Biologia computacional aplicada à análise de dados de microarranjos do genoma da bactéria marinha vibrio parahaemolyticus em presença de n-acetilglicosamina / Computational biology applied to microarray data analysis from genome of marine bacterium vibrio parahaemolyticus in presence of n-acetylglucosamine

Santos Neto, Antonio Alves dos

11 March 2010

Made available in DSpace on 2015-03-04T18:51:21Z (GMT). No. of bitstreams: 1 Antonio Neto.pdf: 2082167 bytes, checksum: f56cf900db766b4f223ae0ad59348aa7 (MD5) Previous issue date: 2010-03-11 / Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior / Large scale gene expression analysis has fundamental importance for understanding cellular function and gene regulation mechanics. It enables the measurement of expression levels of thousands of genes simultaneously, and makes possible a wider understanding of the biological system. Among the main experimental techniques available for this purpose, microarray technology has been widely used. The objective of this work was to determine the genes of Vibrio parahaemolyticus which have their expression induced or repressed in presence of amino-sugars N-acetylglucosamine (NAG). V. parahaemolyticus is a marine bacterium, commonly found in water and in association with marine organisms. NAG is one of the most abundant amino sugars in the marine environment. For this, V. parahaemolyticus RIMD2210633, was cultivated in two media as sources of energy. The first medium consists of maltose and NAG (control) and the second only by NAG (treatment). Bacterial culture was done under aerobic conditions and low agitation at 28°C. Two samples were drawn from the medium 24 hours after the experiment beginning in order to perform the extraction of mRNA and preparation of cDNA. Three replicas of the experiments were made. Mixtures of cDNA prepared from RNA extracted from each replicate were used in hybridizations in microarray slides containing a total of 4832 ORFS from the V. parahaemolyticus RIMD2210633 genome. Comparative analysis of gene expression of V. parahaemolyticus in two culture conditions resulted in detection of 59 genes with expression induced, 38 repressed genes, and 4245 without modified expression (increased or decreased) in presence of NAG. In total, 523 genes were excluded from this comparison because the hybridization was unsatisfactory. There was a gene ordination following the functional classification of the database TIGR-CMR and KEGG. The genes with induced expression mainly belong to classes of regulatory functions, energy metabolism, and transport proteins. PilA and Chemotaxis proteins were found, suggesting a role of NAG in the transformation. Repressed expression genes are mainly included in the functions of energy metabolism, cell address, and hypothetical proteins. This study demonstrated that NAG interfere in regulation of different cell processes, including the ability to capture DNA from the medium by V. parahaemolyticus. / A análise da expressão gênica em larga escala é de fundamental importância para a melhor compreensão do funcionamento celular e dos mecanismos de regulação gênica. Ela possibilita a medida dos níveis de expressão de milhares de genes simultaneamente, o que torna possível uma visão mais abrangente do sistema biológico. Dentre as principais técnicas experimentais disponíveis para esta finalidade, a tecnologia de microarranjo tem sido amplamente utilizada. O objetivo desta dissertação foi determinar os genes de V. parahaemolyticus que têm sua expressão induzida ou reprimida na presença do aminoaçúcar N-acetilglucosamina (NAG). V. parahaemolyticus é uma bactéria marinha, comumente encontrada na água e em associação com organismos marinhos. O NAG é um dos aminoaçúcares mais abundantes no meio marinho. Para isso, Vibro parahaemolyticus RIMD2210633, foi cultivada em dois meios como fontes de energia. O primeiro meio composto por maltose e NAG e o segundo apenas por NAG. O cultivo bacteriano foi feito em condições aeróbicas, sob baixa agitação, a 28°C. Foram retiradas duas amostras do cultivo no tempo de 24 horas após o início do experimento a fim de realizar a extração de mRNA e a preparação do cDNA. Os experimentos foram feitos em três replicas. As misturas de cDNA preparadas a partir do RNA extraído de cada réplica foram utilizadas em hibridizações em lâminas de microarranjo contendo um total de 4832 ORFS do genoma de V. parahaemolyticus RIMD2210633. A análise comparativa da expressão gênica de V. parahaemolyticus nas duas condições de cultivo resultou na detecção de 59 genes com expressão induzida, 38 genes reprimidos, e 4245 sem expressão modificada (aumentada ou diminuída) na presença de NAG. No total, 523 genes foram excluídos da comparação pois a hibridização não foi satisfatória. Ocorreu uma ordenação dos genes seguindo a classificação funcional do banco de dados TIGR-CMR e KEGG. Os genes com expressão induzida, pertencem principalmente às classes de funções regulatórias, metabolismo de energia, e proteínas de transporte. Foram também encontradas proteínas PilA e de quimiotaxia, sugerindo um papel da NAG na transformação. Já os genes de expressão reprimida compreendem principalmente as funções de metabolismo de energia, endereçamento celular, e proteínas hipotéticas. O presente estudo demonstrou que NAG interfere na regulação de diferentes processos celulales, incluindo a capacidade de captura de DNA do meio por V. parahaemolyticus.

