Exploring the Interplay of Lipids and Membrane Proteins

Ariöz, Candan

January 2014

The interplay between lipids and membrane proteins is known to affect membrane protein topology and thus have significant effect (control) on their functions. In this PhD thesis, the influence of lipids on the membrane protein function was studied using three different membrane protein models. A monotopic membrane protein, monoglucosyldiacylglyecerol synthase (MGS) from Acholeplasma laidlawii is known to induce intracellular vesicles when expressed in Escherichia coli. The mechanism leading to this unusual phenomenon was investigated by various biochemical and biophysical techniques. The results indicated a doubling of lipid synthesis in the cell, which was triggered by the selective binding of MGS to anionic lipids. Multivariate data analysis revealed a good correlation with MGS production. Furthermore, preferential anionic lipid sequestering by MGS was shown to induce a different fatty acid modeling of E. coli membranes. The roles of specific lipid binding and the probable mechanism leading to intracellular vesicle formation were also investigated. As a second model, a MGS homolog from Synechocystis sp. PCC6803 was selected. MgdA is an integral membrane protein with multiple transmembrane helices and a unique membrane topology. The influence of different type of lipids on MgdA activity was tested with different membrane fractions of Synechocystis. Results indicated a very distinct profile compared to Acholeplasma laidlawii MGS. SQDG, an anionic lipid was found to be the species of the membrane that increased the MgdA activity 7-fold whereas two other lipids (PG and PE) had only minor effects on MgdA. Additionally, a working model of MgdA for the biosynthesis and flow of sugar lipids between Synechocystis membranes was proposed. The last model system was another integral membrane protein with a distinct structure but also a different function. The envelope stress sensor, CpxA and its interaction with E. coli membranes were studied. CpxA autophosphorylation activity was found to be positively regulated by phosphatidylethanolamine and negatively by anionic lipids. In contrast, phosphorylation of CpxR by CpxA revealed to be increased with PG but inhibited by CL. Non-bilayer lipids had a negative impact on CpxA phosphotransfer activity. Taken together, these studies provide a better understanding of the significance of the interplay of lipids and model membrane proteins discussed here.

Membrane lipids

membrane proteins

anionic lipids

membrane remodeling

intracellular vesicles

model membrane systems

glycosyltransferase

Escherichia coli

lipid composition

fatty acid modification

membrane curvature

bacterial homeoviscous adaptation

Estudos da interação de peptídeos antimicrobianos com modelo de membrana por simulações de dinâmica molecular / Studies of the interaction of antimicrobial peptides with model membrane for molecular dynamics simulations

Tavares, Rafaela Magalhães [UNESP]

