Proteomická analýza membránových proteinů myokardu / Proteomic analysis of myocardial integral membrane proteins

Oliva, Tomáš

January 2019

Cardiovascular diseases (CVD) are the leading cause of morbidity and mortality in Europe. Over 4 million people die from CVDs annually and another 11 million people develops CVDs every year. These numbers show that there is a need for better diagnostic, prognostic and predictive biomarkers and, more importantly, a need for new and more efficient drugs. Integral membrane proteins (IMPs) are ideal candidates for new drug targets. However, a study of IMPs represents a major challenge in current proteomics. This challenge is associated with the low abundance of IMPs, their low solubility in aqueous solvents and the absence of trypsin cleavage sites in their transmembrane segments. To overcome these issues, methods that selectively target either N-glycosylated extra-membrane segments (CSC, SPEG, N-glyco-FASP) or transmembrane segments (hpTC) were developed. In this thesis we employed a combination of two N-glyco-capture methods (SPEG and N-glyco-FASP) performed on two different samples (membrane-enriched fraction and total tissue lysate) with analysis of membrane-embedded IMP segments by hpTC and with standard non-targeted "detergent+trypsin" approach to analyze rat myocardial membrane proteome. We also performed an evaluation of employed methods for preparation of membrane fraction by western blot...

Molecular Dynamics Simulation Of Transmembrane Helices And Analysis Of Their Packing In Integral Membrane Proteins

Iyer, Lakshmanan K

09 1900

No description available.

Integral Membrane Proteins (IMPs)

Transmembrane Helices

Bacteriorhodopsin

Rhodopsin

Transmembrane Helix

Proline Helix I1

Proteins - Molecular Dynamics

Biochemistry

Crumbs Affects Protein Dynamics In Anterior Regions Of The Developing Drosophila Embryo

Knust, Elisabeth, Firmino, João, Tinevez, Jean-Yves

18 January 2016

Maintenance of apico-basal polarity is essential for epithelial integrity and requires particular reinforcement during tissue morphogenesis, when cells are reorganised, undergo shape changes and remodel their junctions. It is well established that epithelial integrity during morphogenetic processes depends on the dynamic exchange of adherens junction components, but our knowledge on the dynamics of other proteins and their dynamics during these processes is still limited. The early Drosophila embryo is an ideal system to study membrane dynamics during morphogenesis. Here, morphogenetic activities differ along the anterior-posterior axis, with the extending germband showing a high degree of epithelial remodelling. We developed a Fluorescence Recovery After Photobleaching (FRAP) assay with a higher temporal resolution, which allowed the distinction between a fast and a slow component of recovery of membrane proteins during the germband extension stage. We show for the first time that the recovery kinetics of a general membrane marker, SpiderGFP, differs in the anterior and posterior parts of the embryo, which correlates well with the different morphogenetic activities of the respective embryonic regions. Interestingly, absence of crumbs, a polarity regulator essential for epithelial integrity in the Drosophila embryo, decreases the fast component of SpiderGFP and of the apical marker Stranded at Second-Venus specifically in the anterior region. We suggest that the defects in kinetics observed in crumbs mutant embryos are the first signs of tissue instability in this region, explaining the earlier breakdown of the head epidermis in comparison to that of the trunk, and that diffusion in the plasma membrane is affected by the absence of Crumbs.

Zellmembranen

Embryonen

Membranproteine

Embryos

Cell membranes

Membrane proteins

Drosophila melanogaster

Cell polarity

Curve fitting

Integral membrane proteins

ddc:610

rvk:XA 10000

Phosphorylcholine based amphiphilic polymers for the solubilization of integral membrane proteins

Diab, Charbel

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Solubilization

Amphipols

Integral membrane proteins

Phosphorylcholine

Amphiphilic macromolecules

Detergent

Mixed micelles

ITC

Solubilisation

Amphipols

Protéines

Transmembranaires

Phosphorylcholine

Macromolécules amphiphiles

Détergent

Micelles mélangées

ITC

Impact of glucose uptake rate on recombinant protein production in Escherichia coli

