Estudos físico-químicos e bioquímicos de uma proteína de 21 kDa do Trypanosoma cruzi / Physico-chemical and biochemical studies of a 21 kDa protein of Trypanosoma cruzi

Heline Hellen Teixeira Moreira

26 January 2012

A proteína P21 do Trypanosoma cruzi participa no processo de infecção da célula hospedeira, desse modo é de grande importância: elucidar as vias de sinalização induzidas pela proteína, bem como caracterizar a nível molecular e estrutural a P21. O que vai auxiliar no entendimento da função biológica da P21 e sua participação no processo de infecção. A P21 recombinante é expressa Escherichia coli em sua maioria na fração insolúvel. Visando aumento de proteína na fração solúvel, foi realizada a clonagem do gene da P21 em vetor pSMT3, bem como testes de expressão subsequentes em diferentes cepas de expressão de E. coli, em vetor pET-28 e pSMT3 e variadas condições de expressão e lise celular. Desse modo obtiveram-se as condições que permitissem uma maior concentração da P21 na fração solúvel. A expressão foi realizada no vetor pET-28, cepa BL21, a 37°C com meio 2xYT a 0.5 mM de IPTG, utilizando a técnica de sonicação como lise. A P21 foi purificada em cromatografia de afinidade e posteriormente em coluna de exclusão molecular. Foram realizados estudos de modelagem por homologia levaram a elaborar a hipótese de que a P21 tem a função de inibidor de serinoprotease do tipo kunitz. Posteriormente essa hipótese foi confirmada com ensaios de avaliação da atividade inibitória da P21 frente à tripsina, quimiotripsina e elastase neutrofílica, o qual a P21 mostrou capaz de inibir a elastase neutrofílica. Estudos com espalhamento dinâmico da luz (DLS) revelaram que as amostras testadas de P21 contém diferentes concentrações de agregados de alto peso molecular em todos os pHs avaliados. Outras medidas foram realizadas para avaliar o estado de agregação da P21 de acordo com a temperatura e verificou-se que entre 32-52 °C, a proteína apresenta menor raio hidrodinâmico, indicando menor agregação nesse intervalo. Estudos de dicroísmo circular revelaram que a P21 apresenta por volta de 20% de α hélice, 32% de folha-β, 22% de volta e 23 % estrutura randômica. De acordo com a curva de desnaturação referente ao espectro de CD obtido, a P21 se mostra desnaturada a partir de 64°C. / The Trypanosoma cruzi protein P21 participates in the host cell infection process, but its specific function is poorly described. Thus it is important to elucidate the signaling pathways induced by the protein and characterize the P21 at the structural and molecular levels, as a contribution towards the understanding of the P21 biological function and its role in the infection process. The Escherichia coli recombinant P21 is expressed mostly in the insoluble fraction. Aiming to increase protein in the soluble fraction, we performed the cloning of the P21 gene in pSMT3 vector and subsequent expression tests in different expression strains of E. coli in pET-28 and pSMT3 vectors and varied expression conditions and cell lysis. Thus we obtained conditions that allow a greater concentration of the P21 in the soluble fraction. The expression vector was performed using vector pET-28, in Bl21 strain at 37°C in 2xYT culture medium with 0.5 mM IPTG, using the sonication technique in cell lysis. The recombinant P21 was purified by Ni affinity chromatography and subsequently a molecular exclusion column. We performed homology modeling studies which led to assume that P21 can be a serinprotease inhibitor of Kunitz type. Furthermore, this hypothesis was confirmed in the experiments testing the P21 inhibitory activity against the trypsin, chymotrypsin and elastase. We found the P21 exclusively inhibit neutrophil elastase. Studies using dynamic light scattering (DLS) revealed that the samples containing P21 contained large molecular weigth aggregates in different concentrations at all evaluated pHs. Others measurements were performed to assess the P21 aggregation state according to the temperature and we found that between 32-52 °C the protein had a smaller hydrodynamic radius, indicating less aggregation in this range. Circular dichroism (CD) studies revealed that P21 has about 20% α-helix, 32% β, -sheet, 22% turn and 23% of random structure. According to the denaturation curve for the CD spectrum obtained, the P21 was denatured from 64°C.

Trypanosoma cruzi P21

Dicroísmo circular

Espalhamento dinâmico de luz

Inibidor de serinoprotease

Modelagem molecular por homologia

Trypanosoma cruzi P21

Circular dichroism

Serineprotease inhibitor

Análise da via de regulação gênica por ácido retinóico: uma abordagem por bioinformática e biologia estrutural / Analysis of retinoic acid pathway: an approach by bioinformatics and structural biology.

