Charakterizace struktury proteinů pomocí chemického zesítění a hmotnostní spektrometrie. / Characterization of protein structures using chemical cross-linking and mass spectrometry.

Kukačka, Zdeněk

January 2015

Some proteins require presence of their specific ligand, cofactor or prosthetic group for their activity. Binding of this specific molecule can cause conformational changes which permit to perform their function. In some occasions the identification of conformational changes could be really challenging task. In this thesis we describe the novel approach for monitoring structural changes in proteins using chemical cross-linking and high resolution mass spectrometry and its application on model calmodulin system. It is demonstrated that analysis using isotope-labelled cross-linking agents enabled us to get insight into the structural rearrangement caused by presence or absence of the protein ligand. However, it is shown that the method has potential drawback due to limited enzymatic proteolysis. The novel approach that also makes it possible to quantify the changes in protein structure was used together with other methods for characterization of the neutral trehalase Nth1 in complex with Bmh1 protein (yeast isoform of protein 14-3-3). The results revealed that Bmh1 induce structural rearrangement of Nth1 molecule with changes within the EF- hand like motif which is essential for the activation process.

Výzkum Struktury β-N-Acetylhexosaminidasy z Aspergillus oryzae / Investigation of the β-N-Acetylhexosaminidase Stucture from Aspergillus oryzae

Kukačka, Zdeněk

January 2011

in English β-N-acetylhexosaminidase (EC 3.2.1.52) belongs to exoglycosidase, and is one of the most abundant enzymes found in organisms from bacteria to human. The fungal β-N-acetylhexosaminidase from Aspergillus oryzae is composed of propeptide and catalytic domain. The propeptide is noncovalently associated with the catalytic domain of the enzyme. Propeptide is essential for the enzyme activity. While the structure of the catalytic domain was desidned by homology modeling, the structure of the propeptide has not been resolved yet. In this study, the position where the propeptide is associated with the catalytic domain, was uncovered. Presented work consists of two parts. First part deals with optimization of production conditions, purification and crystallization of β-N-acetylhexosaminidase from the filamentous fungi Aspergillus oryzae. Second part is devoted to the study of interaction between propeptide and catalytic domain, which was characterized by chemical cross-linking and high-resolution mass spectrometry. It was found that the structural changes of the catalytic domain depend on the presence of the propeptide molecule. Moreover the region of propeptide-catalytic domain interaction was revealed.

Studium struktury receptoru DCL-1 pomocí hmotnostní spektrometrie / Structural study of the DCL-1 receptor using mass spectrometry

Růžičková, Barbora

January 2013

DCL-1 (CD302) is a type I transmembrane C-type lectin receptor, which is expressed on monocytes, macrophages, granulocytes and dendritic cells. However, its extracellular domain lacks the amino acids motives essential for carbohydrate binding in the presence of calcium ions, suggesting that it does not have the classic binding capacity found in other C-type lectin receptors such as the mannose receptor. No exogenous or endogenous ligands have been identified yet, though. Due to internal colocalization with F-actin we can assume, that this unconventional lectin receptor plays a role not only in endocytosis and phagocytosis but also in the cell adhesion and migration. The receptor DCL-1 was first identified as a genetic fusion partner of human DEC-205 multilectin receptor in Hodgkin's lymphoma cell lines. The experimental part of this thesis deals with the characterization of disulfide bonds and data acquisition for validation of DCL-1 crystal structure. First the production and refolding conditions were optimized to obtain the highest amount of DCL-1 protein, precisely its extracellular domain. These optimal conditions were used to prepare the protein for in-gel digestion using specific endopeptidases in the presence of cystamine followed by LC-MS analysis. DCL-1 disulfide bonds were determined by comparing...

Aplikační potenciál modifikačních metod (chemická činidla, foto-nanosondy) a hmotnostní spektrometrie pro studium struktury proteinů a jejich vzájemných interakcí / Application potential of modification approaches (chemical agents, photo-nanoprobes) and mass spectrometry to study protein structure and protein-protein interaction

Ptáčková, Renata

January 2015

A comprehensive understanding of physiological role of proteins requires knowledge of their three-dimensional structure, dynamics and protein-protein interactions. Chemical cross-linking in combination with mass spectrometry represents an alternative approach to standard methods for protein structure elucidation (X-ray crystalography, NMR spectroscopy) and enables characterization of interaction interface within protein complexes in their native states. The presented thesis is mainly focused on novel cross-linking methodology based on the in vivo incorporation of methionine analog with photo-reactive functional group (photo-Met) into the sequence of studied protein (so called protein photo-nanoprobe). Interaction between two molecules of 14-3-3zeta protein was used as a model to test and optimize the protein photo-nanoprobe production. The findings confirmed usefulness of this approach for mapping the protein-protein interactions. The photo-initiated cross-linking was used to detect the heterooligomeric membrane structures of cytochromes P450 2B4 and b5 and the molar ratio of cytochromes within individual complexes was assessed. The chemical cross-linking in combination with mass spectrometry was employed to characterize the interaction of their catalytic domains and two mutual orientations of...

