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181	Inibidores de Cisteíno Proteases como Candidatos Terapêuticos para o Tratamento de Doenças Parasitárias / Cysteine Protease Inhibitors as Therapeutic Candidates for the Treatment of Parasitic Diseases Jean Francisco Rosa Ribeiro 25 June 2018 (has links) <p align=\"justify\">A necessidade urgente de descoberta de terapias mais seguras e eficazes para o tratamento da doença de Chagas e leishmanioses tem motivado a pesquisa por novos inibidores das enzimas cruzaína e CPB, as principais cisteíno proteases do T. cruzie e Leishmania spp., respectivamente. Uma série de 52 compostos nitrílicos que atuam como inibidores covalente-reversíveis de cisteíno proteases foi sintetizada no grupo NEQUIMED/IQSC/USP e avaliada quanto a sua atividade inibitória contra as enzimas cruzaína, CPB de Leishmania mexicana e catepsina L de humanos. Utilizando planejamento molecular baseado em hipótese, mapeamos as relações estrutura-atividade (SARs) desses inibidores através de variações nas posições P1, P2, P3 e P1\' do esqueleto dipeptidil nitrílico. A substituição do grupo eletrofílico (warhead) aminonitrila em P1 pelo grupo azanitrila melhorou a afinidade em duas ordens de magnitude para todos os alvos avaliados. Um dos mais potentes inibidores, o análogo azanitrila Neq0690 mostrou uma cinética de ligação lenta com valores de pKi de 8,8, 9,3 e 9,7 para cruzaína, catepsina L e LmCPB, respectivamente. A substituição bioisostérica da ligação amida entre as posições P2-P3 pelo grupo trifluoroetilamina resultou na síntese do Neq0659, um potente inibidor com um perfil de ação seletivo para as proteases de parasitos. A substituição do grupo metileno em P1 pelo ciclopropano aumentou a afinidade para todas as enzimas. Contudo, uma inibição seletiva da cruzaína e LmCPB foi associada à presença do grupo (R)-benzila como substituinte da posição P1 dos derivados CF3 substituídos. Embora os compostos substituídos com leucina, tirosina, triptofano e 3-cloro fenilalanina como substituintes da posição P2 foram relativamente bem tolerados pela cruzaína e catepsina L, uma restrita especificidade foi verificada para LmCPB com pequenos ganhos de afinidade para os inibidores que possuíam os grupos leucina e metil benzoato como substituintes dessa posição. Com relação à posição P3, a inserção do grupo 3-terc-butilpirazol e 3-bromo piridina aumentou a afinidade para todos os alvos avaliados enquanto que um ganho seletivo para a LmCPB foi observado para os compostos que possuíam o grupo bifenila nessa posição. Além disso, duas novas estruturas cristalográficas da LmCPB complexada com o Neq0690 e metil metanotiossulfonato (MMTS) foram determinadas com resoluções de 1,3 Å e 1,5 Å, respectivamente. As estruturas dos co-complexos revelaram os modos de interação (MoB) desses ligantes, bem como as principais características do processo de reconhecimento bimolecular. Isso permitirá o uso de estratégias de planejamento baseado na estrutura do alvo com translação natural para a pesquisa por novos inibidores de cisteíno proteases, com amplo espectro de ação na quimioterapia de doenças a elas relacionadas. / <p align=\"justify\">The urgent need for the discovery of safer and more effective therapies for the treatment of Chagas disease and leishmaniasis has motivated the search for new inhibitors of the enzymes cruzain and CPB, the major T. cruzi and Leishmania spp. cysteine proteases, respectively. A series of 52 nitrile-containing compounds acting as covalent-reversible inhibitors of cysteine proteases was synthesized at the NEQUIMED/IQSC/USP Medicinal Chemistry Group and evaluated for their inhibitory activity against the enzymes cruzain, Leishmania mexicana CPB and cathepsin L from humans. Using hypothesis-driven molecular design, we mapped the structure-activity relationships (SARs) of these inhibitors through variations in the P1, P2, P3 and P1\' positions of the dipeptidyl nitrile scaffold. The substitution of the aminonitrile by the azanitrile group improved the affinity by two orders of magnitude for all the evaluated targets. One of the most potent inhibitors, the azanitrile analogue dubbed Neq0690 showed a slow-binding kinetics with pKi values of 8.8, 9.3 and 9.7 for cruzain, cathepsin L and LmCPB, respectively. Bioisosteric substitution of the amide moiety between the P2-P3 positions by the trifluoroethylamine group resulted in the synthesis of Neq0659, a potent inhibitor with a selective action profile for parasite proteases. Substitution of the methylene group at P1 by cyclopropane increased the affinity for all enzymes. However, selective inhibition of cruzain and LmCPB was associated with the presence of the (R)-benzyl group as substituent of the P1 position of the substituted CF3 derivatives. Although leucine, tyrosine, tryptophan and 3-chloro phenylalanine substituted