Caractérisation d'une nouvelle voie d'adressage des protéines à la membrane externe des bactéries à Gram négatif / Characterization of a novel outer membrane protein targeting pathway in Gram negative bacteria

Rondelet, Arnaud

07 December 2012

Le système Tat (pour Twin Arginine Translocation) exporte des protéines repliées depuis le cytoplasme vers le périplasme des bactéries. L’adressage des protéines à exporter au système Tat repose sur une séquence signal spécifique amino terminale clivée après exportation. Chez le phytopathogène Dickeya dadantii, l’homologue de pectine lyase PnlH possède une séquence signal Tat qui assure son adressage au système Tat mais qui n’est pas clivée après exportation et ancre la protéine dans la membrane externe. Chez les protéobactéries, la majorité des protéines de membrane externe sont soit des lipoprotéines soit des protéines intégrales de membrane en tonneau β. L’adressage de ces protéines à la membrane externe repose sur des voies spécifiques du type de protéine : la voie Lol pour les lipoprotéines et la combinaison des chaperons périplasmiques SurA, Skp et DegP et du complexe de membrane externe Bam (β barrel assembly machinery) pour les protéines en tonneau β. Au cours de ce travail, l’étude de l’adressage de PnlH à la membrane externe a montré que SurA se liait à la séquence signal hydrophobe de PnlH pour la protéger de l’environnement hydrophile au cours de son transit dans le périplasme. La séquence signal de PnlH (41 acides aminés) porte l’intégralité de l’information nécessaire à son adressage à la membrane externe. La nature de l’information adressant les protéines au système Tat est bien connue et dans ce travail nous nous sommes efforcés d’identifier les informations requises pour les deux dernières étapes de l’adressage de PnlH à la membrane externe : la traversée du périplasme et l’insertion dans la membrane externe. La délétion d’une région conservée comprise entre les résidus 28 et 41 de la séquence signal de PnlH affecte l’adressage de cette dernière à la membrane externe. Des substitutions des acides aminés conservés de cette région ne semblent pas affecter l’adressage de PnlH, indiquant que l’information nécessaire à l’adressage de PnlH à la membrane externe après exportation ne réside pas dans la séquence en acides aminés de la séquence signal de PnlH. En revanche, nos données suggèrent que la présence d’une hélice α hydrophobe dans la séquence signal de PnlH est importante pour son adressage à la membrane externe. Cette observation est particulièrement intéressante puisqu’une telle structure est généralement considérée comme une caractéristique des protéines de membrane interne. / The Twin Arginine Translocation (Tat) pathway exports folded proteins from the cytoplasm to the periplasm of bacteria. The targeting of the exported proteins to the Tat pathway relies on a specific amino-terminal signal sequence, which is cleaved after exportation. In the phytopathogen Dickeya dadantii the pectin lyase homologue PnlH is exported by the Tat pathway without cleavage of its signal sequence, which anchors PnlH into the outer membrane. In proteobacteria, the vast majority of outer membrane proteins consists of β-barrel proteins and lipoproteins. Targeting of these proteins to the outer membrane relies on two pathways: the periplasmic chaperones SurA, Skp and DegP work together with the β-Barrel-Assembly Machinery (Bam) to target and insert β-barrel proteins into the outer membrane while the Lol pathway targets and insert lipoproteins. In this work, we showed that SurA binds to the hydrophobic PnlH signal sequence during the course of its periplasmic transit. The PnlH signal sequence (41 residues) carries all the information necessary to the targeting of PnlH to the outer membrane. The nature of the information that targets proteins to the Tat system is well charcterized. Thus, we focused on the nature of the information carried by the PnlH signal sequence and that allows its crossing of the periplasm and its insertion in the outer membrane. The deletion of a conserved region of the PnlH signal sequence between residues 28 and 41 strongly affects the targeting of PnlH to the outer membrane. None of the single amino acid substitutions constructed in this region obviously affected the targeting of PnlH, indicating that the information may not reside in the amino acid sequence of the PnlH signal sequence. Consistently, our data suggest that the presence in the PnlH signal sequence of an α helix with a hydrophobic cluster is important for the targeting of PnlH to the outer membrane. This observation is striking since such a structure is considered as an inner membrane protein property.

Biosciences

Microbiologie

Bacterie

Embrane

Protéine membranaire

Adressage

Séquence signal Tat

Biosciences

Microbiology

Bacteria

Membrane

Membrane protein

Targeting

Tat signal sequence

579.307 2

Correlação estrutura-função da proteína ligante de ácidos graxos de cérebro humano (B-FABP) / Structure-function correlation in the Fatty Acid Binding Protein from Human Brain (B-FABP)