Tiago José Paschoal Sobreira

11 December 2008

As vias de sinalização celular por meio de moléculas são um dos principais meios de controle funcional de um organismo. O entendimento das funções de moléculas sinalizadoras facilita a compreensão das vias metabólicas de um organismo, assim possibilitando uma melhor compreensão de vários eventos biológicos e também de várias doenças. A sinalização pelo ácido retinóico (AR), e seus derivados, é responsável pelo controle de várias funções, por exemplo: crescimento celular, diferenciação celular, formação da retina, desenvolvimento cardíaco e também relacionado a várias patologias como diabetes, obesidades, cânceres, e doenças cardiovasculares. A ação do ácido retinóico é controlada em dois níveis: no metabolismo de síntese/degradação e na sua utilização na sinalização para a expressão gênica. A maquinaria que controla o metabolismo inclui as enzimas de síntese do AR (aldeído desidrogenase ALDH) e as enzimas de degradação do AR (Cyp26), que controlam a distribuição espaço-temporal do AR durante a embriogênese. As ALDHs são enzimas NAD(P)+ dependentes, que oxidam uma ampla gama de aldeídos para os seus correspondentes ácidos carboxílicos, sendo ALDH1A2 a principal enzima na transformação de retinal em ácido retinóico. A maquinaria da sinalização celular por AR contém os receptores nucleares controlados por AR (RARs) que estão envolvidos com o controle da transcrição gênica. Os mecanismos de controle de expressão mais comuns são os que ocorrem na fase transcricional. Um desses mecanismos envolve proteínas que se ligam às regiões promotoras de transcrição, representadas por trechos de DNA que geralmente estão localizados próximo à região de início da transcrição, mas que também podem estar a centenas ou até milhares de pares de bases desse início. Essas proteínas modulam a maquinaria transcricional, podendo ativá-la ou inibi-la. A associação de várias técnicas como a biologia molecular, bioinformática, filogenia, análises estruturais de biomoléculas, mecânica molecular e métodos termodinâmicos tem se mostrado uma poderosa abordagem para compreensão de sistemas biológicos simplificando e agilizando o desenvolvimento do conhecimento científico. Nessa direção, esse estudo desenvolveu duas análises: a primeira estudando a evolução das funções das enzimas ALDH, utilizando-se de técnicas de genômica combinatória, filogenia, bioinformática, estrutura de biomoléculas e de biologia do desenvolvimento, tentando compreender o modo como as ALDHs, que apresentam as seqüências de aminoácidos bastante similares, puderam divergir para gerar funções diversas como a destoxificação e a sinalização. Para este estudo foram analisados os genomas de 487 organismos em busca de seqüências de ALDHs e também o genoma do organismo modelo Branchiostoma floridae. Foram obtidas 190 seqüências que foram utilizadas em uma análise filogenética para tentar compreender a função primordial e também para definir grupos de aminoácidos candidatos a marcadores das diferentes famílias de ALDHs. Essas 190 seqüências também foram modeladas estruturalmente e analisada a forma e o volume do canal onde se aloja o aldeído a ser oxidado. A partir dessas informações foi possível prever que as ALDHs passaram das funções ancestrais de controle do padrão corporal para algo mais abrangente como funções protetoras. A segunda análise, utilizando-se das estruturas tridimensionais dos fatores de transcrição ligados ao DNA em diferentes posições e submetendo esses complexos a processos de mecânica molecular, cálculos termodinâmicos e análises das ligações de hidrogênio para tentar prever os mais prováveis sítios de interação entre os receptores e o DNA. O modelo escolhido para essa análise foram os fatores de transcrição regulados por ácido retinóico o RAR e RXR utilizando a região promotora do gene RARE-2 para avaliar as mais prováveis regiões de ligação desses fatores. Para esse estudo foram construídos 71 complexos proteína-DNA que foram submetidos a processos de mecânica molecular e cálculos termodinâmicos. A partir dessas informações foi possível prever uma região de maior afinidade entre o fator de transcrição e o DNA. As análises de ligações de hidrogênio possibilitaram definir exatamente a região de interação entre os fatores de transcrição e o DNA, e também descrever as interações moleculares responsáveis