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Changes to the host cell proteome induced by expression of hepatitis C virus NS3/4A open reading framesPatterson, Aileen 13 January 2014 (has links)
Hepatitis C virus (HCV) infects an estimated 200,000 people in Canada, and is the leading cause of liver transplants in North America. Viral infection usually leads to chronic infection, and complications include liver fibrosis, steatosis and hepatocellular carcinoma (HCC). The HCV non-structural proteins 3 and 4A (NS3/4A), is a multifunctional protein complex with roles in RNA replication and polyprotein processing. Additionally, the NS3 protease has been shown to induce advanced cellular transformation in vivo and tumour formation in nude mice. However, the mechanism by which transformation occurs remains unknown. The objective of this study was to determine if the naturally occurring NS3/4A protein complex, rather than the NS3 protease domain on its own, could also induce cellular transformation and to determine the changes that NS3/4A expression had on the host cell proteome.
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Mass spectrometry-based quantitative proteomics applied to the analysis of Saccharomyces cerevisiae heat stress response and chaperone deletion strainsJarnuczak, Andrew January 2015 (has links)
In the last decade omics technologies enabled detailed and system-wide analysis of complex biological samples. Genomics, transcriptomics and metabolomics all benefited tremendously from technological advances in their respective fields. Proteomics was revolutionised by mass spectrometry, which allowed simultaneous identification of thousands of proteins in cells, tissues and organisms. And this mainly qualitative revolution, quickly turned quantitative. This work had two main objectives. Firstly, to apply the state of the art instrumentation, data analysis and bioinformatics methods to better our understanding of basic cell biology in a model organism Saccharomyces cerevisiae. Specifically, to quantitatively describe the effects of perturbations, such as adverse environmental conditions or chaperone gene deletions, on protein abundances in the cell. Additionally, it was aimed to demonstrate and evaluate the ability of a new timeof-flight mass spectrometer to perform large-scale absolute quantification. First, it was found that yeast cells are remarkably robust to deletions of major chaperone hub proteins (Ssa1p or Ssb1p deletions). This ability was attributed to network structure and redistribution of folding workload among other related chaperones rather than simple functional redundancy. Second, to build on the first set of results, a detailed time resolved description of yeast proteome dynamics in response to heat stress was provided for the wild type and Ssb1p chaperone mutant strains. In this study, for the first time in the literature, temporal expression patterns of many hallmark heat shock proteins were elucidated. Globally, a slow and sustained proteome remodelling or 'buffering' was revealed in both strains. However, it was also shown that the cells knocked out for the Ssb1p chaperone respond to heat in a distinctly different manner to the wild type strain. Finally, consistent and reproducible absolute quantification of multiple yeast proteomes was demonstrated using a new commercial time-of-flight mass spectrometer with ion mobility separation capabilities. The data obtained revealed global differences in cellular protein content between various chaperone prefoldin mutants as well as differential expression of a set of proteins promising to be interesting targets for further investigations.
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PROTEOMA E FOSFOPROTEOMA QUANTITATIVO DURANTE ESTRESSE NUTRICIONAL DA FORMA EPIMASTIGOTA DE Trypanosoma cruziLUCENA, ALINE CASTRO RODRIGUES January 2015 (has links)
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Previous issue date: 2015 / Instituto Carlos Chagas / Durante a metaciclogênese in vitro, a forma epimastigota de Trypanosoma
cruzi, agente etiológico da doença de Chagas, se diferencia em tripomastigota
metacíclica após ser submetido a estresse nutricional em meio TAU, com isso,
adquire a capacidade de infectar o hospedeiro vertebrado. Durante a
diferenciação, os parasitas sofrem diversas adaptações que incluem a
modulação de modificações pós-traducionais. Em um trabalho recente, nosso
grupo delineou, sem quantificar, o perfil de fosforilação em T. cruzi durante a
metaciclogênese. Neste trabalho, visando realizar a quantificação dos sítios de
fosforilação, foi utilizada a metodologia SILAC, que marca proteínas durante o
cultivo celular, através da incorporação de aminoácidos contendo isótopos
pesados. Visando compreender a sinalização através de fosforilação que
ocorre nos momentos iniciais de metaciclogênese, ou seja, durante o estresse
nutricional, foram selecionados os pontos epimastigotas em crescimento
exponencial (epimastigotas 3 dias, EPI-3D) e na fase estacionária
(epimastigotas 5 dias – EPI-5D), bem como alguns pontos ao longo do estresse
nutricional (5 e 15 minutos, 1 e 2 horas). Para cada ponto experimental, os
peptídeos foram digeridos, fracionados por FR básica, então os fosfopeptídeos
foram enriquecidos utilizando beads de TiO2, e analisados por LC-MS/MS.