Bäcklund, Emma

January 2011

Escherichia coli (E. coli) is an attractive host for production of recombinant proteins, since it generally provides a rapid and economical means to achieve high product quantities. In this thesis, the impact of the glucose uptake rate on the production of recombinant proteins was studied, aiming at improving and optimising production of recombinant proteins in E. coli. E. coli can be cultivated to high cell densities in bioreactors by applying the fed-batch technique, which offers a means to control the glucose uptake rate. One objective of this study was to find a method for control of the glucose uptake rate in small-scale cultivation, such as microtitre plates and shake flasks. Strains with mutations in the phosphotransferase system (PTS) where used for this purpose. The mutants had lower uptake rates of glucose, resulting in lower growth rates and lower accumulation of acetic acid in comparison to the wild type. By using the mutants in batch cultivations, the formation of acetic acid to levels detrimental to cell growth could be avoided, and ten times higher cell density was reached. Thus, the use of the mutant strains represent a novel, simple alternative to fed-batch cultures.   The PTS mutants were applied for production of integral membrane proteins in order to investigate if the reduced glucose uptake rate of the mutants was beneficial for their production. The mutants were able to produce three out of five integral membrane proteins that were not possible to produce by the wild-type strain. The expression level of one selected membrane protein was increased when using the mutants and the expression level appeared to be a function of strain, glucose uptake rate and acetic acid accumulation. For production purposes, it is not uncommon that the recombinant proteins are secreted to the E. coli periplasm. However, one drawback with secretion is the undesired leakage of periplasmic products to the medium. The leakage of the product to the medium was studied as a function of the feed rate of glucose in fed-batch cultivations and they were found to correlate. It was also shown that the amount of outer membrane proteins was affected by the feed rate of glucose and by secretion of a recombinant product to the periplasm. The cell surface is another compartment where recombinant proteins can be expressed. Surface display of proteins is a potentially attractive production strategy since it offers a simple purification scheme and possibilities for on-cell protein characterisation, and may in some cases also be the only viable option. The AIDA-autotransporter was applied for surface display of the Z domain of staphylococcal protein A under control of the aidA promoter. Z was expressed in an active form and was accessible to the medium. Expression was favoured by growth in minimal medium and it seemed likely that expression was higher at higher feed rates of glucose during fed-batch cultivation. A repetitive batch process was developed, where relatively high cell densities were achieved whilst maintaining a high expression level of Z. / QC 20110608

AIDA-autotransporter

Escherichia coli

fed-batch

glucose uptake rate

integral membrane proteins

outer membrane proteins

periplasmic retention

phosphotransferase system

recombinant proteins

specific growth rate

surface expression

Biology

Biologi

Improved Techniques for Protein Analysis Focusing on Membrane Proteins and Hydrophobic Peptides

Redeby, Theres

January 2006

In this thesis, the vital cell functions performed by integral membrane proteins (IMPs) are briefly discussed. Such proteins are under-represented in most protein studies due to the hydrophobic nature of IMPs, which seriously complicate their solubilization, sample handling, preparation, separation and analysis. Conventional analytical techniques include for example matrix-assisted laser desorption/ionization mass spectrometry (MALDIMS), capillary electrophoresis (CE) and reversed phase high-performance liquid chromatography (RP-HPLC). Presented here are methods and protocols, which have been developed especially for IMP and hydrophobic peptide analysis, using the abovementioned techniques. The fluorinated organic solvent hexafluoroisopropanol (HFIP) has previously been shown beneficial as an additive for solubilization of hydrophobic analytes, which are poorly soluble in commonly used organic solvents or water. In Papers I-IV, HFIP is successfully exploited as solvent for the investigated IMPs and peptides. The simple fabrication and the focusing effect of a new structured MALDI target plate are presented in Paper I. This target plate contains concentrating sample spots, specifically designed to provide increased sensitivity for hydrophobic protein and peptide MALDI-MS analysis. When replacing a regular steel target with this new structured MALDI plate, more than a five-fold increase in average sensitivity is achieved for HFIP solubilized hydrophobic peptides. The full-length IMP bacteriorhodopsin (BR) and a cyanogen bromide digest thereof are used as model samples for the development of sample handling procedures in Paper II, and the peptides were used for evaluation of the MALDI-target plate in Paper I. Furthermore, the CE separation of the peptides, fractionation onto the structured MALDI plate and following MS analysis is presented in Paper III. Nine of the ten theoretical BR peptides were detected using this method. A protocol for the purification and analysis of chloroplast membrane proteins from the green macroalga Ulva lactuca has been described in Paper IV. The highest protein yield was achieved when proteins were extracted in HFIP, directly from the chloroplasts. The MALDI-MS analysis of samples with and without previous RP-HPLC fractionation revealed proteins with molecular weights ranging between 1 and 376 kDa. In Paper V, a closed-open-closed CE system is presented, containing an open microchannel for off-line MALDI detection. The electroosmotic flow and band broadening of this system has been evaluated. / QC 20100916

Integral membrane proteins

Hydrophobic peptides

Sample handling

MALDI-TOF-MS

Structured sample support

CE

fraction collection

microchannel

Analytical chemistry

Analytisk kemi

Phosphorylcholine based amphiphilic polymers for the solubilization of integral membrane proteins