pela especificidade da interação. / Cellular signaling paths through molecules are one of the main processes of functional control of an organism. The comprehension of signaling molecules functions enables one to understand the metabolic pathways of an organism, along with related biological events and several diseases. The signaling through retinoic acid (RA) and its secondary products is responsible for controlling several functions, such as cellular growth and differentiation, retinas formation and cardio development, and is also related to several pathologies such as diabetes, obesity, cancers and cardiovascular disorders. There are two levels of control of retinoic acid activity: synthesis/degradation metabolism and its use in gene expression signaling. The machinery that controls the metabolism includes RAs synthesis (aldehyde dehydrogenase ALDH) and degradation (Cyp26) enzymes, which control the space-temporal distribution of RA during the embryogenesis. The ALDHs are NAD(P)+ dependent enzymes that oxidize many types of aldehydes into the related carboxylic acids, being the ALDH1A2 the main enzyme involved in the process of transformation of retinal into retinoic acid. The machinery of cellular signaling through RA contains the nuclear receptors controlled by RA (RARs) that are involved in the control of gene transcription. The most common mechanisms of expression control are the ones that occur during the transcriptional phase. One of these mechanisms involves proteins that bind to the transcription promoter regions, represented by DNA sequences that are usually located close to the region where the transcription starts, but can also be hundreds or thousands of base pairs apart from the starting point. These proteins modulate the transcriptional machinery, being responsible for both its activation and inhibition. The association of several techniques as molecular biology, bioinformatics, phylogeny, structural analysis of biomolecules, molecular mechanics and thermodynamic methods has been shown as a powerful tool for the understanding of biological systems, simplifying and speeding up the production of related scientific knowledge. Facing this direction, the present study developed two analyses. The first one studied the evolution of ALDH enzymes functions, using the techniques of combinatory genomic, phylogeny, bioinformatics, structure of biomolecules and developmental biology, in the attempt of understanding how the ALDHs could diverge and acquire different functions as detoxification and signaling, despite the fact that they have very similar aminoacid sequences. For this study, ALDHs sequences were searched for in the genome of 487 organisms plus the model organisms, Branchiostoma floridae. All 190 sequences obtained were used in a phylogenetic analysis, in the attempt of understanding the primordial function of the enzyme and defining possible groups of conserved aminoacids in the different families of ADLHs. These 190 sequences were also structurally modeled and the shape and volume of the channel where the aldehyde is placed to be oxidized were analyzed. Based on this information, it became possible to predict that the ALDHs moved from ancestral functions of corporal pattern control to a wider spectrum of protection functions. For the second analysis we submitted the complex formed by tridimensional structures of the transcriptional factors bond to DNA in different positions to processes of molecular mechanics, thermodynamic calculi and analysis of the hydrogen bonds, in order to predict the most probable sites of interaction between the receptors and the DNA. The model chosen for this analysis were the transcription factors regulated by retinoic acid, RAR and RXR, using the promoter region of the gene RARE-2 to assay the most probable binding regions of these factors. For this study, 71 protein-DNA complexes were built and submitted to processes of molecular mechanics and thermodynamic calculi. Based on the resulting data, it became possible to predict a region of greater affinity between the transcription factor and the DNA. The analyses of hydrogen bonds enabled us to define the exact region where the interaction between the transcription factor and the DNA takes place and also enabled us to describe the molecular interactions responsible for the specificity of this interaction.