Foram identificados 5.405 grupos de proteínas, 1.679 grupos de fosfoproteínas,
3.893 grupos de sítios de fosforilação sendo 3049 em Serina, 786 em Treonina
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e, 58 em Tirosina, entre os quais cerca de 99% foram quantificados. As
análises foram realizadas de duas formas: inicialmente comparando as
diferentes fases de cultivo celular (exponencial e estacionária), e os diferentes
pontos ao longo do estresse nutricional. Foram observadas diversas alterações
no perfil de expressão das proteínas e modulação dos sítios de fosforilação,
envolvidos em diversos processos como síntese de ácidos graxos, sinalização
celular, locomoção, estresse oxidativo, processamento de RNA, entre outros.
Projetos “ômicos”, assim como este, são importante para gerar listas com um
número limitado de alvos para posterior caracterização. Nesse sentido, nós
objetivamos caracterizar alguns dos elementos apontados visando elucidar o
“gatilho” da metaciclogênese. / During metacyclogenesis in vitro, the epimastigote form of Trypanosoma cruzi,
etiologic agent of Chagas disease, differentiates into metacyclic trypomastigote,
after nutritional stress in TAU medium, and acquires capability to infect the
vertebrate host. During differentiation, the parasites suffer several adaptations
that include modulation of post-translational modulations. In a recent work, our
group outlined, without quantifying, the protein phosphorylation profile of T.
cruzi during metacyclogenesis. Here, in order to accomplish the quantification
the phosphorylation sites, we applied the SILAC methodology, which labels
proteins by incorporation of amino acids containing heavy isotopes, in culture.
Aiming to understand the signaling that occurs through phosphorylation in the
initial moments of metacyclogenesis, that is, during the nutritional stress,
epimastigotes in exponential growth (Epimastigote 3 days, EPI-3D) and in the
late log phase (Epimastigote 5 days, EPI-5D), as well as several points during
the nutritional stress (5 and 15 minutes, 1 and 2 hours) were selected. For each
experimental point, peptides were digested, fractionated by basic RP, then
phosphopeptides were enriched with TiO2 beads, and analyzed by LC-MS/MS.
In total, 5,405 proteins groups were identified, including 1,679 groups of
phosphoproteins and 3,893 phosphorylation sites, being 3,049 in Serine, 786 in
Threonine and, 58 in Tyrosine residues, among which around 99% were
quantified. The analyzes were performed in two ways: first comparing the
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different stages of cell growth (exponential and stationary), and the different
points along the nutritional stress. Several changes were observed in the
expression profile of the proteins and modulation of the phosphorylation sites,
involved in various processes such as fatty acid synthesis, cell signaling,
mobility, oxidative stress, RNA processing, among others. Omics projects like
this one are important to generate lists that have limited number of targets for
further characterization. In this sense we aim to characterize some of the
elements pinpointed to elucidate the trigger of metacyclogenesis.
