Global ETD Search

191	Estudo sobre as respostas inflamatórias em modelo experimental de artrite séptica induzida por Staphylococcus aureus e suas vesículas / Study of inflammatory responses in experimental staphylococcal septic arthritis model induced by Staphylococcus aureus and extracellular vesicles Fatima, Farah 06 March 2018 (has links) A artrite séptica (AS), também chamada de artrite infecciosa, é uma doença inflamatória das articulações iniciada por um agente infeccioso. O agente causal mais comum da SA é Staphylococcus aureus (S. aureus). A patogênese da SA inclui uma resposta inflamatória complexa envolvendo sistema imune inato e adaptativo. As citocinas liberadas a partir de macrófagos, tais como TNF-?, IL-1? e IL-6, foram classicamente apontadas como os principais mediadores da inflamação grave que precede a destruição da cartilagem e osso e a disfunção articular permanente mediante a AS. A evidência radiológica está frequentemente presente, mas não diferencia o afrouxamento mecânico do septo das articulações. Portanto, se houver algum indício de suspeita de infecção, deve ser aspirado para avaliação microbiológica. Recentemente, as tecnologias de imagem como a micro tomografia computadorizada (?CT) foram amplamente utilizadas para modelos pré-clínicos de distúrbios articulares auto-imunes. No entanto, as características radiológicas da AS em camundongos ainda são amplamente desconhecidas. No estudo atual, os camundongos NMRI foram inoculados intravenosamente ou intra-articularmente com a cepas de S. aureus Newman ou LS-1. Os sinais radiológicos e clínicos da artrite séptica foram acompanhados durante 10 dias usando ?CT. Avaliamos as correlações entre alterações radiológicas conjuntas e sinais clínicos, alterações histológicas e níveis séricos de citocinas. Nos dias 5-7 após a infecção intravenosa, a destruição óssea verificada por ?CT tornou-se evidente na maioria das articulações infectadas. Os sinais radiológicos de destruição óssea eram dependentes da dose bacteriana. O local mais comumente afetado pela artrite séptica foi o fêmur distal nos joelhos. A destruição óssea detectada pelo ?CT foi correlacionada positivamente com alterações histológicas na artrite séptica local e hematogênica. Os níveis séricos de IL-6 foram significativamente correlacionados com a gravidade da destruição das articulações. Coletivamente, nossos dados mostram que o ?CT é um método sensível para monitorar a progressão da doença e determinar a gravidade da destruição óssea em um modelo de artrite séptica do mouse; enquanto que a IL-6 é um potencial biomarcador de destruição óssea na artrite séptica. / Extracellular vesicles (EVs) are heterogeneous population of nano- and micro-sized vesicles secreted from almost every cell type. The process of EV secretion seems to be evolutionary conserved across the species kingdoms, ranging from simple prokaryotes to higher eukaryotes including bacteria, viruses, and parasitic protozoa such as leishmania and malarial parasites, fungi, plants and animals. Recent data suggests that Staphylococcus aureus (S. aureus) bacteria secretes EVs that could mediate host-pathogen interactions. EVs have been investigated in various bacterial species which modulate the secretion of immunoregulatory molecules such as cytokines and may have key role in infection. However, their role in S. aureus septic arthritis has not been explored yet. In current study, we postulate novel perspectives for the implementation of S. aureus-derived EVs in vitro as well as in vivo model of septic arthritis. EVs derived from S. aureus were applied to stimulate mice splenocytes in vitro as well as intra-articularly and the cytokine levels were measured. Our results showed that S. aureus derived EVs potentially provoke the production of proinflammatory cytokines. TNF-?, and IL-6 were significantly elevated in splenocytes in vitro after EV-based stimulation. Moreover, NMRI mice were injected with variable doses of EVs intraarticularly and mice were observed for 10 days to examine inflammation and development of septic arthritis. Bone and cartilage destruction was assessed by histochemistry analysis to score the joint erosion. Altogether, our results demonstrate the putative role of S. aureus-derived EVs in provoking inflammation and immunological responses suggesting that these vesicles could induce and disseminate systemic immune response during the development of septic arthritis. Artrite séptica Citocinas ELISA Exosomes Extracellular vesicles Histoquímica IL-6 IL-6 Inflammation Micro tomografia computadorizada Microvesicles Modelo animais Septic arthritis Staphylococcus aureus Staphylococcus aureus TNF-alpha TNF-alpha
192	Selective transfer of exosomes from oligodendrocytes to microglia by macropinocytosis / Selektiver Transfer von Exosomen von Oligodendrozyten zu Mikroglia durch Makropinozytose Schnaars, Mareike 24 January 2011 (has links) No description available. 570 Biowissenschaften, Biologie Medicine Makropinozytose Mikroglia Myelin Oligodendrozyten Exosomen Macropinocytosis Microglia Myelin Oligodendrocytes Exosomes 44.90 42.15 MED 341: Immunologie {Medizin} MED 280: Biologie WH 000: Cytologie {Biologie}