compounds as substituents of the P2 position were relatively well tolerated by cruzain and cathepsin L, a restricted specificity was verified for LmCPB with small affinity gains for the inhibitors possessing the leucine and methyl benzoate as substituents of that position. Regarding the P3 position, the insertion of the 3-tert-butylpyrazole and 3-bromo pyridine groups increased the affinity for all evaluated targets whereas a selective gain for LmCPB was observed for the compounds having the biphenyl moiety at that position. In addition, it is noteworthy that two new crystallographic structures of LmCPB complexed with Neq0690 and methyl methanethiosulfonate (MMTS) were determined with resolutions of 1.3 Å and 1.5 Å, respectively. The structures of the co-complexes revealed the modes of binding (MoB) of these ligands, as well as the main characteristics of the bimolecular recognition process. This will allow the natural translational target structure strategies for the search for new inhibitors of cysteine proteases with broad spectrum of action in the chemotherapy of related diseases. câncer cisteíno proteases cristalografia de raios-X cruzaína dipeptidil nitrilas doença de Chagas Leishmanioses LmCPB2.8 cancer Chagas disease cruzain cysteine proteases dipeptidyl nitriles Leishmaniasis LmCPB2.8 X-ray crystallography
182	Identificação de protease(s) endógena(s) de eritrócitos humanos, ativada(s) por esfingomielinases D de venenos de aranhas Loxosceles, envolvidas no fenômeno de hemólise dependente de complemento. / Identification of human erythrocyte endogenous protease(s), triggered by sphingomyelinases D form Loxosceles spiders venom, involved in the phenomenon of complement-dependent hemolysis. Alessandra Veloso de Melo 14 June 2010 (has links) Hemólise intravascular, causada pelo envenenamento por aranhas Loxosceles, é dependente da ação da esfingomielinase D, toxina do veneno que se liga à membrana dos eritrócitos e ativa proteases responsáveis pela clivagem de glicoforinas, tornando as células sensíveis à ação lítica do Sistema Complemento autólogo. O objetivo do estudo foi identificar possíveis proteases envolvidas nesse processo. A toxina foi expressa, purificada e apresentou suas funções biológicas ativas. O tratamento de eritrócitos humanos com a toxina removeu glicoforinas da membrana, não teve ação sobre Kell, CD59, DAF e CR1 e induziu a deposição de C1q, C3, C4, C5b-9, fator B e properdina. O pré-tratamento das células com os inibidores galardina, bestatina e fenantrolina reduziu a hemólise dependente de complemento autólogo. A ativação de proteases das membranas sobre o substrato fluorescente Abz-FRSSR-EDDnp, induzida pela toxina, foi prevenida por PMSF, simvastatina e fenantrolina, sugerindo o envolvimento de metalo- e serinoproteases no modelo de hemólise dependente de complemento estudado. / Intravascular hemolysis caused by poisoning by spiders Loxosceles, is dependent on the sphingomyelinase D action, a toxin that binds to the erythrocytes membrane and activates proteases responsible for the glycophorins cleavage, rendering the cells sensitive to the lytic action of the autologous complement system. This study aimed to identify possible membrane proteases involved in this process. The toxin was expressed, purified and showed to be functionally active. Treatment of human erythrocytes with the toxin caused the removal of the membrane glycophorins, but did not act on Kell, CD59, DAF and CR1 and induced deposition of C1q, C3, C4, C5b-9, factor B and properdin. Pretreatment of cells with inhibitors galardin, phenanthroline and bestatin reduced the complement-dependent hemolysis. The action of membrane proteases upon the fluorescent substrate Abz-FRSSR-EDDnp, induced by the toxin, was prevented by PMSF, simvastatin, and phenanthroline, suggesting the involvement of metallo- and serine proteases in this complement-dependent hemolysis model. Animais peçonhentos Aranhas Loxosceles Esfingomielinases D Glicoforinas Hemólise intravascular Proteases endógenas Sistema Complemento Venenos Loxosceles spiders Complement System Endogenous proteases Glycophorins Intravascular hemolysis Poisons Sphingomyelinase D Venomous animals
183	Synthesis of Caseinolytic Protease Agonists Towards the Synthesis of the Natural Acyldepsipeptides Cossette, Michele 30 November 2011 (has links) Caseinolytic protease (ClpP) is a cylindrical protease forming the core of protein degradation machinery in eubacteria. ClpP is tightly regulated and is non-functional without a member of the Clp-ATPases. A new class of antibiotics, termed ADEPs, bind to ClpP and allow for activation without the Clp-ATPases; leading to cell death. A more efficient synthetic route to the ADEPs utilizing solid-phase peptide synthesis was investigated. A linear peptide was synthesized, however attempts to close the depsipeptidic macrocycle via macrolactonization failed. Further attempts of assembling a branched depsipeptide for ring closure via a macrolactamization resulted in products that were not stable to cleavage conditions. A group of molecules termed Activators of Self-Compartmentalizing Proteases (ACP) were identified through a screen for activity towards ClpP. Compound ACP1 was synthesized along with twelve analogs and their activity towards ClpP evaluated. The project resulted in a compound with a higher activity than its natural product counterpart. Chemistry Medicinal chemistry ClpP depsipeptide antibiotic caseinolytic protease ACP 0490