Silva, Daniel Ferreira

22 November 2010

Ácidos graxos são moléculas hidrofóbicas essenciais para a composição da estrutura física celular, para o metabolismo energético dos seres vivos e também para os caminhos de sinalização molecular no proteoma celular. No caso de deficiência no ácido graxo docosahexaenóico (DHA) e do ácido eicosapentaenoico (EPA) temos a depressão e a mudança do comportamento. O transporte destas moléculas hidrofóbicas no citosol celular é realizado por uma família de proteínas capazes de se ligar a esses ácidos graxos de maneira seletiva, com alta afinidade e de forma reversível. Esta família de proteína é conhecida como FABP, ou proteínas ligantes de ácido graxo. Para realizar esta função, as FABP possuem características únicas tanto na sua estrutura tridimensional quanto na dinâmica experimentada pelos vários elementos estruturais. Diversos trabalhos identificaram regiões relevantes e, com mutações realizadas em resíduos específicos, caracterizaram o mecanismo como a proteína interage com ligantes e com a bicamada lipídica para a realização da sua função, identificando um processo multi-estágio na interação com a bicamada lipídica. Contudo, a não realização de mutações em todos os resíduos da proteína pode deixar não-identificados regiões ou resíduos da proteína também envolvidos na sua função. Além disso, nunca foi caracterizado o que ocorre com os resíduos e com a estrutura da FABP quando a proteína está complexada com uma bicamada lipídica. No presente trabalho, escolhemos a B-FABP para estudar a interação com ligantes e o complexo proteína-membrana desta família de proteínas. Para isto, as técnicas de ressonância magnética nuclear 15N-HSQC e eletrônica (RMN e RPE) foram utilizadas para acompanhar mudanças estruturais e dinâmicas ocorridas quanto de interações moleculares. Com a técnica de RPE e o uso de derivados de ácidos graxos marcados com radicais nitróxidos, monitoramos o sítio de ligação da molécula de ácido graxo e suas alterações quando na presença do surfactante SDS. No caso de RMN, foi usada em proteínas marcadas isotopicamente com 15N na presença de bicelas isotrópicas de DMPC: DHPC na razão igual a um (q = 1), em uma concentração lipídica (CL) de 4%. Nossos resultados além de identificar os mesmos resíduos já conhecidos na interação da FABP com modelos de membrana, também encontrou novos resíduos nunca antes associados à superfície de contato da FABP com a bicamada lipídica. / Fatty acids are hydrophobic molecules essential to the cell structure, to the energetic metabolism of living organisms and to the molecular signaling pathways in the cell proteome. Depression and behavior alteations are two common consequences of deficiencies in docosahexanoic (DHA) and eicosapentaenoic (EPA) acids. The transport of such hydrophobic molecules in the cytosol is the main function of a family of proteins capable of making a selective, high affinity, and reversible binding of fatty acids. This family of proteins is known as FABPs (fatty acid binding proteins). To perform their function, FABPs have unique features in both their tridimensional structure and in the dynamics experienced by the several structural elements. Many reports have identified regions that are relevant to function and, through point mutations of specific residues, have characterized the mechanism used by the protein to bind its ligand and also to interact with lipid bilayers. However, the point mutation strategy relies heavily on the choice of residues such that missing residues can lead to the lack of identification of important elements involved in protein function. Moreover, the characterization of the protein-bilayer complex still deserves a more detailed investigation. In this work, we study the B-FABP protein in terms of its interaction with ligands as well as a membrane model system. We made use of magnetic resonance techniques, nuclear (NMR) and electronic (EPR), to probe structural and dynamical changes occurring upon intermolecular interaction. EPR and spin labeled fatty acids allowed us to monitor the ligand binding site in the protein structure and also its alterations in the presence of the surfactant SDS. NMR HSQC was used to gain information on the conformational changes of isotopically labeled protein in the presence of biceles made of DMPC:DHPC (q = 1 and lipid concentration CL of 4%). Our results confirmed relevant functional residues that had been previously identified and also pointed to new residues that had not been implicated as part of the contact surface before, thus widening our understanding of FABP-bilayer interaction.

Bicela isotrópica

Electron magnetic resonance

Interação proteína membrana

Isotropic bicelle

Membrane protein interaction

Nuclear magnetic resonance

Ressonância magnética do elétron

Ressonância magnética nuclear

Vesicles

Vesícula

Adesina Aae de Aggregatibacter actinomycetemcomitans: envolvimento na adesão a proteínas da matriz extracelular, polimorfismo genético e resposta imune humoral. / Aae adhesin of A. actinomycetemcomitans: Implication in binding to extracellular matrix proteins, genetic polymorphisms and humoral immune response.