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Differential expression profiling of proteomes of pathogenic and commensal strains of Staphylococcus aureus using SILACManickam, Manisha 16 January 2012 (has links)
Staphylococcus aureus (S. aureus) is the etiological agent of food-borne diseases, skin infections in humans and mastitis in bovines. S. aureus is also known to exist as a commensal on skin, nose and other mucosal surfaces of the host. This symbiotic association is a result of immune dampening or tolerance induced in the host by this pathogen. We proposed the variation in protein expression by commensal and pathogenic strain as an important factor behind the difference in pathogenicity. The identification of differentially expressed proteins was carried out using a quantitative mass spectrometry (MS)-based proteomic approach, known as stable isotope labeling of amino acids in cell culture (SILAC). Four commensal and pathogenic strains each were grown in the SILAC minimal media (RPMI 1640), containing light (12C) and heavy (13C) form of lysine, respectively, until early stationary growth phase. Various protein fractions, including cell wall, membrane and secreted, were extracted from the bacterial cultures and mixed in a 1:1 ratio. The relative abundance of proteins present in light and heavy labeled samples was determined using MS analysis. From a total of 151 differentially expressed proteins, 58 were found to be upregulated in the pathogenic strains. These proteins are involved in a variety of cellular functions, including immune modulation, iron-binding, cellular transport, redox reactions, and metabolic enzymes. The differentially expressed proteins can serve as putative candidates to improve current approach towards development of a vaccine against S. aureus. / Master of Science
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Global Analysis of Protein Folding Thermodynamics for Disease State Characterization and Biomarker DiscoveryAdhikari, Jagat January 2015 (has links)
<p>Protein biomarkers can facilitate the diagnosis of many diseases such as cancer and they can be important for the development of effective therapeutic interventions. Current large-scale biomarker discovery and disease state characterization studies have largely focused on the global analysis of gene and protein expression levels, which are not directly tied to function. Moreover, functionally significant proteins with similar expression levels go undetected in the current paradigm of using gene and protein expression level analyses for protein biomarker discovery. Protein-ligand interactions play an important role in biological processes. A number of diseases such as cancer are reported to have altered protein interaction networks. Current understanding of biophysical properties and consequences of altered protein interaction network in disease state is limited due to the lack of reproducible and high-throughput methods to make such measurements. Thermodynamic stability measurements can report on a wide range of biologically significant phenomena (e.g., point mutations, post-translational modifications, and new or altered binding interactions with cellular ligands) associated with proteins in different disease states. Investigated here is the use of thermodynamic stability measurements to probe the altered interaction networks and functions of proteins in disease states. This thesis outlines the development and application of mass spectrometry based methods for making proteome-wide thermodynamic measurements of protein stability in multifactorial complex diseases such as cancer. Initial work involved the development of SILAC-SPROX and SILAC-PP approaches for thermodynamic stability measurements in proof-of-concept studies with two test ligands, CsA and a non-hydrolyzable adenosine triphosphate (ATP) analogue, adenylyl imidodiphosphate (AMP-PNP). In these proof-of-principle studies, known direct binding target of CsA, cyclophilin A, was successfully identified and quantified. Similarly a number of known and previously unknown ATP binding proteins were also detected and quantified using these SILAC-based energetics approaches. </p><p>Subsequent studies in this thesis involved thermodynamic stability measurements of proteins in the breast cancer cell line models to differentiate disease states. Using the SILAC-SPROX, ~800 proteins were assayed for changes in their protein folding behavior in three different cell line models of breast cancer including the MCF-10A, MCF-7, and MDA-MB-231 cell lines. Approximately, 10-12% of the assayed proteins in the comparative analyses performed here exhibited differential stability in cell lysates prepared from the different cell lines. Thermodynamic profiling differences of 28 proteins identified with SILAC-SPROX strategy in MCF-10A