Biologia Molecular

Vibrio parahaemolyticus

N-acetilglicosamina

Microarranjos

Expressão Gênica

Molecular Biology

Vibrio parahaemolyticus

N-acetylglucosamine

Microarrays

Gene Expression

Synthetic strategies for potential trypanocides

Capes, Amy

January 2011

Human African trypanosomiasis (sleeping sickness) is a devastating disease which is endemic in parts of sub-Saharan Africa. It is caused by the protozoan parasite T. brucei, which are transmitted by the bite of infected tsetse flies. Although the disease is fatal if left untreated, there is a lack of safe, effective and affordable drugs available; therefore new drugs are urgently needed. The aim of the work presented in this thesis is to develop novel trypanocidal compounds. It is divided into two parts to reflect the two distinct strategies employed to achieve this aim. The first part focuses on the inhibition of glycophosphoinositol (GPI) anchor synthesis by inhibiting the Zn2+-dependent enzyme, GlcNAc-PI de-N-acetylase. Trypanosomes have a variable surface glycoprotein (VSG) coat, which allows them to evade the human immune system. The GPI anchor attaches the VSG to the cell membrane; therefore inhibiting GPI synthesis should expose the parasite to the immune system. Initially, large substrate analogues were synthesized. These showed weak inhibition of the enzyme. Zinc-binding fragments were screened, and small molecule inhibitors based on salicylhydroxamic acid were then synthesized. These compounds showed modest inhibition, but the excellent ligand efficiency of salicylhydroxamic acid indicates this may be a promising starting point for further inhibitors. The second part details the P2 strategy. The P2 transporter is a nucleoside transporter unique to T. brucei, which concentrates adenosine. The transporter also binds and selectively concentrates compounds that contain benzamidine and diaminotriazine P2 motifs, which can enhance the potency and selectivity of these compounds. The sleeping sickness drugs melarsoprol and pentamidine contain P2 motifs. Compounds comprising a P2 targeting motif, a linker and a trypanocidal moiety were synthesized. Initially, a diaminotriazine P2 motif was attached to a trypanocidal tetrahydroquinoline (THQ) protein farnesyl transferase (PFT) inhibitor, with limited success. The P2 strategy was also applied to a non-selective, trypanocidal, quinol moiety. The quinol moiety was attached to diaminotriazine and benzamidine P2 motifs, and an increase in selectivity for T. brucei over MRC5 cells was observed.

615

Loss of Perineuronal Net in ME7 Prion Disease

Franklin, S.L., Love, S., Greene, J.R., Betmouni, S.