Studium vlivu kofaktoru na strukturu proteinu pomocí hmotnostní spektrometrie / Characterization of cofactor influence on protein structure using mass spectrometry

Rosůlek, Michal

January 2015

Bacterial protein WrbA from E. coli is the founding member of a new family of FMN-dependent NAD(P)H oxidoreductases, forming a functional and structural bridge between bacterial flavodoxin and certain mammalian NAD(P)H:quinone oxidoreductase. For these reasons, protein WrbA is recently intensively studied using various analytical and computing methods. Protein WrbA participates in the protection of cells against oxidative stress, but precise function of the protein WrbA in vivo is still unknown. Protein WrbA forms multimers in solutions. In μM concentrations and at low temperature (4 řC) the protein is in the form of a dimer, with increasing temperature becomes tetrameric. Available three-dimensional crystal structure contains the information about the tetrameric form of the protein, the dimeric form has not been structurally characterized. This thesis was focused on the study of the dynamic behavior of protein WrbA in solution using methods of hydrogen-deuterium exchange and chemical cross-linking followed by mass spectrometric analysis with high resolution (FT-ICR). Behavior of the protein was monitored according to the presence of cofactor FMN. Effect of temperature and protein concentration was also studied. Hydrogen-deuterium exchange provided information about solvent accessibility and...

Studium interakce mezi DNA a transkripčními faktory pomocí hmotnostní spektrometrie. / Study of the interaction between DNA and transcription factors using mass spectrometry.

Slavata, Lukáš

January 2015

Transcription factors play crucial regulatory role within the cell and the entire multicellular organism. The important factor is its ability to interact with other regulatory proteins and DNA. Despite the fact that a large part of the interaction network is already documented, detailed information on the structure and dynamics of protein-protein and protein-DNA complexes is still scarce. In this thesis we focused on the possibility of studying conformational changes given by the transcription factor-DNA complex formation using the methods of structural mass spectrometry: hydrogen/deuterium exchange and chemical crosslinking. As a model, we chose a transcription factor FOXO4 which DNA binding domain is structurally well characterized both in free form and in the complex with DNA.

Výzkum vzájemné interakce membránových receptorů NKR-P1D a Clrb / Studies on interactions between NKR-P1D and Clrb membrane receptors

Hanč, Pavel

January 2011

Studies on interactions between NKR-P1D and Clrb membrane receptors Interaction between murine NKR-P1D and Clrb receptors was originally described as a novel type of "MHC class-I independent missing-self recognition" and was shown to confer protection from killing by natural killer cells.[1] However, further study brought conflicting results suggesting that NKR-P1D does not binds Clrb strongly if it does at all.[2] In order to address the issues arising from these conflicting results, we have recombinantly expressed the extracellular domains of both receptors in E. coli cells and refolded the proteins in vitro. The quality of refolding was confirmed both by determining the disulphide bonding pattern using FTMS and measuring 1 H/15 N-HSQC spectra. By means of size exclusion chromatography and analytical ultracentrifuge we were unable to provide convincing results for the interaction itself. However, using SPR technique, a weak, specific, pH-dependent interaction was observed. Interaction between the proteins in solution was immobilized using chemical cross-linking technique. Three cross-linking reagents, EDC, DSG and DSS were used. The reaction mixture was separated by means of SDS-PAGE and protein bands corresponding to dimers were digested in gel. Using FT-MS we were able to find peptides from both...

Development of Inhibitors of Amyloid Fibril Propagation / Développement d'inhibiteurs de la propagation des fibres amyloïdes