Almeida, Lucas Ribeiro de Sousa

13 July 2017

Aggregatibacter actinomycetemcomitans está associado à etiologia da periodontite agressiva localizada. A colonização de tecidos do hospedeiro é necessária para patogênese e a adesão é fundamental. A proteína autotransportada Aae faz a adesão da bactéria a células epiteliais gengivais. Proteínas autotransportadas de diferentes espécies apresentam múltiplas funções e podem ser antígenos vacinais na prevenção de infecções. Para entender o papel de Aae na ligação ao hospedeiro e efeito de anticorpos contra Aae, o polimorfismo de aae na região que codifica o domínio de ligação a células epiteliais foi determinado e relacionado à adesão a células epiteliais KB . Aae recombinante foi obtida, e a capacidade de ligação a proteínas da matriz extracelular e soro foi determinada em ensaios com a recombinante e com uma amostra deficiente na expressão de Aae obtida (ensaios comparativos com amostra selvagem). Títulos de IgG contra Aae em pacientes com periodontite agressiva e saudáveis foram determinados e relacionados à resposta humoral contra sorotipos de A. actinomycetemcomitans. Por fim, o efeito de anticorpos contra Aae e/ou seu domínio efetor, produzidos em modelo animal, foi determinado na inibição da adesão mediada por Aae e opsonização por fagócitos. / Aggregatibacter actinomycetemcomitans is related with etiology of localized aggressive periodontitis. Colonization of host tissues is necessary to pathogenesis and adhesion is essential. The autotransporter protein Aae mediates the adhesion of bacteria to gingival epithelial cells. Autotransporter proteins from different species have multiple functions and could be vaccine antigens to prevent infections. To understand the role of Aae in host interaction and the effect of antibodies against Aae, polymorphism of aae in codifying effector domain region of ligation to epithelial cells was determined and related with adhesion to these cells. Recombinant Aae was obtained and the ability of interaction with Extracellular matrix and serum proteins was determined through assays using the recombinant and an obtained defective sample in Aae expression (comparative assays with wild type). IgG titters against Aae were determined in patients with aggressive periodontitis and healthy and related to humoral response against A. actinomycetemcomitans serotypes. At last, the effect of antibodies against Aae and/or its effector domain, obtained in animal model, was determined in inhibition of adhesion to epithelial cells and macrophages oopsonization.

Aggregatibacter actinomycetemcomitans

Aggregatibacter actinomycetemcomitans

Autotransporter proteins

Doença periodontal

Extracellular matrix proteins

Outter membrane protein

Periodontal disease

Proteína de membrana externa

Proteínas autotransportadoras

Proteínas de matriz extracelular

Estudo da imunogenicidade da proteína de classe 3 (PorB) purificada da membrana externa de Neisseria miningitidis: imunização intranasal/intramuscular em camundongos adultos e neonatos utilizando Bordetella pertussis como adjuvante. / Study of the immunogenecity of the class 3 proteins (PorB) purified from the outer mebrane of Neisseria meningitidis: intranasal and intramuscular immunization in adult and neonate mice using Bordetella pertussis as adjuvant.

Raphael, Mariana Lopes Teixeira

28 March 2008

As proteínas de classe 3 são candidatas na preparação de uma vacina contra a doença meningocócica. O objetivo deste estudo é determinar a imunogenicidade da proteína de classe 3 purificada da cepa de Neisseria meningitidis do sorogrupo B juntamente com a capacidade adjuvante de whole cells de Bordetella pertussis. Foram imunizados camundongos BALB/c neonatos em um intervalo de 3 a 12 dias entre 1 e 4 doses da proteína de classe 3 mais adjuvante, pela via intranasal e no 21º dia pela via intramuscular com a proteína de classe 3 emulsificada com hidróxido de alumínio. Os resultados demonstraram que após 2 doses pela via intranasal e 1 dose pela via intramuscular houve rápido estímulo das células imunes nos camundongos adultos BALB/c e neonatos BALB/c e outbred. Todos os soros foram analisados por ELISA e immunoblot. O adjuvante B. pertussis administrado pelas vias intranasal ou intramuscular, aumentou a resposta imune comparada com os controles. Anticorpos bactericidas e de alta afinidade foram produzidos. / Proteins of class 3 sound candidates in the preparation of vaccine against meningococcal illness. The aim of this study was to determine the immunogenicity of class 3 proteins purified of Neisseria meningitidis of the serogroup B along with whole cells of Bordetella pertussis as adjuvant. BALB/c and outbred neonate mice between 3 and 12 days old were immunized with 1 to 4 doses of the purified class 3 proteins with or without adjuvant given by the intranasal route, and on the 21st day the animals received an intramuscular dose of the class 3 proteins with or without aluminum hydroxide. The results demonstrated that after 2 doses by the intranasal route and 1 dose intramuscular there was a rapid stimulation of the immune cells in BALB/c adult mice as well as BALB/c and outbred neonates mice. All sera were analyzed by ELISA and immunoblot. The adjuvant B. pertussis used in the present investigation and given via the intranasal or intramuscular route increased the immune response compared with the controls. High affinity and bactericidal antibodies were produced.