184	Interaction Characteristics of Viral Protease Targets and Inhibitors : Perspectives for drug discovery and development of model systems Shuman, Cynthia F January 2003 (has links) Viral proteases are important targets for anti-viral drugs. Discovery of protease inhibitors as anti-viral drugs is aided by an understanding of the interactions between viral protease and inhibitors. This thesis addresses the characterization of protease-inhibitor interactions for application to drug discovery and model system development. The choice of a relevant target is essential to molecular interaction studies. Therefore, full-length NS3 protein of hepatitis C virus (HCV) was obtained, providing a more relevant target and a better model for the development of HCV protease inhibitors. In addition, resistance to anti-viral drugs, a serious problem in the treatment of AIDS, prompted the investigation of resistant variants of human immunodeficiency virus (HIV) protease. Drug resistance was initially explored by characterization of the interactions between a series of closely related inhibitors and resistant variants of HIV protease, using an inhibition assay to determine the inhibition dissociation constants (Ki). The relationship between structure, activity and resistance profiles was not clarified, indicating that the effect of structural changes in the inhibitors and the protease are not predictable and must be analyzed case wise. It was proposed that additional kinetic characterization of the interactions was required and a biosensor-based method allowing for determination of affinity, KD, and interaction rate constants, kon and koff, was adopted. The increased physiological relevance of this method was confirmed, and the affinity data have better correlation with cell culture data. In addition, interactions between clinical inhibitors of HIV protease and enzyme variants indicate that increased dissociation rates (koff) are associated with the development of resistance. Thermodynamic characterization of the interactions between HIV-1 protease and clinically relevant inhibitors revealed distinct energetic characteristics for inhibitors. The resolution of the energetics of association and dissociation identified an inhibitor with unique interaction characteristics and confirmed the validity of using this method for further characterization of molecular interactions. This work resulted in the development of model systems for the analysis of kinetics, resistance and thermodynamic characteristics of protein-inhibitor interactions. The results give increased understanding of the biomolecular interactions and can be applied to drug discovery. Biochemistry viral proteases biomolecular interactions kinetics thermodynamics biosensors drug discovery Biokemi Biochemistry and Molecular Biology Biokemi och molekylärbiologi
185	Protease Activity, Inhibition and Ligand Interaction Analysis : Developments and Applications for Drug Discovery Gossas, Thomas January 2007 (has links) The present study has focused on characterising protease-ligand interactions in the context of drug discovery. The proteases that have been studied are human matrix metallopeptidase 12 (MMP-12), HIV-protease and Hepatitis C virus (HCV) NS3/NS4A protease. These studies have involved kinetic characterisation of protease-inhibitor interactions using biosensor technology, as well as determination of inhibition and activity regulation by using activity assays. The regulation of MMP-12 activity by calcium was proposed, based on the study of the calcium dependence of MMP-12 activity. Furthermore, it was shown that the high affinity of hydroxamate-based inhibitors of MMP-12 were due to slow dissociation of the enzyme-inhibitor complex by using a new biosensor assay for the study of interactions between MMP-12 and ligands. A study of the pH-dependency of protease-inhibitor interactions revealed that the interaction kinetics of HIV-protease inhibitors differed with pH in a way that could be related to the inhibitor structures. This suggested that the forces of interaction are different in the association and dissociation phases of an interaction. Furthermore, it demonstrated the usefulness of pH as a variable in characterising protein-ligand