Ácido retinóico

Bioinformática

Fatores de transcrição

Mecânica molecular

Modelagem molecular por homologia

Sinalização celular

Bioinformatics

Cellular signaling

Molecular homology modeling

Molecular mechanics

Retinoic acid

Transcription factors

Modelagem molecular de compostos arilpiperazínicos e suas interações com o receptor 5-HT1A / Molecular modeling of arylpiperazine compounds and their interactions with the 5-HT1A receptor

Karen Cacilda Weber

29 August 2008

Os inibidores seletivos da recaptação de serotonina (ISRSs) representam a classe mais importante de antidepressivos em uso clínico atualmente. Entretanto, esses medicamentos costumam levar de duas a seis semanas para apresentar os efeitos de sua ação terapêutica. Estudos clínicos mostram que quando um antagonista do receptor 5-HT1A é administrado juntamente com um ISRS, um aumento da concentração extracelular de serotonina é observado nas áreas terminais dos neurônios. Assim, a combinação de um antagonista do receptor 5-HT1A com um ISRS pode acelerar o início da ação antidepressiva, aumentando a eficácia do tratamento farmacológico da depressão. A classe mais importante de ligantes do receptor 5-HT1A são os compostos arilpiperazínicos. O presente estudo teve como objetivo o entendimento das características importantes para as interações entre uma série de compostos arilpiperazínicos com o receptor 5-HT1A. Para tal, foram realizados estudos de Relação Quantitativa entre Estrutura e Atividade (QSAR) bi- e tridimensionais, empregando as seguintes abordagens: métodos quimiométricos baseados em descritores teóricos, QSAR por hologramas (HQSAR) e o método de Análise Comparativa de Campos Moleculares (CoMFA). Essas análises foram complementadas com a modelagem por homologia do receptor 5-HT1A e com estudos de docking ligante-receptor realizados para alguns compostos arilpiperazínicos. Modelos de QSAR com boa consistência interna, habilidade preditiva e estabilidade foram obtidos em todos os casos. Os modos de interação observados apresentaram consistência com dados experimentais disponíveis sobre os resíduos importantes para as interações com ligantes arilpiperazínicos. Os principais resultados indicaram algumas características dos ligantes que são importantes para a afinidade pelo receptor 5-HT1A, tais como a presença de um anel benzotiofeno como substituinte Ar2, substituintes pouco volumosos na posição Z e receptores de ligações de hidrogênio na posição orto do anel Ar1. Esses resultados foram corroborados pelo estudo das interações com o modelo do receptor 5-HT1A, que indicou uma importante interação hidrofóbica do grupo benzotiofeno com o resíduo Trp6.48 do receptor, assim como uma ligação de hidrogênio entre a hidroxila na posição Z e o resíduo Thr3.37 e, ainda, entre o oxigênio do anel Ar1 e o resíduo Asn7.39. As informações obtidas neste estudo podem fornecer subsídios para o planejamento de novos ligantes com afinidade pelo receptor 5-HT1A. / Selective serotonin reuptake inhibitors (SSRIs) are the most important class of antidepressants in current clinical use. However, they present the serious drawback of a delay of two to six weeks in the onset of therapeutic effect. Clinical studies have shown that when a 5-HT1A receptor antagonist is administrated along with a SSRI, an increase of extracellular serotonin concentration in neuronal terminal areas is observed. Thus, the combination of a 5- HT1A receptor antagonist and a SSRI could accelerate the onset of antidepressant action, improving the pharmacological treatment of depression. The most important class of 5-HT1A receptor ligands are arylpiperazine compounds. In the present study, our aim was to understand the main features of the interaction between a series of arylpiperazines and the 5- HT1A receptor. Bi- and Tridimensional Quantitative Structure-Activity Relationship (QSAR) studies were conducted employing the following approaches: chemometric methods based on theoretical descriptors, Hologram QSAR (HQSAR), and Comparative Molecular Field Analysis (CoMFA). These analyses were complemented by 5-HT1A receptor homology modeling and ligand-receptor docking studies. QSAR models presenting good internal consistency, predictive power and stability were obtained in all cases. The observed binding modes are consistent with available experimental data on residues considered crucial for interactions with arylpiperazine compounds. The main results have indicated some important features for optimal binding to the 5-HT1A receptor, such as the presence of a benzothiophene ring as Ar2 substituent, small groups at position Z and hydrogen bond acceptors at the ortho position of Ar1 ring. These results were corroborated by modeling the interactions with the 5- HT1A receptor, which has indicated an important hydrophobic interaction between the benzothiophene group and residue Trp6.48, a hydrogen bond between the OH group at position Z and residue Thr3.37, as well as between the oxygen in Ar1 and residue Asn7.39. The information gathered in these studies can be useful for the design of new ligands displaying affinity to the 5-HT1A receptor.

arilpiperazinas

modelagem por homologia

QSAR 2D

QSAR 3D

recepto 5-HT1A

2D QSAR

3D QSAR

5-HT1A receptor

arylpiperazines

homology modeling

In silico návrh a validace peptidových derivátů konotoxinu pro nanoterapii neuroblastomu / In silico design and validation of conotoxin-based peptides for neuroblastoma nanotherapy

Mokrý, Michal

January 2021

Práca sa zaoberá in silico dizajnom a validáciou peptidov založených na konotoxíne - MrIA, izolovaného z morských slimákov druhu Conus marmoreus a možnosti využitia týchto peptidov v liečbe neuroblastómu pomocou cielenia norepinefrínového transportéru. Päť peptidov založených na tomto konotoxíne bolo simulovaných pomocou simulácii molekulárnej dynamiky, ich trajektórie boli analyzované pre zistenie vlastností týchto peptidov. Dva homologické modely ľudského norepinefrínového transportéru boli vytvorené pre analýzu väzobných vlastností peptidov založených na konotoxíne ku norepinefrínovému transportéru. Peptidy boli následne syntetizované a použité na pokrytie apoferitínových nanočastíc s elipticínom uväzneným vnútri apoferitínu. Vytvorené peptidy a nanočastice boli ďalej skúmané pre objasnenie ich fyzikálo-chemických vlastností. Interakcie a cytotoxicita boli skúmané aplokáciou nanočastíc na bunky neuroblastómu a epitelu. Z in silico a in vitro analýz vyšiel YKL-6 peptid ako najlepší kandidát na ďalší výskum.

Structure of the Plant-Conserved Region of Cellulose Synthase and Its Interactions with the Catalytic Core

Phillip S Rushton (9143657)