01 March 2016

Submitted by Rafaela Magalhães Tavares null (rafaelarmt@yahoo.com.br) on 2016-04-19T11:40:30Z No. of bitstreams: 1 RAFAELA MAGALHAES TAVARES - DISSERTAÇÃO.pdf: 2642568 bytes, checksum: d735adb9c5a571ebaf0a5f7274658a8b (MD5) / Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2016-04-26T12:34:50Z (GMT) No. of bitstreams: 1 tavares_rm_me_sjrp.pdf: 2642568 bytes, checksum: d735adb9c5a571ebaf0a5f7274658a8b (MD5) / Made available in DSpace on 2016-04-26T12:34:50Z (GMT). No. of bitstreams: 1 tavares_rm_me_sjrp.pdf: 2642568 bytes, checksum: d735adb9c5a571ebaf0a5f7274658a8b (MD5) Previous issue date: 2016-03-01 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Nos últimos anos, o interesse por estudar peptídeos com atividade antimicrobiana e anticâncer tem aumentado consideravelmente. Neste trabalho, direcionamos nossos estudos para os peptídeos antimicrobianos da classe dos matoparanos extraídos do veneno da vespa social Polybia paulista: o Polybia-MP III (MP-III), Polybia-MP I (MP-I) e seu sintético análogo, o Asn2-Polybia-MP I (NMP-I). Com o objetivo de estudar a interação desses peptídeos com um modelo de membrana composta por lipídeos do tipo POPC (Palmitoil-Oleil-Fosfatidil-Colina) em solução aquosa, realizamos dois tipos de simulações de Dinâmica Molecular (DM). Primeiramente, foram realizadas simulações no equilíbrio com a finalidade de amostrar o comportamento geral do sistema. Em seguida, para investigarmos especificamente o processo de adsorção do peptídeo à bicamada, realizamos simulações de DM com a utilização do método Adaptive Biasing Force (ABF), o que nos permitiu calcular o perfil de energia livre desse processo. Dentre os três peptídeos estudados, o que mais se destacou com relação a sua interação com o modelo de membrana, na simulação no equilíbrio, foi o peptídeo MP-I, por ser o único a se adsorver na bicamada com 200ns de simulação. Com a utilização do método ABF, verificamos que a posição mais estável para cada peptídeo é a posição na qual estes estão paralelos à face da bicamada, com a face hidrofóbica de cada peptídeo voltada para o interior da membrana, e a face hidrofílica voltada para o meio aquoso. Além disso, os resíduos hidrofílicos estão em contato com o grupo polar dos fosfolipídeos e com a água, e o resíduo de triptofano encontra-se posicionado na interface hidrofóbica/hidrofílica. Os resultados obtidos na simulação no equilíbrio para o peptídeo MP-I, que foi o único a se adsorver na bicamada, estão de acordo com os resultados obtidos pelo método ABF, e ambos concordam com resultados experimentais da literatura. / In recent years, interest in studying peptides with antimicrobial and anti-cancer activity has increased considerably. In this study, we focus our studies on antimicrobial peptides of the mastoparans class extracted from the venom of the social wasp Polybia paulista: the Polybia-MP III (MP III), Polybia-MP I (MP-I) and its synthetic analogue, the Asn2-Polybia-MP I (NMP-I). In order to study the interaction of these peptides with a model of membrane composed of POPC (Palmitoyl-Oleoyl-Phosphatidyl-Choline) lipids type in aqueous solution, we conducted two types of molecular dynamics simulations (MD). At first, a balance system simulation was performed in order to get a sampling of the general behavior of the system. Then, to investigate the adsorption of the peptide to the bilayer, MD simulations using Adaptive Biasing Force (ABF) method was performed, which allowed us to calculate the free energy profile of this process. Among the three studied peptides, the MP-I peptide was the one that stood out related to its interaction with the membrane model, in the simulation on balance, for being the one to adsorb the bilayer with simulation of 200ns. Using the ABF method, we verified that the most stable position for each peptide is the position in which they are parallel to the surface of the bilayer with the hydrophobic side of each peptide facing into the membrane, and the hydrophilic side facing the aqueous solution. In addition, the hydrophilic residues are in contact with the polar group of the phospholipid and water, and the tryptophan residue is positioned on the hydrophobic/hydrophilic interface. The results of the simulation in balance for the MP-I peptide, which was the only adsorbed in the bilayer, are in agreement with the results obtained by the method ABF, and both agree with experimental results in the literature.

Energia livre

Model membrane

Peptídeos antimicrobianos

Dinâmica molecular

Modelo de membrana

Método adaptive biasing force

Antimicrobial peptides

Molecular dynamics

Free energy

Adaptive biasing force method

Interação entre um peptídeo antimicrobiano e vesículas de fosfolipídeos / Interaction between an antimicrobial peptide and phosfolipids membranes.