interactions. Results applicable in the discovery of drugs against Hepatitis C were obtained, with the analysis of structure-activity relationships of novel inhibitors. Furthermore, the mode of binding imposed by key functional groups of the inhibitors was explored by investigating the effect of pH on the interactions with NS3. The results show the importance of using appropriate model systems for drug discovery by selecting relevant targets and assay conditions. Furthermore, the usefulness of kinetic rate information in drug discovery is demonstrated. Thus, by contributing to the knowledge of protease-ligand interactions, applicable to both protease inhibitor interactions and protease activity regulation, this thesis is expected to have an impact on the field of protease inhibitor development and drug discovery in general. Biochemistry proteases kinetics biosensors inhibition calcium drug discovery Biokemi Biochemistry and Molecular Biology Biokemi och molekylärbiologi
186	DETECTION OF SECRETED PROTEASES AND A MEMBRANE PROTEASE IN PATHOGENIC ACANTHAMOEBA CULBERTSONI Deo, Shivdeep 26 July 2011 (has links) Acanthamoeba culbertsoni (A. culbertsoni) is an amphizoic amoeba that is the causative agent of Granulomatous Amoebic Encephalitis (GAE), an often fatal central nervous system infection that is seen most frequently in severely immunocompromised patients and is characterized by hemorrhagic and necrotic lesions of the brain as well as varying degrees of granuloma formation. A.culbertsoni isolates have also been identified in a few cases of Amoebic Keratitis, a painful, sight-threatening corneal infection that disproportionately affects contact lens users irrespective of immune status. Common features of both infections include amoebic interaction with host extracellular matrix (ECM) components as requisites for both attachment to, and subsequent invasion of, host tissues to facilitate disease establishment. Previous studies have demonstrated that pathogenic species of Acanthamoeba , such as A.culbertsoni, bind to the ECM proteins Laminin-1 and Collagen I to a greater extent than non-pathogenic species. It has also been documented in the literature that secreted Acanthamoeba proteases have the ability to degrade components of the extracellular matrix. The role of amoebic proteases in mediating the attachment and invasion processes is not entirely understood. Initial experiments conducted in the present study revealed secretion of approximately 150 and 55-kDa serine proteases during attachment as well as invasion of the ECM by A. culbertsoni. However, inhibition of these serine proteases using phenylmethylsulfonyl fluoride (PMSF) did not diminish the ability of amoebae to attach or invade. It was demonstrated that secretion of the observed proteases occurred in a constitutive rather than substrate-induced manner and that amoebae secrete these proteases under a number of different conditions. Additionally, a 140-kDa membrane-associated serine protease was identified which may prove to play a role in focal proteolytic degradation. Collectively, our results suggest that attachment to extracellular matrix components is mediated through non-protease-dependent mechanisms. We also suggest that ECM invasion by A.culbertsoni is predominately a mechanical process that may be supplemented or enhanced by focal proteolytic degradation of extracellular matrix components by membrane-associated proteases. Acanthamoeba culbertsoni Amoebae Proteases Amoebic Keratitis Granulomatous Amoebic Encephalitis Medicine and Health Sciences
187	Rekombinantní aspartátové proteasy krev sajících parazitů / Recombinant aspartic proteases of blood-feeding parasites Váchová, Jana January 2010 (has links) The blood fluke Schistosoma mansoni and the hard tick Ixodes ricinus produce an aspartic protease cathepsin D which initiates degradation of hemoglobin, their key nutrient. First, in the presented work, the protocol for refolding and activation of the zymogen of cathepsin D from I. ricinus (IrCatD) was developed and optimized. In acidic pH the propeptide of IrCatD zymogen was removed by an auto-activation mechanism. Further, a kinetic assay with fluorogenic substrates was employed to study functional properties of IrCatD including pH optimum, substrate and inhibition specificities. Second, two isoforms of cathepsin D from S. mansoni (SmCatD) were produced using recombinant expression in E. coli. These recombinant proteases were isolated from inclusion bodies using affinity chromatography under denaturating conditions, and protocol for their refolding was developed and optimized. The studied aspartic proteases are pharmacological targets: inhibitors of SmCatD represent potential chemotherapeutics for the treatment of schistosomiasis, and IrCatD is a candidate antigen for the development of novel anti-tick vaccines.