versus MCF-7 cell line comparison were also confirmed with SILAC-PP technique. The thermodynamic analyses performed here enabled the non-tumorigenic MCF-10A breast cell line to be differentiated from the MCF-7 and MDA-MB-231 breast cancer cell lines. Differentiation of the less invasive MCF-7 breast cancer cell line from the more highly invasive MDA-MB-231 breast cancer cell line was also possible using thermodynamic stability measurements. The differentially stabilized protein hits in these studies encompassed those with a wide range of functions and protein expression levels, and they included a significant fraction (~45%) with similar expression levels in the cell line comparisons. These proteins created novel molecular signatures to differentiate the cancer cell lines studied here. Our results suggest that protein folding and stability measurements complement the current paradigm of expression level analyses for biomarker discovery and help elucidate the molecular basis of disease.</p> / Dissertation
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A non-targeted proteomics investigation of cylindrospermopsin-induced hepatotoxicity / Uso de uma estratégia proteômica não-direcionada para investigar a hepatotoxicidade producida pela cilindrospermopsinaGonzález Blanco, Carlos Andrey 13 July 2017 (has links)
Cyanobacteria is perhaps the phylum that profit the most from the escalating hypereutrophication of continental waters. The resulting cyanobacterial blooms may accumulate a variety of potent toxins. Cylindrospermopsin (CYN) is a cyanotoxin known for inhibiting protein synthesis, and producing oxidative stress as well as DNA damage in eukaryotic cells. Since the toxin\'s molecular mechanisms and targets are still unclear, we purified the cyanotoxin from our lab strains and employed a shotgun proteomics approach to reveal the major changes in HepG2 cells at sublethal doses of CYN (1 µM for 6, 12 and 24h). Metabolically labeled cells were stimulated and lysed after each treatment, their tryptic digests were separated by nano HPLC and analyzed by high-resolution tandem mass spectrometry (HRMS) on data dependent acquisition mode. We scanned an average of 4000 proteins in every sample throughout the three timepoints. Cholesterol biosynthesis and transport was mostly downregulated throughout the timepooints of the experiment. Downregulation of proteins related to ubiquitination (e.g. UBE2L3) and proteolysis pathways (e.g. PSMA2) was observed in the proteomics dataset, and these results were validated by western blot. Transcription, translation and cell cycle processes showed convoluted regulation dynamics involving known cell cycle regulators like PCNA. Downregulation of mitochondrial enzymes, oxidative stress and damage to the mithochondrial inner membrane was early evidenced after a 6 hrs treatment and validated using a JC-1, a mitochondrial membrane potential probe. The resulting dataset gives us a first glimpse of the protein groups affected at the early stage of CYN cell intoxication. / Cianobactéria é o filo que mais se beneficia da crescente hipereutrofização das águas continentais. As florações de cianobactérias resultantes podem acumular potentes toxinas. A Cilindrospermopsina (CYN) é uma cianotoxina conhecida por inibir a síntese protéica e produzir estresse oxidativo, além de danos ao DNA em células eucarióticas. Os mecanismos moleculares e alvos de toxicidade aguda desta toxina ainda não são claros. Por esse motivo adoptamos uma abordagem de proteômica quantitativa baseada em descoberta para revelar as principais alterações nas células HepG2 em doses subletais de CYN (1 µM para 6, 12 e 24h). As proteinas dos hepatócitos foram marcadas metabolicamente, foram estimuladas com a toxina e os digestos trípticos foram analisados por espectrometria de massa em tandem de alta resolução (HRMS) no modo de aquisição dependente de dados. Escaneamos uma média de 4000 proteínas ao longo dos intervalos de tempo. A biosintese e transporte do colesterol foi inibida durante a maior parte do tratamento com a toxina. Proteínas e enzimas relacionadas com o processo de ubiquitinação (ex. UBE2L3) e proteólise (ex. PSMA2) foram inibidas, e alterações nas proteínas envolvidas nesses processos foram validadas por meio de Western Blot. Os processos de transcrição, tradução e ciclo celular mostraram uma dinâmica de regulação complexa, envolvendo reguladores e disruptores do ciclo celular como por exemplo PCNA. Danos à membrana mitocondrial e evidência de estresse oxidativo foram detectados após 6 horas de tratamento, e essas mudanças no proteoma foram validados por meio do corante JC-1 (test que detecta mudanças no potencial da membrana mitocondrial). O banco de dados resultante nos dá um primeiro vislumbre das proteinas afetados no estágio inicial da intoxicação celular pela CYN.