Bendifallah, Maya

16 December 2019

L'α-Synuclein (αSyn) fibrillaire, impliqué dans la maladie de Parkinson et d’autres synucleinopathies, peut se propager entre cellules de manière « prion-like » et cette propagation est liée à la progression de la maladie. Durant cette étude, nous nous sommes tournés vers les chaperons moléculaires impliqués dans l’agrégation de l’αSyn ou bien dans sa toxicité afin de trouver des candidats capables d’interférer avec la propagation. Nous avons ensuite testé l’effet des chaperons capables de se lier aux fibres d’αSyn sur l’internalisation des fibres d’αSyn par les cellules Neuro-2a. Nous démontrons que l’interaction avec l’αSyn agrégeant avec αB-crystallin (αBc) ou Carboxyl terminus of Hsc70-interacting protein (CHIP) a mené à la formation de fibres qui sont moins internalisées par les cellules. Enfin, en passant par une stratégie de pontage chimique optimisé couplé à la spectrométrie de masse, nous avons identifié les zones d’interaction entre l’αSyn fibrillaire et soit αBc, soit CHIP. Ces résidus issus des chaperons, se trouvant à proximité des fibres d’αSyn dans les complexes, pourraient être développés dans des mini-chaperons peptidiques, capables d’enrober la surface des fibres et ainsi de bloquer la liaison à la membrane et l’internalisation des fibres. De surcroît, des polypeptides issus des partenaires précédemment identifiés d’αSyn ont été testé pour leur liaison aux fibres et leur effet sur la propagation des fibres. / Fibrillar α-Synuclein (αSyn) is the molecular hallmark of Parkinson’s Disease and other synucleinopathies. Its prion-like propagation between cells is linked to disease progression. In this study, we looked to molecular chaperones previously implicated in αSyn fibrillation and/or toxicity to identify proteins capable of binding αSyn fibrillar aggregates in order to target their propagation. We further assessed the effect of the fibril-binding chaperones on internalization of αSyn fibrils by Neuro-2a cells. We demonstrate that the interaction of aggregating αSyn with αB-crystallin (αBc) or Carboxyl terminus of Hsc70-interacting protein (CHIP) led to the formation of fibrils that are less internalized by cells. Finally, using an optimized chemical cross-linking and mass spectrometry strategy, we identified the interaction areas between fibrillar αSyn and either αBc or CHIP. These chaperone residues, located proximally to αSyn fibrils, could be subsequently developed into peptidic mini chaperones, capable of coating the fibril surface and thereby blocking fibrillar cell binding and internalization. Furthermore, polypeptides derived from previously identified αSyn binding partners were tested for their binding to αSyn fibrils and subsequent effect on fibril propagation.

Maladies neuro-Dégénératives

Fibres amyloïdes

Propagation prion-Like

Chaperons moléculaires

Pontage chimique

Spectrometre de masse

Neurodegenerative diseases

Amyloid fibrils

Prion-Like propagation

Molecular chaperones

Chemical cross-Linking

Mass spectrometry

Refocusing antibody responses by chemical modification of vaccine antigens

Schiffner, Torben

January 2014

The envelope glycoprotein (Env) of Human Immunodeficiency Virus 1 (HIV-1) has developed several immune-evasion mechanisms to avoid the induction of neutralising antibodies, including immunodominant non-neutralising epitopes, conformational flexibility of conserved epitopes, and spontaneous subunit dissociation, thus impeding vaccine development. Here, chemical modification of Env-based vaccine antigens is explored to overcome these obstacles. Firstly, covalent fixation of Env by chemical cross-linking was used to stabilise the conformationally flexible structure and prevent subunit dissociation. Cross-linked Env constructs showed reduced binding of many non-neutralising antibodies whilst largely maintaining antibody recognition by broadly neutralising antibodies. Compared to unmodified material, immunisation with some of these cross-linked proteins led to the induction of significantly increased antibody titres targeting the conserved CD4 binding site of Env despite similar overall antibody titres. These refocused antibody responses resulted in increased serum neutralising titres compared to animals receiving unmodified protein. Secondly, an epitope masking strategy was developed to reduce or eliminate the immunogenicity of neutralisation-irrelevant surfaces. This was achieved using site-selective addition of theoretically immunosilent glycoconjugates to lysine residues. Masking of model protein hen egg lysozyme (HEL) led to site-selective loss of antibody binding to the modification sites in vitro, which translated into refocusing of antibody responses from masked to unmasked epitopes in vivo. Mutant HIV-1 and influenza virus surface glycoproteins were designed that had lysine residues removed from close proximity to the respective broadly neutralising epitopes, but added throughout the remaining surface. Masking of these mutant proteins with second-generation glycoconjugates led to predictable perturbations of antibody binding in vitro. However, administration of these modified glycoproteins revealed unexpectedly that the masking glycans were highly immunogenic in vivo. Thus, this strategy may well prove useful if truly non-immunogenic glycoconjugates can be identified. Taken together, these chemical modifications of vaccine antigens may allow focused targeting of specific antigenic regions for increased B cell recognition, and may thus be a valuable tool for vaccine antigen design.

616.07

Studium interakce lektinových receptorů přirozených zabíječů s jejich proteinovými ligandy. / Studies on interactions between natural killer cell lectin receptors and their protein ligands.

Hernychová, Lucie

January 2014

NK cells are innate lymphocytes which constitute the first line of organism's defence against infections through their receptor system. These cells represent an important part of antiviral and antitumor immunity, they also play a role in transplant immunity, autoimmunity and reproduction. This diploma thesis inquires into the structure of the transmembrane receptor NKR-P1B of mouse NK cells and the interaction with its ligand Clr-b. The aim was to prepare the expression vector coding the ligand-binding and whole extracellular region of the receptor NKR-P1B and to optimize its production and refolding in vitro. Purified protein samples were analyzed by size-exclusion chromatography, electrophoresis and mass spectrometry. Interaction between NKR-P1B and Clr-b proteins was tested using biophysical (size-exclusion chromatography and surface plasmon resonance) and biological methods (labelling of cellular sample with NKR-P1B proteins marked with fluorescent dye). In vitro binding experiments have not confirmed mutual interaction between NKR-P1B and Clr-b despite the prepared proteins binding to the bone marrow cells.