Neisseria meningitidis

Neisseria meningitidis

Adjuvantes

Adjuvants

Camundongos neonatos e adultos

Humoral immune response

Imunização intranasal

Nasal immunization

Neonates and adults mice

Outer membrane protein

Proteína de mebrana externa

Resposta imune humoral

Zur Strukturvorhersage der Membranproteine

Hildebrand, Peter

27 May 2003

Das Auffinden spezifischer Strukturmerkmale integraler Membranproteine ist eine wichtige Grundlage zum Verständnis der Stabilität und Faltung und die notwendige Voraussetzung zur Modellierung ihrer Raumstruktur. Die Aminosäurezusammensetzung der innerhalb des hydrophoben Bereichs der Membranabschnitte befindlichen alpha-Helices wird entscheidend durch dieses Milieu determiniert, wie der Vergleich mit beta-Barrel Membranproteinen und alpha-Helices globulärer Proteine zeigt. Die Untersuchung der Phi-, Psi- und Chi1-Winkel lieferte gleichwohl eine Reihe von signifikanten Besonderheiten welche speziell bei einigen polaren (Asn, Asp) bzw. aromatischen Aminosäuren (Trp, Tyr) deutlich miteinander korrelieren. Der Anteil kürzerer, der für alpha-Helices typischen i, i+4 Wasserstoffbrückenbindungen ist innerhalb der Membran insgesamt höher, was ebenfalls mit der Verschiebung der Phi- und Psi- Winkel korreliert. Die Geometrie von alpha-Helices integraler Membranproteine ist damit näherungsweise ideal. An den Enden von Membranhelices und in den Helixturns werden neben Pro und Gly häufig polare, amphiphile oder aromatische Aminosäuren gefunden. Die polaren und amphiphilen Aminosäuren liegen überwiegend in den Helixturns und im Bereich der polaren Lipidköpfchen auf der Seite der Helix, welche der Membran zugewandten ist. Zur Fettschicht im Zentrum der Membran hin ragen umgekehrt vorherrschend lipophile Aminosäureseitenketten. Dieser Gradient ist folgerichtig auch an der Aminosäurezusammensetzung der Helixcaps erkennbar, welche die transmembranen Helices zumeist intra- und extrazellulär abschließen. Helixcaps alpha-helikaler Membrandomänen sind somit spezifische, von den klassischen Caps globulärer Proteine unterscheidbare Strukturmotive. Die konsequente Trennung der Untersuchungen der alpha-helikalen Abschnitte innerhalb der hydrophoben Lipiddoppelschicht von den Helixenden im polar-wässrigen Milieu ermöglicht außerdem die Identifikation vieler Aminosäurepräferenzen für exponierte (Leu, Ile), oder verdeckte Positionen (Ser, Asn, Cys). Umgekehrt wie bei den alpha-Helices globulärer Proteine ist die Atomzusammensetzung der Solvent exponierten Aminosäureseitenketten im Zentrum der Membran doppelt so hydrophob wie im Proteininnern. / Sorting out structural patterns that are specific for integral membrane proteins is a crucial base for understanding their stability and folding and a valuable source for the modelling of their tertiary structure. The detailed comparison of alpha-helical with beta-barrel membrane proteins and alpha-helices of globular proteins pointed out, that the amino acid composition of integral membrane proteins is overwhelmingly directed by the influence of the surrounding hydrophobic milieu. Nevertheless the investigation of the phi-, psi und chi1-angles yielded remarkable peculiarities of alpha-helical membrane proteins that correlate strongly in particular for some polar (asn, asp) and aromatic (trp, tyr) amino acids. The portion of the shorter and stronger i, i+4 H-bonds, that is typically found in alpha-helices is higher within the borders of the membrane. This observation confirms the observed shift of the phi- and psi- angles as well. Consequently the geometry of alpha-helices in membrane proteins is nearly ideal. At the ends of alpha-helices and in the turns of integral membrane proteins pro, gly and those amino acids are predominant that contain polar, amphiphilic or aromatic side chains. Whilst the aromats are equally positioned at the protein inside, the polar or amphiphilic amino acids are largely found at the helix turns, or at the side of the helix that contacts the polar lipid head groups. In contrast merely hydrophobic side chains face the lipophilic tails of the fatty acids in the core of the membrane. This gradient consequently shapes the amino acid composition of the helix caps that frequently coat the transmembrane helices on both sides of the membrane, too. Hence helix caps of transmembrane domains are substantially specific structural patterns that must be distinguished from the classical caps, known from alpha-helices of globular proteins. The clear distinction of the alpha-helical parts that are in contact with the lipophilic tails of the fatty acids, from the helix ends that stretch out into the polar aqueous solvent, advances the identification of amino acid preferences either lipid-exposed (Leu, Ile) or protein-buried (Ser, Asn, Cys). Finally, in sharp contrast to the helices of globular proteins, in the core of the membrane, the atomic composition of the solvent exposed amino acid side chains is twice as hydrophobic as inside the protein.

Membranproteine

Strukturvorhersage

Helixcap

Aminosäurepräferenzen

Membrane protein

structure prediction

helixcap

amino acid preference

570 Biowissenschaften, Biologie

32 Biologie

WE 5160

ddc:570

Étude structurale d'un système d'efflux tripartite bactérien MexAB-OprM impliqué dans la résistance aux antibiotiques chez Pseudomonas aeruginosa. / Structural study of a bacterial tripartite efflux pump system, MexAB-OprM, involved in antibiotic resistance in Pseudomonas aeruginosa.