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A non-targeted proteomics investigation of cylindrospermopsin-induced hepatotoxicity / Uso de uma estratégia proteômica não-direcionada para investigar a hepatotoxicidade producida pela cilindrospermopsinaCarlos Andrey González Blanco 13 July 2017 (has links)
Cyanobacteria is perhaps the phylum that profit the most from the escalating hypereutrophication of continental waters. The resulting cyanobacterial blooms may accumulate a variety of potent toxins. Cylindrospermopsin (CYN) is a cyanotoxin known for inhibiting protein synthesis, and producing oxidative stress as well as DNA damage in eukaryotic cells. Since the toxin\'s molecular mechanisms and targets are still unclear, we purified the cyanotoxin from our lab strains and employed a shotgun proteomics approach to reveal the major changes in HepG2 cells at sublethal doses of CYN (1 µM for 6, 12 and 24h). Metabolically labeled cells were stimulated and lysed after each treatment, their tryptic digests were separated by nano HPLC and analyzed by high-resolution tandem mass spectrometry (HRMS) on data dependent acquisition mode. We scanned an average of 4000 proteins in every sample throughout the three timepoints. Cholesterol biosynthesis and transport was mostly downregulated throughout the timepooints of the experiment. Downregulation of proteins related to ubiquitination (e.g. UBE2L3) and proteolysis pathways (e.g. PSMA2) was observed in the proteomics dataset, and these results were validated by western blot. Transcription, translation and cell cycle processes showed convoluted regulation dynamics involving known cell cycle regulators like PCNA. Downregulation of mitochondrial enzymes, oxidative stress and damage to the mithochondrial inner membrane was early evidenced after a 6 hrs treatment and validated using a JC-1, a mitochondrial membrane potential probe. The resulting dataset gives us a first glimpse of the protein groups affected at the early stage of CYN cell intoxication. / Cianobactéria é o filo que mais se beneficia da crescente hipereutrofização das águas continentais. As florações de cianobactérias resultantes podem acumular potentes toxinas. A Cilindrospermopsina (CYN) é uma cianotoxina conhecida por inibir a síntese protéica e produzir estresse oxidativo, além de danos ao DNA em células eucarióticas. Os mecanismos moleculares e alvos de toxicidade aguda desta toxina ainda não são claros. Por esse motivo adoptamos uma abordagem de proteômica quantitativa baseada em descoberta para revelar as principais alterações nas células HepG2 em doses subletais de CYN (1 µM para 6, 12 e 24h). As proteinas dos hepatócitos foram marcadas metabolicamente, foram estimuladas com a toxina e os digestos trípticos foram analisados por espectrometria de massa em tandem de alta resolução (HRMS) no modo de aquisição dependente de dados. Escaneamos uma média de 4000 proteínas ao longo dos intervalos de tempo. A biosintese e transporte do colesterol foi inibida durante a maior parte do tratamento com a toxina. Proteínas e enzimas relacionadas com o processo de ubiquitinação (ex. UBE2L3) e proteólise (ex. PSMA2) foram inibidas, e alterações nas proteínas envolvidas nesses processos foram validadas por meio de Western Blot. Os processos de transcrição, tradução e ciclo celular mostraram uma dinâmica de regulação complexa, envolvendo reguladores e disruptores do ciclo celular como por exemplo PCNA. Danos à membrana mitocondrial e evidência de estresse oxidativo foram detectados após 6 horas de tratamento, e essas mudanças no proteoma foram validados por meio do corante JC-1 (test que detecta mudanças no potencial da membrana mitocondrial). O banco de dados resultante nos dá um primeiro vislumbre das proteinas afetados no estágio inicial da intoxicação celular pela CYN.
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A Synthetic Acetylation Substrate to Study Gcn5 Targeting and Function in Yeast.Rossl, Anthony 18 October 2018 (has links)
Acetylation was previously thought to occur exclusively on histones, but recent high-throughput screens have identified thousands of non-histone substrates. Despite the identification of these sites, little is known about how these acetyltransferase enzymes target their substrates. Gcn5 is the catalytic acetyltransferase found within the highly conserved SAGA complex. Recently, a member of this complex, Ada2, was found to impact Gcn5 substrate selection. In the yeast model organism Saccharomyces cerevisiae, a synthetic substrate developed from a proposed Gcn5-specific consensus sequence is used to identify regulators of Gcn5 substrate selection.