188	Modulace aktivity HIV-1 proteasy / Modulation of HIV-1 Protease Activity Pokorná, Jana January 2013 (has links) HIV-1 protease plays a crucial role in the late state of the life cycle of HIV virus when it cleaves the viral polyprotein precursors into the structural and functional proteins. If it is effectively inhibited, HIV particles remain immature and noninfectious. The application of highly active antiretroviral therapy (HAART) including protease inhibitors can reduce plasma HIV-1 levels below the detection limit in adherent patients and thus dramatically change their life expectancy. The clinical utility of the first inhibitors was limited by severe side effects, low bioavailability, high pill burdens, and rapid development of viral resistance under the selection pressure of HIV antiretrovirals. To overcome these difficulties, second-generation inhibitors were developed. Despite an indisputable improvement they brought to antiretroviral therapy, the development of new highly active HIV-1 protease inhibitors with optimal pharmacokinetic properties, higher metabolic stability, little off-target activity, and particularly, more favorable resistance profiles is still of high importance. This thesis provides an overview of anti-HIV- drugs including development of substituted metallacarboranes, a new class of potent, unusual, nonpeptidic HIV protease inhibitors with therapeutic potential. Next, the impact of...
189	Génomique et post-génomique du parasite intestinal Blastocystis sp. sous-type 7. Evaluation de son pouvoir pathogène / Genomics and post-genomics of the intestinal parasite Blastocystis ST7. Evaluation of its pathogenic potential Wawrzyniak, Ivan 03 February 2012 (has links) Blastocystis spp. est un Straménopile parasite anaérobie fréquemment rencontré dans le tractus gastro-intestinal de l’homme et de divers animaux. Ce parasite est associé à des troubles gastro‐intestinaux aspécifiques, et semble impliqué dans des désordres fonctionnels tels que le syndrome de l’intestin irritable (IBS). Ce travail de thèse s’appuie sur le séquençage du génome de Blastocystis sp. ST7 réalisé en collaboration avec le Génoscope d’Evry, l’Université Nationale de Singapour, l’Institut Pasteur de Lille et l’Université de Provence. Ce génome est constitué d’un génome nucléaire de 18,8 Mpb pour 6020 gènes, et d’un génome mitochondrial de 29 kpb localisé dans des organites apparentés aux mitochondries. L’analyse de ce génome apporte des informations au niveau de l’évolution de ce microorganisme, de son adaptation à l’environnement intestinal et de ces facteurs de virulence potentiels. En effet, les analyses in silico de ce génome ont montré que Blastocystis sp. ST7 possède plusieurs gènes codant des protéines pouvant agir à l’interface entre l’hôte et le parasite et connues chez d’autres protozoaires pour être impliquées dans des phénomènes de pathogénie. Ce sont en particulier des PKS, des NRPS, et des hydrolases dont des protéases. D’autre part, des activités protéolytiques ont été mises en évidence expérimentalement dans les surnageants de culture du parasite. Deux protéases à cystéines (une cathepsine B et une légumaïne) pouvant être impliquées dans la physiopathologie du parasite, ont été identifiées et caractérisées dans les surnageants, confirmant ainsi nos analyses in silico. Ce travail ouvre de nombreuses pistes intéressantes à explorer pour évaluer l’impact de ce parasite en santé humaine. / Blastocystis spp. is a highly prevalent anaerobic Stramenopile parasite found in the intestinal tract of humans and various animals. This parasite is associated with non specific intestinal disorders, and could be involved in functional disorders such as the irritable bowel syndrome (IBS). In this work, the Blastocystis sp. ST7 genome sequencing project was carried out in collaboration with the Génoscope of Evry, the National University