Diab, Charbel

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

Solubilization

Amphipols

Integral membrane proteins

Phosphorylcholine

Amphiphilic macromolecules

Detergent

Mixed micelles

ITC

Solubilisation

Amphipols

Protéines

Transmembranaires

Phosphorylcholine

Macromolécules amphiphiles

Détergent

Micelles mélangées

ITC

Proteomická analýza rozpustných i membránových proteinů buněk lymfomu / Proteomic analysis of soluble and transmembrane proteins in human lymphoma cells

Vít, Ondřej

January 2017

In the works presented here, we studied molecular changes associated with drug resistance in human mantle cell lymphoma (MCL) cells using proteomics. Our analyses allowed us to identify causal and/or secondary changes in protein expression associated with the development of resistance to the experimental drug TRAIL and the clinically used antimetabolites cytarabine and fludarabine. Resistance of MCL cells to the recombinant proapoptotic cytokine TRAIL was associated with downregulation of key enzymes of purine metabolism. This pathway potentially represents a molecular "weakness", which could be used as a therapeutic target for selective elimination of such resistant cells. Resistance to the pyrimidine analog drug cytarabine was associated with cross-resistance to other antinucleosides. Proteomic and transcriptomic analyses showed pronounced downregulation of deoxycytidine kinase (dCK), which activates both purine and pyrimidine antinucleosides. This change explains the cross-resistance and is the causal mechanism of resistance to cytarabine. Our observations suggest that MCL patients, who do not respond to cytarabine-based therapy, should be treated with non-nucleoside drugs. MCL cells resistant to purine-derived antinucleoside fludarabine were cross-resistant to all tested antinucleosides and...

Crumbs Affects Protein Dynamics In Anterior Regions Of The Developing Drosophila Embryo

Knust, Elisabeth, Firmino, João, Tinevez, Jean-Yves

18 January 2016

Maintenance of apico-basal polarity is essential for epithelial integrity and requires particular reinforcement during tissue morphogenesis, when cells are reorganised, undergo shape changes and remodel their junctions. It is well established that epithelial integrity during morphogenetic processes depends on the dynamic exchange of adherens junction components, but our knowledge on the dynamics of other proteins and their dynamics during these processes is still limited. The early Drosophila embryo is an ideal system to study membrane dynamics during morphogenesis. Here, morphogenetic activities differ along the anterior-posterior axis, with the extending germband showing a high degree of epithelial remodelling. We developed a Fluorescence Recovery After Photobleaching (FRAP) assay with a higher temporal resolution, which allowed the distinction between a fast and a slow component of recovery of membrane proteins during the germband extension stage. We show for the first time that the recovery kinetics of a general membrane marker, SpiderGFP, differs in the anterior and posterior parts of the embryo, which correlates well with the different morphogenetic activities of the respective embryonic regions. Interestingly, absence of crumbs, a polarity regulator essential for epithelial integrity in the Drosophila embryo, decreases the fast component of SpiderGFP and of the apical marker Stranded at Second-Venus specifically in the anterior region. We suggest that the defects in kinetics observed in crumbs mutant embryos are the first signs of tissue instability in this region, explaining the earlier breakdown of the head epidermis in comparison to that of the trunk, and that diffusion in the plasma membrane is affected by the absence of Crumbs.

info:eu-repo/classification/ddc/610

ddc:610

Etude fonctionnelle des undécaprényl-pyrophosphate phosphatases BacA et LpxT, enzymes membranaires impliquées dans la biogenèse de l’enveloppe bactérienne / Functional characterization of undecaprenyl-pyrophosphate phosphatases BacA and LpxT, integral membrane proteins involved in the biogenesis of the bacterial envelope