Salvador, Dimitri

20 December 2018

L'utilisation d'antibiotiques pour lutter contre les infections bactériennes a favorisé l'émergence de souches résistantes. Comprendre les mécanismes de résistance est crucial pour lutter contre ces pathogènes. Cette thèse propose une étude structurale d'une pompe à efflux multidrogues de Pseudomonas aeruginosa qui se compose d'un transporteur MexB, d'une protéine canal OprM et d'une protéine adaptateur MexA. Les partenaires du complexe tripartite stabilisés en nanodisques ont permis la formation du complexe in vitro. L'optimisation des conditions de production du complexe a permis de cribler les différents paramètres régissant son assemblage. L'étude structurale par cryo-ME révèle un complexe de 30 nm de long en conformation de repos. L'étude de la stabilisation des protéines membranaires par nanodisques a conduit au développement d'un système minimal, débarrassé des lipides. Ce système minimal a révélé la nécessité d'une phase lipidique autour de MexB pour l'assemblage du complexe. / Antibiotics use against bacterial infections has led to the emergence of resistance. Understanding the mechanisms underlying resistance to antibiotics is critical to fight against these pathogens. This thesis presents a structural study of a multidrug efflux pump in Pseudomonas aeruginosa, composed of a transporter MexB, an exit duct OprM and an adaptor protein MexA. The proteins reconstituted in nanodiscs allowed tripartite complex formation in vitro. Optimization of yield led to the identification of key parameters governing complex assembly. Structural cryo-EM study revealed a 30 nm long complex in a resting state. The study of membrane protein stabilization by nanodisks led to the development of a minimal system devoid of lipids. This system showed a lipid phase around MexB is required for complex formation.

Système tripartite d'efflux

Resistance antibiotique

Stabilisation protéines membranaires

Nanodisques

MexAB OprM

Tripartite efflux system

Antibiotic resistance

Membrane protein stabilization

Nanodiscs

MexAB OprM

Estudos estruturais e funcionais de diidroorotato desidrogenases / Structural and functional studies of dihydroorotate dehydrogenase

Carvalho, Sheila Gonçalves do Couto

28 March 2008

As enzimas diidroorotato desidrogenases (DHODHs) são flavo-enzimas que catalisam a oxidação do diidroorotato em orotato na quarta etapa da biossíntese de novo de nucleotídeos de pirimidina. Durante a rápida proliferação celular em mamíferos, a via de salvação de pirimidinas é insuficiente para suprir deficiências na síntese de nucleotídeos. Além disso, certos parasitas não possuem a via de salvação e contam somente com a biossíntese de novo para a produção de nucleotídeos. Por esta razão, DHODH se tornou um excelente alvo na busca por inibidores que interrompam a síntese de nucleotídeos. As enzimas DHODHs de E. coli (EcDHODH) e de X. fastidiosa (XfDHODH) são membros da classe 2 das DHODHs e encontram-se associadas à membrana citoplasmática através de uma extensão em seu N-terminal, enquanto que DHODH de T. cruzi (TcDHODH), membro da classe 1 de DHODHs, é uma proteína citosólica. Neste trabalho, usamos uma combinação de metodologias de biologia molecular e bioquímica com técnicas espectroscópicas para obter informações estruturais e funcionais acerca da enzima DHODH. Assim, Ressonância Paramagnética Eletrônica (RPE) associada à marcação de spin sítio dirigida (SDSL) e simulação espectral foram empregadas para estudar a interação da EcDHODH com modelos de membrana. Mudanças na dinâmica estrutural das vesículas induzidas pela enzima foram monitoradas via marcadores de spin localizados em diferentes posições ao longo da cadeia acil de fosfolipídios. Além disso, técnicas de DNA recombinante e mutações sítio dirigidas foram utilizadas para produzir mutantes de EcDHODH no qual um sondas paramagnéticas foram seletivamente ligadas em resíduos localizados na extensão N-terminal da proteína para experimentos subseqüentes de RPE-SDSL. Esses são os primeiros experimentos de marcação de spin sítio dirigida realizados no Brasil e com os quais monitoramos a dinâmica experimentada na região do N-terminal. Além disso, várias tentativas foram feitas para se expressar e purificar a enzima XfDHODH e a estabilidade estrutural da enzima TcDHODH na presença de um de seus inibidores naturais, o orotato, foi monitorada através de experimentos de Dicroísmo Circular (CD). / Dihydroorotate dehydrogenases (DHODHs) are flavin-containing enzymes which catalyse the conversion of (S)-dihydroorotate to orotate, in the fourth step of the de novo biosynthesis of pyrimidine nucleotides. In rapidly proliferating mammalian cells, pyrimidine salvage pathway is insufficient to overcome deficiencies for nucleotide synthesis. Moreover certain parasites lack salvage enzymes, relying solely on the de novo pathway to produce nucleotides. Thus, DHODH has turned out an excellent target to the development of inhibitors that block nucleotide biosynthesis. E. coli DHODH (EcDHODH) and X. fastidiosa DHODH (XfDHODH) are class 2 DHODHs found associated to cytosolic membranes through an N-terminal extension, whereas T. cruzi DHODH (TcDHODH) is a class 1 DHODH localizated in the cytoplasm. In the present work, we used a combination of molecular biology and biochemical methodologies with spectroscopic techniques to obtain structural and functional information on DHODH. On one hand, Electronic Paramagnetic Resonance (EPR) associated with Site-directed Spin Labeling (SDSL) and spectral simulation were employed to study the interaction of EcDHODH with vesicles. Changes in vesicle dynamic structure induced by the enzyme were monitored via spin labels located at different positions along the phospholipid acyl chain and via spin labels located at enzyme specific positions. On the other hand, DNA techniques and site-directed mutagenesis were used to produce mutants of EcDHODH where a nitroxide spin probe was selectively attached to some residues located at the protein N-terminal extension for subsequent EPR-SDSL experiments. These are the first site-directed spin labeling experiments performed in Brazil and the spectra allowed us to monitor dynamics experienced by those residues at the EcDHODH N-terminal domain. Furthermore, molecular biology and biochemical assays were employed with the objective of expressing and purifying XfDHODH and Circular Dichroism (CD) was utilized to probe the structural stability of TcDHODH in the presence of its natural inhibitor (orotate).