January 2008

No / Microglial activation and behavioral abnormalities occur before neuronal loss in experimental murine prion disease; the behavioral changes coincide with a reduction in synaptic plasticity. Because synaptic plasticity depends on an intact perineuronal net (PN), a specialized extracellular matrix that surrounds parvalbumin (PV)-positive GABAergic (gamma-aminobutyric acid [GABA]) inhibitory interneurons, we investigated the temporal relationships between microglial activation and loss of PN and PV-positive neurons in ME7 murine prion disease. Anesthetized C57Bl/6J mice received bilateral intracerebral microinjections of ME7-infected or normal brain homogenate into the dorsal hippocampus. Microglial activation, PrP accumulation, the number of PV-positive interneurons, and Wisteria floribunda agglutinin-positive neurons (i.e. those with an intact PN) were assessed in the ventral CA1 and subiculum at 4, 8, 12, 16, and 20 weeks postinjection. Hippocampal areas and total neuron numbers in the ventral CA1 and subiculum were also determined. Loss of PN coincided with early microglial activation and with a reduction in synaptic plasticity. No significant loss of PV-positive interneurons was observed. Our findings suggest that the substrate of the earliest synaptic and behavioral abnormalities in murine prion disease may be inflammatory microglia-mediated degradation of the PN.

Animals

Disease models

Disease progression

Encephalitis

Extracellular matrix

Female

Gliosis

Hippocampus

Interneurons

Mice

Inbred C57BL

Microglia

Nerve degeneration

Neural pathways

Neuronal plasticity

Parvalbumins

Plant lectins

PrPSc proteins

Prion diseases

Receptors

N-acetylglucosamine

Staining and labelling

Gamma-aminobutyric acid

REF 2014

Regulation of BAP1 tumor suppressor complex by post-translational modifications

Mashtalir, Nazar

04 1900

Le régulateur transcriptionnel BAP1 est une déubiquitinase nucléaire (DUB) dont le substrat est l’histone H2A modifiée par monoubiquitination au niveau des residus lysines 118 et 119 (K118/K119). Depuis les dernières années, BAP1 emerge comme un gene suppresseur de tumeur majeur. En effet, BAP1 est inactivé dans un plethore de maladies humaines héréditaires et sporadiques. Cependant, malgré l’accumulation significative des connaissances concernant l’occurrence, la pénétrance et l’impact des défauts de BAP1 sur le développement de cancers, ses mécanismes d’action et de régulation restent très peu compris. Cette étude est dédiée à la caractérisation moléculaire et fonctionnelle du complexe multi-protéique de BAP1 et se présente parmi les premiers travaux décrivant sa régulation par des modifications post-traductionnelles. D’abord, nous avons défini la composition du corps du complexe BAP1 ainsi que ses principaux partenaires d’interaction. Ensuite, nous nous sommes spécifiquement intéressés a investiguer d’avantage deux principaux aspects de la régulation de BAP1. Nous avons d’abord décrit l’inter-régulation entre deux composantes majeures du complexe BAP1, soit HCF-1 et OGT. D’une manière très intéressante, nous avons trouvé