Nathaly Lopes Archilha

16 February 2009

Neste trabalho, estudamos a interação de um peptídeo antimicrobiano com membranas modelo, por meio de dicroísmo circular (CD), fluorescência e microscopia óptica. Tal peptídeo, chamado de híbrido, foi sintetizado como uma mistura das regiões mais ativas de dois outros peptídeos antimicrobianos, chamados de pediocina A e plantaricina 149. Esse peptídeo híbrido possui carga de +8, em pH fisiológico, e as membranas estudadas foram compostas por uma mistura de fosfolipídeos zwiteriônicos (cabeça polar de fosfatidilcolina, PC) e aniônicos (cabeça polar de fosfatidilglicerol, PG), em diferentes razões molares. Os resultados de CD evidenciaram que este peptídeo se apresenta de forma desordenada em solução aquosa, porém adota uma conformação helicoidal na presença de grandes vesículas unilamelares carregadas negativamente (LUVs). A quantidade de componente helicoidal é dependente da quantidade de lipídeo negativo presente na bicamada lipídica. A fluorescência do triptofano revelou um deslocamento para o azul muito significativo, chegando a 20 nm para membranas compostas por 100 mol% de PG. Os dois resultados (CD e fluorescência) indicam que a região dos aminoácidos que contém o triptofano deve estar interagindo muito fortemente com a região hidrofóbica da membrana, numa conformação tipo-helicoidal. Experimentos de vazamento de carboxifluoresceína encapsulada em LUVs, por espectroscopia de fluorescência, demonstraram a ação lítica do peptídeo induzindo a formação de poros nas membranas, independentemente da composição das LUVs. Entretanto, a razão molar peptídeo:lipídeo necessária para induzir vazamento da sonda foi menor para membranas lipídicas compostas por bicamadas contendo altas quantidades de PG. Tal fato coloca em evidência o papel fundamental da interação eletrostática entre os peptídeos carregados positivamente com as membranas carregadas negativamente para o processo de ligação e mecanismo de ação deste peptídeo. Para estudar mais detalhadamente o mecanismo de ação, realizamos experimentos de microscopia óptica em vesículas unilamelares gigantes. Concluímos que o peptídeo provoca total desestabilização das vesículas unilamelares gigantes, com formação de poros, seguidos de ruptura da bicamada lipídica e sua transformação em pequenos e mal definidos complexos de peptídeos e fosfolipídeos. / In this work, we investigated the interaction between an antibacterial peptide with model membranes, by means of circular dichroism (CD), fluorescence and optical microscopy. Such a peptide was synthesized from the most active regions of two others antimicrobial peptides, namely pediocin A and plantaricin 149. The hybrid peptide has a net charge of ~ +8, at physiological pH, and the studied model membranes were composed of a mixture of zwitterionic phospholipids (phosphatidylcholine polar head) and anionic phospholipids (phosphatidylglycerol polar head), at differente molar ratio. The CD results evidenced that the peptide was essentially structureless in aqueous solution, but acquired an helical conformation in the presence of charged large unillamellar vesicles LUVs. The helical content is dependent on the negative charge amount on membrane surface. The tryptophan fluorescence revealed a significant blue shift of the maximium emission wavelength, up to 20 nm for the membranes composed of 100 mol% of PG in respect to the peptide fluorescence in the aqueous solution. This indicates that part of the aminoacid residues, that contains the tryptophan, must be buried into the hydrophobic medium of the lipid membrane. Leakage experiments using fluorescence spectroscopy of carboxyfluorescein encapsulated in LUVs demonstrated the lytic action of the peptide, inducing the pore formation in the membrane, regardless of lipid membrane composition. However, it should be stressed that the peptide:lipid molar ratio necessary to induce probe leakage was smaller for lipid membranes made up of large PG amounts. Such evidence points out the key role of the electrostatic interaction between a positively charged peptide and the negatively charged membrane, mediated by hydrophobic contribution. To gain further insight into the lytic mechanism of the peptide, we performed single vesicle experiments using giant unilamellar vesicles under optical microscopy observations. We conclude that the peptide provokes a total membrane desestabilization, with pore formation, followed by a membrane disruption and its transformation into smaller and not well defined complexes of phospholipids and peptides.