Manat, Guillaume

09 May 2016

Chez les bactéries, l’undécaprényl-phosphate (C55-P) est utilisé comme transporteur lipidique de sous-unités glycanes à travers la membrane plasmique. Après la synthèse de son précurseur (C55-PP) par UppS, ce dernier doit être déphosphorylé. Le transfert final des sous-unités glycanes sur une molécule acceptrice du côté périplasmique libère également du C55-PP qui va être déphosphorylé pour être recyclé. Quatre C55-PP phosphatases membranaires ont été identifiées chez E. coli : trois enzymes appartenant à la famille des PAP2 (PgpB, YbjG et LpxT) et une protéine appartenant à une nouvelle famille de phosphatases (BacA). Au cours de cette étude, nous avons caractérisé les propriétés biochimiques et la topologie membranaire de BacA. Les conditions optimales de son activité (pH, détergent, cations, température) ont été déterminées et une étroite spécificité de substrats, avec une préférence pour le C55-PP, a été observée. Trois résidus essentiels à son activité, Glu21, Ser27 et Arg174, ont été identifiés par mutagénèse, nous permettant de proposer un mécanisme catalytique basé sur l’attaque nucléophile du C55-PP par un résidu sérine. La topologie membranaire de BacA, déterminée expérimentalement à l’aide de fusions de protéines, n’a validé aucun des modèles in silico précédemment proposés. Ainsi, BacA comprend 7 segments transmembranaires et présente deux larges boucles périplasmiques portant les résidus hautement conservés du site actif. Nos résultats démontrent que toutes les C55-PP phosphatases d’E. coli identifiées à ce jour (BacA et PAP2) catalysent la déphosphorylation du C55-PP du même côté de la membrane plasmique (côté périplasmique), nous interrogeant sur l’identité de l’enzyme catalysant la déphosphorylation du C55-PP synthétisé de novo. LpxT est une PAP2 qui possède une activité kinase assurant le transfert du phosphate β du C55-PP sur une molécule de lipide A, pour former du lipide A-1-PP. Nous avons cartographié par mutagénèse dirigée le site actif de LpxT et mis en évidence l’importance d’une triade catalytique caractéristique des PAP2 (His150, His190, Asp194) et d’autres résidus spécifiques à LpxT et ses proches homologues. L’activité de LpxT est inhibée par un petit peptide, PmrR, dont l’expression est sous contrôle du système à deux composants PmrA-PmrB. Notre étude a montré que cette inhibition intervenait via une interaction directe entre ces deux partenaires. Nous montrons que l’induction du système PmrA-PmrB conduit à une résistance à la polymyxine B (peptide antimicrobien cationique) et à une sensibilité au déoxycholate (composant majeur de la bile) et que la modification catalysée par LpxT produit un effet opposé. La résistance à la polymyxine B est corrélée à la force des signaux induisant le système PmrA-PmrB, mais également le système PhoP-PhoQ et nous avons clairement identifié les signaux nécessaires à cette résistance chez E. coli. / In bacteria, the undecaprenyl-phosphate (C55-P) is used as a lipid carrier of glycans subunits across the plasma membrane. After synthesis of its precursor (C55-PP) by UppS, this latter must be dephosphorylated. The transfer of the glycans subunit onto a final acceptor molecule at the periplasmic side also releases C55-PP that will be dephosphorylated to be recycled. Four C55-PP membrane phosphatases have been identified in E. coli : three enzymes belonging to the PAP2 family (PgpB, YbjG and LpxT) and a protein belonging to a new family of phosphatases (BacA).In this study, we characterized the biochemical properties and membrane topology of BacA. The optimal conditions for its activity (pH, detergent, cation, temperature) were determined and narrow substrate specificity, with a preference for the C55-PP, was observed. Three essential residues to its activity, Glu21, Ser27 and Arg174 were identified by mutagenesis, allowing us to propose a catalytic mechanism based on the nucleophilic attack of the C55-PP by a serine residue. The membrane topology of BacA determined experimentally using protein fusions did not validated previous in silico models. Thus, BacA has 7 transmembrane segments and contains in particular two large periplasmic loops carrying the highly-conserved active site residues. Our results demonstrate that all C55-PP phosphatases of E. coli identified to date (BacA and PAP2) catalyze the dephosphorylation of C55-PP on the same side of the plasma membrane (periplasmic side), questioning us about the identity of the enzyme catalyzing the dephosphorylation of C55-PP synthesized de novo. LpxT is a PAP2 enzyme with a specific kinase activity, transferring the β-phosphate group of C55-PP on a molecule of lipid A, to generate lipid A-1-PP. We mapped, by directed mutagenesis, the active site of LpxT and highlighted the importance of a catalytic triad characteristic to the PAP2 enzymes (His150, His190, Asp194) and other specific residues of LpxT and its closer homologues. The activity of LpxT is inhibited by a small membrane peptide, called PmrR, whose expression is under the control of the two-component system PmrA-PmrB. Our study showed that this inhibition occurred via a direct interaction between these two partners. We showed that the induction of PmrA-PmrB system leads to resistance to the polymyxin B (cationic antimicrobial peptide) and sensitivity to deoxycholate (component major bile) and that the modification catalyzed LpxT produces an opposite effect. The robustness of the resistance to the polymyxin B is connected to the force of the signals inducing PmrA-PmrB system, but also the system PhoP-PhoQ and we clearly identified the signals needed to this resistance in E. coli.

Undécaprényl-Phosphate

Phosphatases

Protéines membranaires

Enveloppe bactérienne

Système à deux composants

Antibio-Résistance

Undecaprenyl-Phosphate

Phosphatases

Integral membrane proteins

Bacterial envelope

Two-Component system

Antibiotic resistance