29 July 2020

<p><a>The processive plant cellulose synthase (CESA) synthesizes (1→4)-β-D-glucans. CESAs assemble into a six-fold symmetrical cellulose synthase complex (CSC), with an unknown symmetry and number of CESA isomers. The CSC synthesizes a cellulose microfibril as the fundamental scaffolding unit of the plant cell wall. CESAs are approximately 110 kDa glycosyltransferases with an N-terminal RING-type zinc finger domain (ZnF), seven transmembrane α-helices (TMHs) and a cytoplasmic catalytic domain (CatD). In the CatD, the uridine diphosphate glucose (UDP-Glc) substrate is synthesized into</a> (1→4)-β-D-glucans. The ZnF is likely to facilitate dimers in the CSC. Recombinant class-specific region (CSR), a plant specific insertion to the C-terminal end of the CatD is also known to form dimers<i> in vitro</i>. The CSR sequence is the primary source of distinction between CESA isoforms and class structure. Also within the CESA CatD is a 125-amino acid insertion known as the plant-conserved region (P-CR), whose molecular structure was unknown. The function of the P-CR is still unclear, especially in the context of complete CESA and CSC structures. Thus, one major knowledge gap is understanding how multimeric CSCs synthesize multiple chains of (1→4)-β-D-glucans that coalesce to form microfibrils. The specific number of CESAs in a CSC and how interactions of individual CESA isoforms contribute to the CSC are not known. Elucidating the structure-function relationships of the P-CR domain, and with the consideration of the ability of CSR and ZnF domains to dimerize, it is possible to more completely model the structure of the CSC.</p> <p>Recombinantly expressed rice (<i>Oryza sativa</i>) secondary cell wall OsCESA8 P-CR domain purifies as a monomer and shows distinct α-helical secondary structure by circular dichroism analysis. A molecular envelope of the P-CR was derived by small angle X-ray scattering (SAXS). The P-CR was crystallized and structure solved to 2.4 Å resolution revealing an anti-parallel coiled-coiled domain. Connecting the coiled-coil α-helices is an ordered loop that bends back towards the coiled-coils. The P-CR crystal structure fits the molecular envelope derived by SAXS, which in turn fits into the CatD molecular envelope. The best fit places the P-CR between the membrane and substrate entry portal. In depth analysis of structural similarity to other proteins, and 3D-surface structure of the P-CR, leads to hypotheses that it could function in protein-protein interactions as a dimer, trimer or tetramer in the CSC, that it could form protein-protein interactions with CESA-interacting proteins, and/or modulate substrate entry through its N- and/or C-terminus. From modeling, hypothetically important residues within the P-CR or related to the P-CR through potential protein contacts were mutated in <i>Arabidopsis thaliana</i> <i>AtCESA1</i> constructs. These constructs were expressed in the temperature-sensitive <i>radial swelling</i> (<i>rsw</i>)<i> rsw1-1</i> mutant of <i>AtCESA1 </i>to test for complementation of growth phenotypes at restrictive temperatures. Preliminary experiments indicate that some mutated CESA1 sequences fail to complement the <i>rsw1-1</i> phenotype, suggesting that specific functions of individual amino can be tested using this system.</p>

Biophysics

Molecular Biology

Botany

Plant Biology

CESA proteins

X-ray crystal structure

Genetic Complementation Test

Structural comparisons

homology modeling approach

Plant transgenes

Propriétés électrophysiologiques des canaux ioniques formés par la toxine nématicide Cry5Ba du bacille de Thuringe dans les bicouches lipidiques planes

Karabrahimi, Valbona

04 1900

Les toxines Cry sont des protéines synthétisées sous forme de cristaux par la bactérie bacille de Thuringe pendant la sporulation. Elles sont largement utilisées comme agents de lutte biologique, car elles sont toxiques envers plusieurs espèces d’invertébrées, y compris les nématodes. Les toxines Cry5B sont actives contre certaines espèces de nématodes parasites, y compris Ankylostoma ceylanicum un parasite qui infeste le système gastro-intestinal des humains. Jusqu’au présent, le mode d’action des toxines Cry nématicides reste grandement inconnu, sauf que leurs récepteurs spécifiques sont des glycolipides et qu’elles causent des dommages importants aux cellules intestinales. Dans cette étude, on démontre pour la première fois que la toxine nématicide Cry5Ba, membre de la famille des toxines à trois domaines et produite par la bactérie bacille de Thuringe, forme des pores dans les bicouches lipidiques planes en absence de récepteurs. Les pores formés par cette toxine sont de sélectivité cationique, à pH acide ou alcalin. Les conductances des pores formés sous conditions symétriques de 150 mM de KCl varient entre 17 et 330 pS, à pH 6.0 et 9.0. Les niveaux des conductances les plus fréquemment observés diffèrent les uns des autres par environ 17 à 18 pS, ce qui est compatible avec l’existence d’arrangement d’un nombre différent de pores élémentaires similaires, activés de façon synchronisée, ou avec la présence d’oligomères de tailles variables et de différents diamètres de pores. / Cry toxins are proteins synthetized as crystal inclusions by the Bacillus thuringiensis bacterium upon sporulation. They are used widely as biological control agents, as they exhibit toxicity to a range of invertebrates, including nematodes. The Cry5B toxins are active against a number of parasitic nematode species, such as Ancylostoma ceylanicum a human gastro-intestinal parasite. So far, the mode of action of nematicidal Cry toxins is largely unknown, except for the facts that their specific receptors are glycolipids and that they cause prominent damage to nematode intestinal cells. In this study, we show for the first time that the nematicidal Cry5Ba toxin, a member of the three domain family of toxins produced by the Bacillus thuringiensis forms pores in receptor-free planar lipid bilayers. The pores formed by the toxin were cation selective, both under acid and alkaline pH conditions. Under symmetrical 150 mM KCl conditions, pore activity was characterized by conductances ranging from 17 to 330 pS, at both pH 6.0 and 9.0. The most frequently observed conductance levels differed from each other by approximately 17 to 18 pS consistent with the existence of clusters of different number of elementary, similar, co-operatively gated pores, or with the presence of variable size oligomers with different pore diameters.