Dihydroorotate dehydrogenase

Diidroorotato desidrogenase

Interação proteína-membrana

Marcação de spin sítio dirigida

Membrane-protein inteaction

Relação estrutura-função

Site-directed spin labeling

Structure-function relationship

Influence of lipid membrane environment on the kinetics of the cytochrome P450 reductase- cytochrome P450 3A4 enzyme system in nanodiscs

Liu, Kang-Cheng

January 2017

The cytochrome P450 enzyme system is a multicomponent electron-transfer chain composed of a haem-containing monooxygenase cytochrome P450 (CYP) and one or more redox partners. Eukaryotic CYPs and their redox partner NADPH-dependent cytochrome P450 oxidoreductase (CPR) are involved in many biological processes. Each protein has one N- terminal membrane anchor domain for location within the endoplasmic reticulum (ER). In mammals, CYPs and CPR are especially abundant in liver cells, where they play important roles in the metabolism of steroids, fatty acids, and xenobiotic compounds including numerous drugs of pharmaceutical importance. Incorporation into lipid membranes is an important aspect of CYP and CPR function, influencing their kinetic properties and interactions. In this thesis, soluble nanometer-scale phospholipid bilayer membrane discs, "nanodiscs", were used as a reconstitution system to study the influence of lipid membrane composition on the activities of the abundant human CYP3A4 and human CPR. Both enzymes were expressed and purified from bacteria, and assembled into functionally active membrane-bound complexes in nanodiscs. Nanodisc assembly was assessed by a combination of native and denaturing gel electrophoresis, and a fluorimetric assay was developed to study CYP3A4 reaction kinetics using 7-benzyloxyquinoline as substrate. Kinetic properties were investigated with respect to different lipid membrane compositions: phosphatidyl choline; a synthetic lipid mixture resembling the ER; and natural lipids extracted from liver microsomes. Full activity of the CYP3A4 system, with electron transfer from NADPH via CPR, could only be reconstituted when both CYP3A4 and CPR were membrane-bound within the same nanodiscs. No activity was observed when CPR and CYP3A4 were each incorporated seperately into naodiscs then mixed together, or when soluble forms of CPR were mixed with pre-assembled CYP3A4-nanodiscs. Thus, assembly of the two proteins within the same membrane was shown to be essential for the function of the CPR-CYP3A4 electron transfer system. Comparison of the reaction kinetics in different membrane compositions revealed liver microsomal lipid to have an enhancing effect both on the activity of the assembled CPR-CYP3A4 nanodisc complex, and on the activity of CPR alone incorporated in nanodiscs, when compared either to the synthetic lipid mixture or to phosphatidyl choline alone. Thus, natural lipids appear to possess properties or include components important for the catalytic function of the CYP system, which are absent from synthetic lipid. Input of electrons, measured by NADPH consumption, exceeded product formation rate by the CPR-CYP3A4 complex in nanodiscs, indicating "leakage" in the electron flow, possibly due to uncoupling of the two enzymes. Uncoupling was shown to occur by developing a novel fluorimetric method using the dye MitSOX to detect superoxide production. The significance of this, and to what extent control of coupling could be a natural means of regulation of the CPR-CYP system, remains to be determined. Thus, phospholipid bilayer nanodiscs prove a powerful tool to enable detailed analysis of the reaction kinetics of membrane-reconstituted CPR-CYP systems, and to allow pertinent questions to be addressed concerning the integral significance of the membrane environment.

540

Structure-function studies of membrane proteins by site-specific incorporation of unnatural amino acids / Etudes structure-fonction de protéines membranaires par incorporation spécifique d'acides aminés non naturels