Detergentes

Dicroísmo circular

Espectroscopia de fluorescência

Membrana modelo

Microscopia óptica

Peptídeo antimicrobiano

Vesículas gigantes

Antimicrobial peptide

Circular dichroism

Detergents

Fluorescence spectros copy

Giante vesicles

Model membrane

Optical microscopy

Molecular dynamics study of pyrene excimer formation and oxidation in lipid bilayer models / Etude par dynamique moléculaire de formation d'excimères et de mélanges de lipides oxydés dans les membranes lipides modèles

Ayoub, Pierre

16 December 2015

Nous proposons une nouvelle approche pour déterminer le coefficient de diffusion dans des membranes lipidiques se basant sur la formation d'excimères. Alors que les autres modèles statistiques considèrent le système comme un ensemble de points sur un réseau, nous utilisons un modèle à gros grain afin d'étudier des bicouches lipidiques simulées à l'aide du champs de force Martini. Nous déterminons le taux de réaction dépendant du temps à partir des probabilités de survie obtenues a posteriori à l'aide des trajectoires numeriques des bicouches symétriques de DOPC (1,2-Dioleoyl-sn-glycero-3-phosphocholine) et POPC (1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine) simulées à 283 K et 293 K respectivement. Les dynamiques de collision sont obtenues en distinguant virtuellement les molécules simulées. Les sondes fluorescentes sont supposées semblables aux lipides, et par conséquent, ne modifient pas la dynamique. Nous obtenons une expression générale pour la probabilité de survie en combinant approximation des paires indépendantes et propriétés d'échelle, mais aucune hypothèse n'est faite pour le taux de formation d'excimère. En superposant les intensités d'émission de fluorescence normalisées, déterminées numériquement, aux courbes de titrations expérimentales, nous obtenons deux ensembles de résultats pour le coefficient de diffusion latéral, selon que l'association entre feuillets est autorisée ou pas. Nous utilisons un rayon de capture de 0.5 nm, la distance à partir de laquelle les deux sondes réagissent pour former un excimère. En comparant la dynamique Martini aux expériences de fluorescence, il est possible d'estimer le facteur d'accélération. / We propose a novel approach to extract the lateral diffusion coefficient in lipid bilayers using excimer formation. In contrast to previous statistical models that modeled the system as points undergoing jumps from site to site on a lattice, we use coarse-grained molecular dynamics to study lipid bilayers simulated using the Martini force field. We derive time dependent reaction rates from survival probabilities obtained a posteriori from numerically generated trajectories of symmetric DOPC (1,2-Dioleoyl-sn-glycero-3-phosphocholine) and POPC (1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine) bilayers at 283K and 293K respectively. Collision dynamics are determined by virtually relabeling the simulated molecules. The fluorescent probes are assumed to behave like ordinary membrane lipids and therefore the dynamics remain unaffected. We derive a generalized expression for the survival probability combining independent pairs and size scaling assumptions, but no assumption is made regarding the kinetic rate of the excimer formation process. By fitting the numerically determined normalized fluorescence emission intensities to experimental titration curves, we obtain two sets of results for the lateral diffusion coefficients depending whether interleaflet excimer association is allowed or not. We use a capture radius of 0.5 nm, the distance at which the probes react to form excimers. By relating Martini dynamics to real fluorescence experiments, we estimate the numerical Martini acceleration factor. We also study mixtures of oxidized-non oxidized DOPC and POPC bilayers using a hydroperoxidized model of these lipids for different concentrations of the oxidized component (3.1%, 25% and 50%). Using pair correlation functions, we extract structural information on the systems and determine whether the two components are prone to mixing or not. Finally, we calculate the thermodynamic mixing parameters within the framework of the virial expansion.

Modèle membrane

Dynamique moléculaire

DOPC

POPC

Gros-grains

Formation d' excimère

Pyrène

Oxidation

Coefficient de diffusion

Model membrane

Molecular dynamics

DOPC

POPC

Coarse-grain

Excimer formation

Pyrene

Oxidation

Diffusion coefficient

539.1

Apoptosis regulation via the mitochondrial pathway : membrane response upon apoptotic stimuli / Régulation de l'apoptose au niveau mitochondrial : réponse membranaire à des stimuli apoptotiques