Bacille de Thuringe

δ-endotoxine nématicide

Cry5Ba

Bicouche lipidique plane

Formation de pores

Électrophysiologie

Modélisation par homologie

C.elegans

Bacillus thuringiensis

Nematicidal δ-endotoxine

Lipid bilayer membrane

Pore formation

Electrophysiology

Homology modeling

Understanding Molecular Interactions: Application of HINT-based Tools in the Structural Modeling of Novel Anticancer and Antiviral Targets, and in Protein-Protein Docking

Parikh, Hardik

25 April 2013

Computationally driven drug design/discovery efforts generally rely on accurate assessment of the forces that guide the molecular recognition process. HINT (Hydropathic INTeraction) is a natural force field, derived from experimentally determined partition coefficients that quantifies all non-bonded interactions in the biological environment, including hydrogen bonding, electrostatic and hydrophobic interactions, and the energy of desolvation. The overall goal of this work is to apply the HINT-based atomic level description of molecular systems to biologically important proteins, to better understand their biochemistry – a key step in exploiting them for therapeutic purposes. This dissertation discusses the results of three diverse projects: i) structural modeling of human sphingosine kinase 2 (SphK2, a novel anticancer target) and binding mode determination of an isoform selective thiazolidine-2,4-dione (TZD) analog; ii) structural modeling of human cytomegalorvirus (HCMV) alkaline nuclease (AN) UL98 (a novel antiviral target) and subsequent virtual screening of its active site; and iii) explicit treatment of interfacial waters during protein-protein docking process using HINT-based computational tools. SphK2 is a key regulator of the sphingosine-rheostat, and its upregulation /overexpression has been associated with cancer development. We report structural modeling studies of a novel TZD-analog that selectively inhibits SphK2, in a HINT analysis that identifies the key structural features of ligand and protein binding site responsible for isoform selectivity. The second aim was to build a three-dimensional structure of a novel HCMV target – AN UL98, to identify its catalytically important residues. HINT analysis of the interaction of 5’ DNA end at its active site is reported. A parallel aim to perform in silico screening with a site-based pharmacophore model, identified several novel hits with potentially desirable chemical features for interaction with UL98 AN. The majority of current protein-protein docking algorithms fail to account for water molecules involved in bridging interactions between partners, mediating and stabilizing their association. HINT is capable of reproducing the physical and chemical properties of such waters, while accounting for their energetic stabilizing contributions. We have designed a solvated protein-protein docking protocol that explicitly models the Relevant bridging waters, and demonstrate that more accurate results are obtained when water is not ignored.

Hydropathic Interaction

HINT

Hydrophobicity

Molecular Docking

Homology Modeling

3D Virtual Screening

Protein Protein Docking

Sphingosine Kinase 2 Inhibitor

Medicine and Health Sciences

Pharmacy and Pharmaceutical Sciences

ABCC11 dans le cancer du sein : régulation de l’expression par les stéroïdes et étude de la relation structure / activité (modélisation in Silico et rôle du polymorphisme génétique) / ABCC11 in breast cancer : Expression regulation by steroids and Structure / Function relationship study (Homology modeling and Genetic Polymorphism Influence)