of Singapore, the Pasteur Institute of Lille and the University of Provence. This genome consists in a nuclear genome of 18,8 Mpb encoding 6020 genes, and a mitochondria‐like genome of 29 kpb localised in the mitochondrion‐like organelles. The analysis of this genome brings information about the evolution of this micro‐organism, its adaptation to the intestinal environment and its potential virulence factors. Blastocystis sp. ST7 was predicted to harbor several genes coding proteins that could act at the parasite‐host interface, and that are known to be involved in the pathogeny of many protozoa. They are PKS, NRPS, and hydrolases among them proteases. In addition, proteolytic activities were highlighted in the parasite culture supernatants. Two cysteine proteases (a cathepsin B and a legumain) were identified and characterized from the supernatants and could play a role in the physiopathology of the parasite, that confirm our in silico analyses. This work opens new ways to evaluate the impact of this parasite in human health. Génome Analyse in silico Facteurs de virulence Protéases à cystéine Genome In silico analyses Virulence factors Cysteine proteases
190	Caractérisation fonctionnelle et biochimique des protéases et antiprotéases présentés dans le jaune d'oeuf "gallus gallus". / Fonctional and biochemical characterisation of proteases and antiproteases present in the egg yolk of hen "Gallus gallus" Bourin, Marie 14 December 2011 (has links) Le jaune d’œuf est une source de nutriments et de molécules bioactives pour l’embryon. Il renferme de nombreuses protéases et antiprotéases, dont la fonction reste méconnue. Notre objectif était d’identifier et de caractériser les protéases/antiprotéases associées spécifiquement à la formation du jaune d’œuf (vitellogénèse). Les précurseurs du jaune sont exprimés par le foie à la maturité sexuelle des poules. Par une approche transcriptomique, nous avons identifié 582 gènes, dont 15 protéases et antiprotéases, sur exprimés par le foie des poules sexuellement matures. Au moins trois d’entre elles sont présentes dans le jaune ou la membrane vitelline. Nous avons montré que l’expression de la « similar to nothepsin », une protéase prédite de fonction inconnue, était spécifique du foie des femelles et pourrait participer à la maturation des précurseurs du jaune. D’autre part, nous avons démontré que l’ovoinhibiteur, une antiprotéase du jaune, aurait un rôle dans la défense antimicrobienne de l’œuf. L’intégration de l’ensemble de ces résultats fournira des données essentielles relatives à la vitellogénèse et à la fonction des protéases/antiprotéases dans le jaune d’œuf. / The egg yolk is a source of nutrients and bioactive molecules for the embryo,including many proteases/antiproteases, the function of which is still unknown. Our objective was to identify and characterize proteases/ antiproteases that are specifically associated with the formation of the yolk (vitellogenesis). Yolk precursors are synthesized by the liver at sexual maturity of hens. Using a transcriptomic approach, we identified 582 genes, including15 proteases and antiproteases that are over-expressed by the liver at sexual maturity of hens. At least three of them are recovered in the egg yolk or the vitelline membrane. We have shown that the expression of "similar to nothepsin” was specific to the liver of females. This protease could participate in the processing of yolk precursors. We have also demonstrated that egg yolk ovoinhibitor is antimicrobial and could therefore participate in egg defense. The integration of all these results will provide major data relative to vitellogenesis and to the function of proteases/antiproteases in the egg yolk. Ovoinhibiteur Similar to nothepsin Hen's egg Egg yolk Proteases Antiproteases Similar to nothepsin Ovoinhibitor Oligoarray

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