There is no known structure of SSH1, so to perform virtual screening a SSH1 homology model was constructed using the homolog SSH2 as a starting point. Virtual screening was then performed using the SSH1 homology model and many compounds were selected for inhibition testing. Initial testing found several compounds that could prevent Cofilin dephosphorylation at levels > 10μM. However, three compounds were found to be exceptionally active, and could prevent Cofilin dephosphorylation at both 1 and 10 μM. One of these three compounds was tested directly against purified SSH1 and found to inhibit its activity, and reduce Aβ production. Crystallization of purified SSH1, and SSH2, was attempted in order to get complex structures with the three best compounds. SSH2 crystals were obtained which diffracted to 1.91 Å, and several initial hits were found for SSH1. Optimization of crystals for both proteins is currently ongoing. The SSH1 inhibitor, along with the two other highly active compounds, provides an excellent starting point for the development of highly potent SSH1 inhibitors.

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