Tian, Meilin

20 June 2017

Les protéines membranaires comme les récepteurs, les canaux ioniques et les transporteurs possèdent des rôles cruciaux dans les processus biologiques tels que la signalisation physiologique et les fonctions cellulaires. La description dynamique et fonctionnelle des structures protéiques est fondamentale pour comprendre la plupart des processus concernant les macromolécules biologiques. L'incorporation, dans des protéines, d'acides aminés non naturels (Uaas) possédant des propriétés physiques ou chimiques spécifiques fournit un puissant outil pour définir la structure et la dynamique de protéines complexes. Ces sondes permettent le suivi et la détection en temps réel de la conformation des récepteurs et des complexes de signalisation. Les approches d'expansion du code génétique ont permis l'incorporation d'Uaas servant de sondes dans des protéines avec une précision moléculaire. L'expansion héréditaire du code génétique peut permettre d'étudier la biologie des protéines de manière systémique.Avec cette stratégie, des Uaas capables de photopontage ont été utilisés pour étudier la relation structure/fonction des Protéines G Couplées aux Récepteurs (GPCR), telles que l'identification de la liaison du ligand ou des interactions protéine-protéine, en détectant les changements dynamiques avec les Uaas spectroscopiques et l'étiquetage bioorthogonal. Sur la base d'applications relativement bien établies d'Uaa dans les GPCR, ici, les analyses fonctionnelles sont combinées à l'incorporation génétique d'un Uaa photosensible spécifique au site, p-azido-L-phénylalanine (AzF) dans d'autres protéines membranaires, pour détecter la protéine, les changements conformationnels et les interactions protéiques. Contrairement à d’autres molécules photosensibles qui permettent aux protéines de répondre à la lumière, l'insertion des Uaas directement dans la chaine d’acides aminés offre des possibilités uniques pour le photo-contrôle de la protéine. Les aspects dynamiques de l'allostérie sont plus difficiles à visualiser que les modèles structuraux statiques. Une stratégie photochimique est présentée pour caractériser la dynamique des mécanismes allostériques des récepteurs NMDA neuronaux (NMDAR). Ces récepteurs appartiennent à la famille des canaux ioniques activés par le glutamate et portent la transmission synaptique excitatrice rapide associée à l'apprentissage et à la mémoire. En combinant le balayage AzF et un test fonctionnel résistant à la lumière, nous avons pu apporter des éléments permettant de mieux comprendre la dynamique des interfaces NTD (N-Terminal Domain des NMDAR) ainsi qu’un nouveau mécanisme de régulation allostérique, améliorant notre compréhension de la base structurale du mécanisme d’activation et de modulation des récepteurs NMDA.Outre l'incorporation de l’Uaa photopontant AzF dans les récepteurs neuronaux pour détecter l'effet fonctionnel, AzF a été appliqué pour piéger des interactions faibles et transitoires entre protéines dans un transporteur d'acides aminés LAT3, impliqué dans le cancer de la prostate. Les techniques de dépistage ont été établies en appliquant un photo-cross-linker positionné dans la protéine pour examiner les interactions entre LAT3 et les interacteurs inconnus et fournir des indices d'identification des partenaires de liaison.Dans l'ensemble, ce travail dévoile de nouvelles informations sur la modulation allostérique de l'activité du récepteur NMDA et sur les interactions protéines-protéines.. Les résultats pourraient fournir de nouvelles informations structurales et fonctionnelles et guider le dépistage de composés thérapeutiques pour des maladies associées au dysfonctionnement de ces protéines membranaires. / Membrane proteins including receptors, channels and transporters play crucial roles in biological processes such as physiological signaling and cellular functions. Description of dynamic structures and functions of proteins is fundamental to understand most processes involving biological macromolecules. The incorporation of unnatural amino acids (Uaas) containing distinct physical or chemical properties into proteins provides a powerful tool to define the challenging protein structure and dynamics. These probes allow monitoring and real-time detection of receptor conformational changes and signaling complexes. The genetic code expansion approaches have enabled the incorporation of Uaas serving as probes into proteins with molecular precision. Heritable expansion of the genetic code may allow protein biology to be investigated in a system-wide manner.With this strategy, photocrosslinking Uaas have been used to study GPCR structure/function relationship, such as identifying GPCR-ligand binding or protein-protein interactions, detecting dynamic changes with spectroscopic Uaas and bioorthogonal labeling. Based on relatively well-established applications of Uaa in GPCRs, here, functional assays are combined with the site-specific genetic incorporation of a photo-sensitive Uaa, p-azido-L-phenylalanine (AzF) into other membrane proteins, to probe protein conformational changes and protein interactions. Unlike photo-sensitive ligands that enable proteins in response to light, the site-specific insertion of light-sensitive Uaas facilitates directly light-sensitive proteins. Dynamic aspects of allostery are more challenging to visualize than static structural models. A photochemical strategy was presented to characterize dynamic allostery of neuronal NMDA receptors (NMDARs), which belong to the ionotropic glutamate receptor channel family and mediate the fast excitatory synaptic transmission associated with learning and memory. By combining AzF scanning and a robust light-induced functional assay the dynamics of NMDAR N-terminal domain (NTD) interfaces and novel allosteric regulation mechanism were uncovered, improving our understanding of the structural basis of NMDAR gating and modulation mechanism.Besides incorporation of photo-cross-linker AzF into neuronal receptors to detect the functional effect, AzF was used to trap transient and weak protein-protein interactions in an amino acid transporter LAT3, which is critical in prostate cancer. Screening technique was established by applying genetically encoded photo-cross-linker to examine interactions between LAT3 and unknown interactors and provide clues to identify the binding partners.Overall, the work reveals new informations about the allosteric modulation of channel activity and proteins interactions. These light-sensitive proteins facilitated by site-specific insertion of light-sensitive Uaas enable profiling diversity of proteins. The results will provide novel structural and functional information and may guide screening of therapeutic compounds for diseases associated with malfunctioning of these membrane proteins.