que le cofacteur HCF-1 est un important régulateur des niveaux protéiques d’OGT. En retour, OGT est requise pour la maturation protéolytique de HCF-1 en promouvant sa protéolyse par O-GlcNAcylation, un processus de régulation très important pour le bon fonctionnement de HCF-1. D’autre part, nous avons découvert un mécanisme unique de régulation de BAP1 médiée par l’ubiquitine ligase atypique UBE2O. en effet, UBE2O se caractérise par le fait qu’il s’agit aussi bien d’une ubiquitine conjuratrice et d’une ubiquitine ligase. UBE2O, multi-monoubiquitine BAP1 au niveau de son domaine NLS et promeut son exclusion du noyau, le séquestrant ainsi dans le cytoplasme. De façon importante, nos travaux ont permis de mettre de l’emphase sur le rôle de l’activité auto-catalytique de chacune de ces enzymes, soit l’activité d’auto-déubiquitination de BAP1 qui est requise pour la maintenance de sa localisation nucléaire ainsi que l’activité d’auto-ubiquitination d’UBE2O impliquée dans son transport nucléo-cytoplasmique. De manière significative, nous avons trouvé que des défauts au niveau de l’auto-déubiquitination de BAP1 due à des mutations associées à certains cancers indiquent l’importance d’une propre regulation de cette déubiquitinase pour les processus associés à la suppression de tumeurs. / BAP1 is a nuclear deubiquitinating enzyme (DUB) that acts as a transcription regulator and a DUB of nucleosomal histone H2AK119. In the recent years, it has become clear that BAP1 is a major tumor suppressor, inactivated in a plethora of hereditary and sporadic human malignancies. Although, we now accumulated a significant body of knowledge in respect to the occurrence, penetrance and impact of BAP1 disruption in cancer, its mechanism of action and regulation remained poorly defined. This work is dedicated to the biochemical and functional characterization of the BAP1 multiprotein complex and presents one of the first cases regarding its regulation by post-translational modifications. First, we defined the initial composition of the BAP1 complex and its main interacting components. Second, we specifically focused on two aspects of BAP1 regulation. We described the cross regulation between the two major components of the complex namely HCF-1 and OGT. We found that HCF-1 is important for the maintenance of the cellular levels of OGT. OGT, in turn, is required for the proper maturation of HCF-1 by promoting O-GlcNAcylation-mediated limited proteolysis of its precursor. Third, we discovered an intricate regulatory mechanism of BAP1 mediated by the atypical ubiquitin ligase UBE2O. UBE2O multi-monoubiquitinates BAP1 on its NLS and promotes its exclusion from the nucleus. Importantly, our work emphasises the role of the autocatalytic activity of both enzymes namely the auto-deubiquitination activity of BAP1, required for the maintenance of nuclear BAP1 and the auto-ubiquitination of UBE2O implicated in its nucleocytoplasmic transport. Significantly, we found that auto-deubiquitination of BAP1 is disrupted by cancer-associated mutations, indicating the involvement of this process in tumor suppression.