This work is the first to demonstrate that addition of a consensus sequence is enough to confer acetylation of a non-substrate. With this method, Ada3 was identified as a key regulator, and acetylome profiling identified novel targets for Gcn5 dependent acetylation specifically regulated by Ada3. This system could be adapted for other acetyltransferases to identify regulators of substrate selection.
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A temporal, spatial and quantitative study on the influenza A virus transcription, translation and virus-host interactionKummer, Susann 09 September 2011 (has links)
Die Vermehrung des Influenza A Virus umfasst, neben anderen wichtigen Schritten, die Transkrption der viralen mRNA und die ribosomale Translation der viralen Proteine. Mit großem Aufwand wurde bereits an der Entwicklung von Methoden zur Untersuchung des zeitlichen Verlaufs der Synthese viraler mRNA während des Vermehrungszyklusses in der Wirtszelle geforscht. In der vorliegenden Arbeit wurden sequenzspezifische FIT-PNA-Sonden, welche einen einzelnen, als künstliche fluoreszente Nukleobase dienenden Interkalator tragen, auf die quantitative RT-PCR sowie die Lebendzellmikroskopie angewandt. Die FIT-PNA-Sonden bieten dabei eine hohe Sensitivität und eine enorme Zielspezifität unter nichtstringenten Hybridisierungsbedingungen. Im Speziellen wurden FIT-PNA Sonden mit Sequenzspezifität zur mRNA der Neuraminidase und des Matrixproteins 1 entworfen und untersucht. Die somit erhaltenen Ergebnisse besitzen eine hohe biologische Relevanz und weisen diese Sonden als vielversprechende Methodik in der Virologie und der Zellbiologie aus. Ihre Anwendung konnte bereits auf das Vesikular Stomatitis Virus ausgeweitet werden. Die Kombination aus biologischer Expertise mit modernen Proteomstudien und detaillierten statistischen Analysen ermöglichte einen systemumfassenden Blick auf die durch eine Infektion bedingten Auswirkungen auf die Wirtszelle. Die Markierung von Aminosäuren mit stabilen Isotopen in Zellkultur wurde hierfür benutzt. Es wurden Proben zu verschiedene Zeitpunkten im Infektionszyklus in die Untersuchungen einbezogen, um zeitaufgelöste Detailstudien der zellulären Proteinbiosynthese und Degradation durchzuführen. / Replication of the influenza A virus involves, amongst other critical steps, the transcription of viral mRNA and ribosomal translation of viral proteins. Significant efforts have been devoted to the development of methods that allow the investigation of viral mRNA progression during the replication cycle inside the host cell. In the present thesis sequence specific FIT-PNA probes which contain a single intercalator serving as artificial fluorescent nucleobase were introduced for quantitative RT-PCR and live cell imaging. FIT-PNAs provide for both high sensitivity and high target specificity at nonstringent hybridisation conditions (where both matched and mismatched probetarget complexes coexist). In particular, FIT-PNAs specific to the neuraminidase and matrix protein 1 were successfully designed and examined. The obtained results are of high biological importance and suggest the FIT-PNA technique as promising tool in the field of virology and cell biology as this approach was readily applied to Vesicular Stomatitis Virus as well. By combining biological expertise with modern high throughput quantitative proteomics and detailed statistical analysis a system wide view of the effects and dynamics of the early H1N1 infection on the cell proteome was generated. Stable isotope labelling of amino acids in cell culture (SILAC) was employed to globally track changes in gene expression at the protein level. Furthermore, samples at various time points post infection enabling a more detailed timeresolved analysis of host cell protein biosynthesis and degradation during the infection cycle were included. As a result the specific expression characteristics of single genes and functional gene subsets in response to viral infection were bioinformatically analysed.