Sani, Marc Antoine

07 November 2008

Le but de cette thèse est de montrer la réponse de la membrane mitochondriale au cours la régulation de l’apoptose en étudiant l’effet de domaines clés sur la dynamique membranaire et l’importance de la composition phospholipidiques des modèles utilisés. Le domaine BH4 est la partie spécifique anti-apoptotique de la famille Bcl-2. La première étape a été de synthétiser le peptide par voie chimique en utilisant la synthèse peptidique en phase solide. Un protocole décrivant les étapes de purification par chromatographie liquide et de caractérisation par spectroscopie de masse, garantissant une pureté indispensable pour des études biophysiques, a été établi. La modification de la structure secondaire du peptide interagissant avec des vésicules a été étudiée par spectroscopie infrarouge ainsi que par dichroïsme circulaire. Le peptide s’agrège à la surface et s’insère peu profondément dans la partie hydrophobe de la membrane. En utilisant la résonance magnétique nucléaire (RMN) et la calorimétrie, il a été montré que le peptide BH4 modifie l’organisation et la dynamique des liposomes mimant la surface mitochondriale. La deuxième étude a porté sur la première hélice de la protéine pro-apoptotique Bax (Bax-a1) qui a la propriété de diriger la protéine cytosolique vers la mitochondrie. Un protocole de synthèse et purification a été à nouveau établi. Le but de cette étude est de démontrer le rôle de l’interaction spécifique entre la cardiolipine, un phospholipide uniquement présent dans la mitochondrie et le peptide Bax-a1. Les études RMN ont montré que Bax-a1 n’interagissait uniquement que si la cardiolipine était présente, produisant un fort effet électrostatique piégeant le peptide à la surface de la membrane. Enfin, un nouveau protocole permettant d’étudier la réponse des lipides de mitochondries isolées toujours actives par RMN est présenté. Le but est de pouvoir directement observer les modifications subies par chaque phospholipide de la mitochondrie. . / The aim of this thesis was the investigation of the mitochondrial response mechanisms upon apoptotic stimuli. The specific objectives were the biophysical characterization of membrane dynamics and the specific roles of lipids in the context of apoptotic regulation occurring at the mitochondrion and its complex membrane systems. The BH4 domain is an anti-apoptotic specific domain of the Bcl-2 protein. Solid phase peptide synthesis was used to produce large amount of the peptide for biophysical studies. A protocol has been established and optimized, guarantying the required purity for biophysical studies. In detail the purification by high performance liquid chromatography and the characterisation via mass spectroscopy are described. The secondary structure of BH4 changes significantly in the presence of lipid vesicles as observed by infrared spectroscopy and circular dichroism. The BH4 peptide aggregates at the membrane surface and inserts slightly into the hydrophobic part of the membrane. Using nuclear magnetic resonance (NMR) and calorimetry techniques, it could even be shown that the BH4 domain modifies the dynamic and organization of the liposomes which mimic a mitochondrial surface. The second study was on the first helix of the pro-apoptotic protein Bax. This sequence called Bax-a1 has the function to address the cytosolic Bax protein to the mitochondrial membrane upon activation. Once again a protocol has been established for the synthesis and purification of this peptide. The aim was to elucidate the key role of cardiolipin, a mitochondria-specific phospholipid, in the interaction of Bax-a1 with the mitochondrial membrane system. The NMR and circular dichroism studies showed that Bax-a1 interacts with the membrane models only if they contain the cardiolipin, producing a strong electrostatic lock effect which is located at the membrane surface. Finally, a new NMR approach was developed which allows the investigation of the lipid response of isolated active mitochondria upon the presence of apoptotic stimuli. The goal was there to directly monitor lipid specific the occurring changes during these physiological activities.

Apoptose

Cardiolipine

Peptide BH4

Synthèse peptidique en phase solide

Peptide Bax-a1

Dichroïsme circulaire

Modèle de membrane

RMN des solides

Apoptosis

BH4 peptide

Bax-a1 peptide

Model membrane

Cardiolipin

Solid phase peptide synthesis

Circular dichroism

Solid-state nuclear magnetic

Resonance spectroscopy