Chromatine

Marque épigénctique

O-GlcNAcylation

Régulation protéolytique

Ubiquitination

Déubiquitinase

Ubiquitine ligase atypique

Activité auto-catalytique

Cancer

Chromatin

Epigenetic mark

Proteolytic processing

Ubiquitination

Deubiquitinase

Atypical ubiquitin ligase

Autocatalytic activity

Host cell factor 1

BRCA1-associated protein 1

UBE2O

Struktur und Funktion der 20S Proteasomen aus Organen Listeria monocytogenes infizierter Mäuse

Strehl, Britta Katharina

28 June 2005

Das Proteasomensystem der Zelle ist für die Degradation von Proteinen verantwortlich und spielt eine zentrale Rolle bei der Generierung von Epitopen, die auf MHC-Klasse-I Molekülen den cytotoxischen T-Lymphozyten (CTLs) präsentiert werden. Die Stimulation von Zellen mit Interferon-gamma (IFNgamma) führt zu der Bildung von Immunoproteasomen, die im Vergleich zu den konstitutiven Proteasomen eine verbesserte Generierung vieler MHC-Klasse-I Epitope aufweisen. In gesunden Mäusen werden Immunoproteasomen vorwiegend in den lymphatischen Geweben exprimiert, wohingegen nicht-lymphatische Gewebe hauptsächlich konstitutive Proteasomen enthalten. In der vorliegenden Arbeit wurde der Einfluss der Listeria monocytogenes Infektion auf die aus der Leber, der Milz, dem Dünndarm und dem Colon stammenden murinen 20S Proteasomen untersucht. Die Struktur der isolierten 20S Proteasomen wurde mittels zweidimensionaler Gelelektrophorese und Westernblot ermittelt, während die Funktion durch in vitro Prozessierung von drei oligomeren Peptidsubstraten analysiert wurde. Die Prozessierungsprodukte wurden mittels HPLC-ESI-Ionenfalle massenspektrometrisch identifiziert sowie quantifiziert. Die vorliegende Arbeit zeigt zum ersten Mal, dass nach einer Infektion die aus den nicht-lymphatischen Organen und Zellen isolierten 20S Proteasomen eine strukturelle und funktionelle Plastizität aufweisen: Nach der Infektion wurde die Bildung von Immunoproteasomen induziert, was mit der gesteigerten Generierung der immunrelevanten Fragmente korreliert werden konnte. Dies verlief unabhängig von der direkten Präsenz von Listeria monocytogenes in den Organen und wurde ausschließlich durch das Cytokin IFNgamma reguliert. Es konnte außerdem eine Zunahme der posttranslationalen Modifikation von Leberproteasomen mit dem Monosaccharid N-Acetylglucosamin nach der Infektion nachgewiesen werden. Des Weiteren wurde eine detaillierte Analyse der massenspektrometrischen Daten hinsichtlich des Schnittverhaltens der konstitutiven und Immunoproteasomen etabliert. Die Auswertung ergab, dass die Immunoproteasomen nach der Infektion durch schnellere und veränderte Nutzung bestehender Spaltstellen an der verbesserten Epitoppräsentation beteiligt sind. / The proteasome system of the cell is responsible for the degradation of proteins and plays a central role in the generation of epitopes which are presented to cytotoxic T-lymphocytes (CTLs) on MHC-class-I molecules. The stimulation of cells by interferon-gamma (IFNgamma) leads to the formation of immunoproteasomes that show an improved generation of many MHC-class-I epitopes compared to constitutive proteasomes. In healthy mice, immunoproteasomes are mainly expressed in the lymphatic tissues, whereas the non-lymphatic organs predominantly contain constitutive proteasomes. In this project the effect of Listeria monocytogenes infection on murine 20S proteasomes derived from the liver, spleen, small intestine and colon were investigated. The structure of the isolated proteasomes was analyzed by two-dimensional gel electrophoresis and western blots while the function was studied by in vitro processing of three oligomeric peptide substrates. Identification and quantification of the processing products was performed by HPLC-ESI-ion trap mass spectrometry. The project showed for the first time, that after infection 20S proteasomes isolated from non-lymphatic organs as well as from non-lymphatic cells displayed structural and functional plasticity: immunoproteasomes were induced post infection which could be correlated with the enhanced generation of immuno-relevant fragments. This was independent of the direct presence of Listeria monocytogenes in the organs and solely controlled by the cytokine IFNgamma. In addition, an increased posttranslational modification with the monosaccharide N-acetylglucosamine could be detected in liver-derived proteasomes after infection. Furthermore, a detailed analysis of the mass spectrometry data was established according to the cleavage site usage of constitutive and immunoproteasomes. The result was that immunoproteasomes are involved in improved generation of the immuno-relevant fragments by the faster cleavage and the changed usage of existing cleavage sites after infection.

20S Proteasom

Immunoproteasom

Listeria monocytogenes

Mausmodell

lymphatische Organe

nicht-lymphatische Organe

IFNgamma

TNFalpha

Antigenprozessierung

MHC-Klasse-I Epitop

Antitop

LLO

Hsp60

pp89

HPLC-ESI-Ionenfalle

Massenspektrometrie

posttranslationale Modifikation

N-Acetylglucosamin

O-GlcNAc

20S proteasome

immunoproteasome

Listeria monocytogenes

mouse model

lymphatic organs

non-lymphatic organs

IFNgamma

TNFalpha

antigen processing

MHC-class-I epitope

antitope

LLO

Hsp60

pp89

HPLC-ESI-ion trap

mass spectrometry

posttranslational modification

N-acetylglucosamine

O-GlcNAc

570 Biowissenschaften, Biologie

32 Biologie

WC 6570

YD 5687

ddc:570