Meyer, Mylène

22 November 2010

Première cause de décès par cancer chez la femme, le cancer du sein développe souvent une résistance à la chimiothérapie pouvant impliquer des transporteurs ABC (ATP Binding Cassette). Ils transportent les médicaments hors de la cellule et diminuent leur efficacité thérapeutique. Nous nous sommes intéressés à la protéine ABCC11 ou MRP8 (Multidrug Resistance Protein 8), exprimée dans le sein et responsable de l’efflux de certains anticancéreux (5FdUMP et méthotrexate). Nous avons démontré que l’expression d’ABCC11 était dépendante des voies de signalisation impliquant ER (Récepteur aux œstrogènes) ou PR (Récepteurs à la Progestérone). De plus, le tamoxifène (antagoniste d’ER) et la dexaméthasone (activateur de PR), utilisés en association avec la chimiothérapie, induisent l’expression d’ABCC11 et influenceraient négativement la réponse aux traitements anticancéreux à base de substrats d’ABCC11. L’expression d’ABCC11 a été positivement corrélée à celles d’ER et PR dans des cancers du sein. En parallèle, nous avons généré 2 modèles in silico en conformation ouverte vers l’intracellulaire ou vers l’extracellulaire et identifier des acides aminés potentiellement critiques dans l’architecture de la protéine ainsi que dans la liaison avec certains substrats (5FdUMP et GMPc). Nous avons également généré les outils moléculaires permettant l’étude de l’impact de 13 SNP (Single Nucleotide Polymorphism) non synonymes d’ABCC11. En raison d’une instabilité des lignées cellulaires, l’étude n’a pu être menée à son terme. Notre travail a ainsi contribué à une meilleure caractérisation d’ABCC11 et souligne sa potentielle valeur pronostic et prédictive dans le traitement du cancer du sein. / Leading cause of woman death by cancer, breast cancer can unfortunately develops chemotherapy resistance involving ABC (ATP Binding Cassette) transporters. They transport drugs out of cells and decrease their therapeutic efficiency. We studied one ABCC sub-family member: ABCC11 or MRP8 (Multidrug Resistance Protein 8), expressed in breast and responsible for anticancer agent efflux (5FdUMP and methotrexate). We have demonstrated that ABCC11 expression was associated with ER (Estrogen Receptor) and PR (Progesterone Receptor) signaling pathways. Furthermore, tamoxifen (ER antagonist) and dexamethasone (PR activator), used in association with chemotherapy, increased ABCC11 expression and would negatively influence the response of ABCC11 substrate based anticancer treatments. Moreover, ABCC11 expression was positively correlated to ER and PR expression in breast cancer. In parallel, we have generated two in silico models obtained by homology. They represent two different spatial conformations: intracellular-facing (ready to bind substrate) or extracellular-facing (ready to release substrate). This has allowed us to identify amino acid residues potentially essential for the protein architecture and for substrate binding (5FdUMP and cGMP). In order to analyze SNP (Single Nucleotide Polymorphism) impact on ABCC11 expression and function, we generated vectors coding a wild-type or a mutated ABCC11 with 13 nonsynonymous SNPs. But, we did not succeed to create stable expressing cell lines to make a complete study of those SNPs. In conclusion, our work led to ABCC11 better characterization and underlined its putative prognostic and predictive value in breast cancer treatment.

Cancer du sein

Transporteurs ABC

ABCC11

MRP8

Récepteur aux oestrogènes

Récepteurs à la progestérone

Modélisation par homologie

SNP

Breast cancer

ABC transporters

ABCC11

MRP8

Estrogen receptor

Progesterone receptor

Homology modeling

SNP

570

Étude chez la levure Saccharomyces cerevisiae des relations entre la structure du petit ARN nucléolaire U3, ses interactions avec les protéines de la particule nucléolaire snoRNP U3 et sa fonction dans la biogenèse des ribosomes / Study to the yeast Saccharomyces cerevisiae of the relations between the U3 snoRNA structure, its interactions with proteins of the snoRNP U3 and its function in the of ribosome biogenesis

Rolland, Nicolas

14 December 2012

Le snoRNA U3 contient deux motifs conservés C'/D et de B/C qui permettent de recruter les protéines constitutives de la snoRNP U3. La liaison de la protéine Snu13p/15.5 kD à chacun de ces motifs est un préalable pour le recrutement des 4 autres protéines, à savoir : Nop1p, Nop56p et Nop58p sur le motif C'/D et de Rrp9p, une protéine spécifique du snoRNA U3, sur le motif B/C. Nous avons utilisé la structure 3D connue d'une protéine humaine contenant 7 motifs WD-40 et des méthodes de modélisation moléculaire pour proposer un modèle de structure 3D de Rrp9p. En parallèle, nous avons identifié les déterminants nécessaires à l'association des protéines Snu13p, Nop1p, Nop56p et Nop58p sur le motif C'/D du snoRNA U3, ceci en produisant différents variants du snoRNA U3 et en testant leurs capacités fonctionnelles et leurs stabilités dans la levure. Sur la base d'un modèle 3D d'une snoRNP C/D construit par C. Charron, nous avons ensuite formulé des hypothèses sur les interactions possibles entre le motif C'/D et les acides aminés des protéines Snu13p et Nop58p et confirmé ces hypothèses par mutagénèse dirigée. Les données ont en plus révélé qu'une faible quantité de snoRNA U3 est suffisante pour assurer la croissance des levures. Toujours par mutagénèse dirigée et étude des conséquences in cellulo, j'ai pu montrer quelles sont les contraintes en distance entre les motifs C'/D et B/C. Ce qui nous permet de formuler des hypothèses sur leurs positionnements relatifs dans la snoRNP. Au total mon travail a permis d'apporter des informations importantes sur l'architecture et les contraintes fonctionnelles de la snoRNP U3 de levure / U3 snoRNA contains two conserved pairs of boxes C'/D and B/C needed to bind the stably associated proteins. Binding of protein Snu13p/15.5 kD to each of the conserved motifs is a prerequisite for recruitment of the 4 other U3 snoRNP proteins, namely: Nop1p, Nop56p and Nop58p on the C'/D motif and the Rrp9p U3 specific protein on the B/C motif. We used the known 3D structure of a human G protein containing 7 WD-40 motifs and 3D structure homology modeling methods to build a 3D structure model for Rrp9p. In parallel, by production of variant U3 snoRNAs, and by testing their in vivo stabilities and activities, we identified the C'/D determinants needed for association of proteins Snu13p, Nop1p, Nop56p and Nop58p to U3 snoRNA. Based on a 3D structure model of U3 C/D box RNP built by C Charron, we then formulated hypotheses on the possible interactions between the C'/D motif and amino acids from Snu13p and Nop58p and verified the hypotheses by site-directed mutagenesis of yeast cell components. The data also revealed that very low amounts of U3 snoRNA are sufficient to ensure yeast growth. By site directed mutagenesis, I also studied how the C'/D and B/C motifs should be positioned one relative to the other in order to be functional. Taken together, my work brings important information on the architecture of yeast U3 snoRNP and its functional constraints