Acides aminés non naturels

Expansion du code génétique

Structure / fonction des protéines

Récepteur NMDA

Protéine photosensible

Protéines membranaires

Unnatural amino acids (Uaas)

Genetic code expansion

Structure/function of membrane protein

572.6

A structural and functional study of the second periplasmic loop P2 of MalF in the maltose transporter of Escherichia coli

Jacso, Tomas

25 November 2010

ABC (ATP-binding-cassette)-Transporter katalysieren den ATP-abhängigen Transport diverser niedermolekularer Substanzen durch die biologische Zellmembran. Ihr Vorkommen erstreckt sich auf alle drei Domänen des Lebens. Der Maltose Transporter von E.coli gehört zu dieser Superfamilie der ABC-Transporter. Die Kristallstrukturen des Transporters MalFGK2 wurden kürzlich gelöst für dessen inaktiven Zustand als auch für dessen katalytischen Zwischenzustand. Um den Transportmechanismus besser verstehen zu können, müssen die Kristallstrukturen des Transporters und seiner Komponenten unter physiologischen Bedingungen genau geprüft werden, um den daraus katalytischen Mechanismus zu bewerten. Im rahmen der Dissertation konnte mittels Lösungs-NMR kann gezeigt werden, dass die periplasmatische Schleife P2 von MalF eine unabhängige Faltung aufweist und eine wohl definierte Tertiärstruktur einnimmt, die vergleichbar ist mit der im Kristall vorliegenden Konformation. MalF-P2 interagiert unabhängig von der Transmembranregion von MalF und MalG mit dem Maltose-Bindeprotein in An- und Abwesenheit des Substrats mit einem KD im mikromolaren Bereich. NMR Untersuchungen zu den an der Interaktion beteiligten Aminosäuren stehen in Einklang mit den Kristallstrukturdaten. Die Analyse residualer dipolarer Kopplungen (RDC) zeigt, dass die Konformation der zwei individuellen Domänen von MalF-P2 in Abwesenheit von MalE erhalten bleibt und der im Kristall ähnelt. Die Zugabe von MalE induziert eine Änderung der relativen Orientierung der zwei Domänen von MalF-P2 um so dem räumlichen Anspruch des Liganden gerecht zu werden. Besonders betroffen hiervon ist die Domäne 2 von MalF-P2, deren Konformation abweicht von der in der Kristallstruktur. Die Struktur der Domäne 1 dagegen bleibt konserviert, während sich lediglich ihre relative Orientierung zu Domäne 2 ändert. MD Simulationen des MalF-P2-MalE-Komplexes deuten auf eine stark dynamische Interaktion von MalF-P2 mit der MalE Bindungsregion hin. NMR CPMG Kinetikstudien weisen auf die Bildung eines ungewöhnlichen Knicks in alhpa-Helix alpha2 während der Assoziation hin. Diese konformelle Änderung der alpha-Helix findet auf einer Zeitskala von Millisekunden statt, was im Einklang mit der Austauschrate der Komplexbildung ist. / ABC (ATP-binding-cassette)-transporters catalyze the ATP-dependent transport of diverse solutes across the cellular membrane. They are present in all three kingdoms of life. The E.coli maltose transporter belongs to the ATP binding cassette (ABC) transporter superfamily. Recently, the crystal structures of the full transporter MalFGK2 in its resting and a catalytic intermediate state was solved. At the present state of research, it is of particular interest to scrutinize the X-ray structures of the transporter and its components under physiological conditions as well as to evaluate their implications for the catalytic mechanism. In the context of the PhD thesis, it could be shown using solution-state NMR that the periplasmic loop P2 of MalF folds independently in solution and adopts a well-defined tertiary structure, which is similar to the one found in the crystal structure. MalF-P2 interacts with the maltose binding protein, independent of the transmembrane region of MalF and MalG, with a KD in the µM range, in the presence and absence of substrate. NMR studies showed good agreement of the residues interacting in solution to those identified in the X-ray structure. Analysis of residual dipolar coupling (RDC) experiments shows that the conformation of the two individual domains of MalF-P2 is preserved in the absence of MalE, and resembles the conformation in the X-ray structure. Upon titration of MalE to MalF-P2, the two domains of MalF-P2 change their relative orientation in order to accommodate the ligand. In particular, a conformational change of domain 2 of MalF-P2 is induced, which is distinct to the conformation found in the X-ray structure. Domain 1 retains its structure but changes its relative orientation to domain 2. MD simulations of the MalF-P2 – MalE complex show a highly dynamic interaction of MalF-P2 to the MalE interface. From NMR CPMG kinetic studies, a peculiar kink of alpha-helix alpha2 can be seen introduced upon association. The transition time of this conformational change of the alpha-helix is on the ms timescale, which is matching the exchange rate of the complex formation.

ABC Transporter

membran Protein

Lösungs-NMR

Maltose Transporter

ABC transporter

membrane protein

solution-state NMR

Maltose transporter

570 Biowissenschaften, Biologie

32 Biologie

WE 5440

ddc:570