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Untersuchungen zur affinitäts-basierten Aufreinigung von tight junction-proteinen und deren potentiellen InteraktionspartnernLohrberg, Dörte 22 April 2009 (has links)
Die Epithelien vielzelliger Organismen bilden eine funktionelle Grenzschicht, die für die Homöostase innerhalb und für den spezifischen Stoffaustausch zwischen den Kompartimenten verantwortlich ist. Der interzelluläre Spalt zwischen Epithelzellen wird durch tight junctions verschlossen, die eine selektive Permeabilitätsbarriere bilden. Da viele Krankheiten auf eine Dysfunktion der Barriere zurückzuführen sind, ist eine genaue Kenntnis der molekularen Zusammensetzung der tight junctions aus pharmakologischer Sicht von großem Interesse. In dieser Arbeit wurden Anreicherungsstrategien entwickelt, die eine Proteomanalyse der tight junction-Proteine erlauben. Der Fokus wurde dabei auf die Claudine und Tricellulin gelegt, die als transmembranale Proteine das molekulare Rückgrat der tight junctions bilden. Durch Affinitätsreinigung gelang erstmals eine Anreicherung verschiedener Claudine, die durch Massenspektrometrie identifiziert wurden. Die metabolische Markierung der Proteine mit stabilen Isotopen (SILAC) erlaubte die quantitative Diskriminierung von Proteinen, die unspezifisch an das Matrixmaterial banden. Von den potentiellen Interaktionspartnern der Claudine wurden Integrin-a3, SUMO-1 und Sphingosinkinase 2 ausgewählt, um deren Interaktion mit Claudinen weiter zu verifizieren. Es wurden keine Hinweise auf Wechselwirkungen zwischen Claudinen und Integrin-a3 sowie SUMO-1 gefunden, während die Interaktion von Claudinen mit Sphingosinkinase 2 weder bestätigt noch ausgeschlossen werden konnte. Ferner wurde eine Affinitätsreinigung durchgeführt, um Interaktionspartner von Tricellulin anzureichern. Durch die quantitative massenspektrometrische Analyse wurde ausschließlich Claudin-4 nicht aber Claudin-3 und 7 als potentieller, spezifischer Interaktionspartner von Tricellulin identifiziert. Es wurde aber gezeigt, dass die Kombination aus Affinitätsreinigung und quantitativer Massenspektrometrie einen wertvollen Beitrag zur Entschlüsselung von Protein-Komplexen leisten kann. / Epithelia function as specialized barriers that separate different compartments within multicellular organisms and regulate the specific exchange of substances between them. The intercellular space between adjacent epithelial cells is sealed by tight junctions forming a permeability barrier. Dysregulation of the barrier occurs in a variety of diseases. Hence, a deeper knowledge is required of the molecular composition of tight junctions, in particular with respect to pharmacological applications. In the present study, new enrichment strategies have been established that allow the proteomic analysis of tight junction proteins. Special emphasis was placed on claudins and tricellulin as these transmembrane proteins constitute the molecular backbone of the tight junctions. For the first time, using an affinity purification, the enrichment of several claudins was accomplished that were identified by mass spectrometry. The metabolic labeling of proteins with stable isotopes (SILAC) allowed the quantitative discrimination of proteins that bound unspecifically to the matrix. Integrin-a3, SUMO 1 and sphingosin kinase 2 were chosen for further verifications from the proteins considered to potentially interact with claudins. While there was no evidence for an association of claudins with integrin-a3 and SUMO-1, an interaction of claudins with sphingosin kinase 2 could be neither confirmed nor disproved. Furthermore, an affinity purification was performed in order to enrich interaction partners of tricellulin. Claudin-4 was identified as a specific, potential interaction partner of tricellulin by quantitative mass spectrometric analysis whereas claudin 3 and -7 were determined to be enriched unspecifically. The present study demonstrates that a combination of affinity purification and quantitative mass spectrometry can substantially contribute to the elucidation of protein complexes.
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