Biogenèse des ARNr

Architecture de la snoRNP U3

Assemblage de la snoRNP U3

Protéine Rrp9p

Modélisation 3D par homologie

RRNA biogenesis

U3 snoRNP assembly

U3 snoRNP architecture

Rrp9p protein

3D structure homology modeling

572.884 5

Propriétés électrophysiologiques des canaux ioniques formés par la toxine nématicide Cry5Ba du bacille de Thuringe dans les bicouches lipidiques planes

Karabrahimi, Valbona

04 1900

Les toxines Cry sont des protéines synthétisées sous forme de cristaux par la bactérie bacille de Thuringe pendant la sporulation. Elles sont largement utilisées comme agents de lutte biologique, car elles sont toxiques envers plusieurs espèces d’invertébrées, y compris les nématodes. Les toxines Cry5B sont actives contre certaines espèces de nématodes parasites, y compris Ankylostoma ceylanicum un parasite qui infeste le système gastro-intestinal des humains. Jusqu’au présent, le mode d’action des toxines Cry nématicides reste grandement inconnu, sauf que leurs récepteurs spécifiques sont des glycolipides et qu’elles causent des dommages importants aux cellules intestinales. Dans cette étude, on démontre pour la première fois que la toxine nématicide Cry5Ba, membre de la famille des toxines à trois domaines et produite par la bactérie bacille de Thuringe, forme des pores dans les bicouches lipidiques planes en absence de récepteurs. Les pores formés par cette toxine sont de sélectivité cationique, à pH acide ou alcalin. Les conductances des pores formés sous conditions symétriques de 150 mM de KCl varient entre 17 et 330 pS, à pH 6.0 et 9.0. Les niveaux des conductances les plus fréquemment observés diffèrent les uns des autres par environ 17 à 18 pS, ce qui est compatible avec l’existence d’arrangement d’un nombre différent de pores élémentaires similaires, activés de façon synchronisée, ou avec la présence d’oligomères de tailles variables et de différents diamètres de pores. / Cry toxins are proteins synthetized as crystal inclusions by the Bacillus thuringiensis bacterium upon sporulation. They are used widely as biological control agents, as they exhibit toxicity to a range of invertebrates, including nematodes. The Cry5B toxins are active against a number of parasitic nematode species, such as Ancylostoma ceylanicum a human gastro-intestinal parasite. So far, the mode of action of nematicidal Cry toxins is largely unknown, except for the facts that their specific receptors are glycolipids and that they cause prominent damage to nematode intestinal cells. In this study, we show for the first time that the nematicidal Cry5Ba toxin, a member of the three domain family of toxins produced by the Bacillus thuringiensis forms pores in receptor-free planar lipid bilayers. The pores formed by the toxin were cation selective, both under acid and alkaline pH conditions. Under symmetrical 150 mM KCl conditions, pore activity was characterized by conductances ranging from 17 to 330 pS, at both pH 6.0 and 9.0. The most frequently observed conductance levels differed from each other by approximately 17 to 18 pS consistent with the existence of clusters of different number of elementary, similar, co-operatively gated pores, or with the presence of variable size oligomers with different pore diameters.

Bacille de Thuringe

δ-endotoxine nématicide

Cry5Ba

Bicouche lipidique plane

Formation de pores

Électrophysiologie

Modélisation par homologie

C.elegans

Bacillus thuringiensis

Nematicidal δ-endotoxine

Lipid bilayer membrane

Pore formation

Electrophysiology

Homology modeling