193	Approches de fractionnement biochimique couplé à la transcriptomique dans l’étude systématique de la localisation subcellulaire et extracellulaire des ARNs Lefebvre, Fabio Alexis 08 1900 (has links) No description available. ARN Vésicules extracellulaires exosomes régulation post-transcriptionnelle Développement embryonnaire Drosophile Histones RNA localization Posttranscriptional regulation Systems biology Transcriptomics Non-coding RNAs Extracellular vesicles Embryonic development Drosophila
194	Immune modulation in serous epithelial ovarian cancer : focus on the role of tumor-derived exosomes Labani Motlagh, Alireza January 2017 (has links) Serous epithelial ovarian cancer (EOC) is a potent suppressor of the immune defense. Here, we studied interactions between EOC and the immune system that lead to escape from tumor immune surveillance. We explored: 1) tumor escape from cytotoxicity by exosome-mediated modulation of the NK-cell receptors NKG2D and DNAM-1; 2) cytokine mRNA profiles in the EOC microenvironment and peripheral blood and their role in the suppression of the anti-tumor immune responses; 3) expression of long non-coding (lnc) RNAs in EOC tumors and exosomes. We found that EOC-secreted exosomes carried MICA/B and ULBP1-3, ligands of NKG2D, and could downregulate the NKG2D receptor and impair NKG2D-mediated cytotoxicity. In contrast, the DNAM-1 receptor ligands PVR and nectin-2 were seldom found in exosomes and were not associated with the exosomal membrane leaving the DNAM-1 receptor-mediated cytotoxicity intact. We compared cytokine mRNA expression in the tumor microenvironment and in immune cells of peripheral blood in EOC patients and patients with benign ovarian conditions. EOC patients were unable to mount an IFN-gamma mRNA response needed for tumor cell elimination. Instead, there was a significant up-regulation of inflammation and immune suppression i.e. responses promoting tumorigenesis and T-regulatory cell priming that suppress anti-tumor immunity. In addition, we studied lncRNAs in tissues and sera exosomes from EOC and benign ovarian conditions aiming to assess the lncRNA(s) expression profile and look for lncRNA(s) as possible marker(s) for early diagnosis. We found a deregulated lncRNAs expression in EOC tissues that correlated well with the lncRNAs expression in exosomes. Candidate lncRNAs with the highest expression and abundance were suggested for evaluation as EOC diagnostic markers in a future large cohort study. Our studies of EOC tissue and EOC exosomes highlight the immunosuppressive tumor microenvironment and the complex tumor exosome-mediated network of immunosuppressive mechanisms, and provide a mechanistic explanation of the observation that NKG2D-mediated cytotoxicity does not function in EOC patients and is partially replaced by the accessory DNAM-1 dependent cytotoxic pathway. The deregulated lncRNAs expression in EOC tissues and exosomes might serve for diagnostic purposes but could also be a potential risk of spreading tumor-derived lncRNAs in EOC exosomes to recipient cells throughout the body. ovarian cancer EOC HGSC exosomes NKG2D MICA/B ULBP DNAM-1 PVR nectin-2 lncRNAs immune suppression anti-tumor immunity NK-cell cytotoxicity cytokines Th1 Th2 T regulatory response inflammation tumor microenvironment Immunology in the medical area Immunologi inom det medicinska området
195	Prvotrimestrální skrínink těhotenských komplikací s využitím plazmatických exozomálních C19MC microRNA / First-trimester screening of pregnancy-related complications using plasma exosomal C19MC microRNAs Špačková, Kamila January 2019 (has links) Pregnancy-related complications such as gestational hypertension, preeclampsia, fetal growth restriction, gestational diabetes mellitus, spontaneous preterm birth, and preterm premature rupture of membranes may have severe consequences for both the mother and the child. The development of reliable early screening methods for pregnancy-related complications has therefore been a long-term goal of obstetrics. New possibilities for prenatal diagnostics have opened with the discovery of circulating microRNAs in maternal plasma. MicroRNAs are short, noncoding, 21 to 23 nucleotides long, single-strand RNAs whose main function is to regulate gene expression. During pregnancy, both common and unique miRNAs are expressed by the placenta, amongst them the miRNAs of the C19MC cluster. Several C19MC miRNAs have been shown to display a different expression profile associated with certain pregnancy-related complications. This thesis identifies the plasma exosomal profiles of six C19MC miRNAs (miR-516-5p, miR-517-5p, miR-518b, miR-520a-5p, miR-520h, and miR-525-5p) in patients in their first trimester of gestation who later developed pregnancy-related complications, and compares them with profiles in patients with normal pregnancies.
196	RNA Exosome & Chromatin: The Yin & Yang of Transcription: A Dissertation Rege, Mayuri 12 November 2015 (has links) Eukaryotic genomes can produce two types of transcripts: protein-coding and non-coding RNAs (ncRNAs). Cryptic ncRNA transcripts are bona fide RNA Pol II products that originate from bidirectional promoters, yet they are degraded by the RNA exosome. Such pervasive transcription is prevalent across eukaryotes, yet its regulation and function is poorly understood. We hypothesized that chromatin architecture at cryptic promoters may regulate ncRNA transcription. Nucleosomes that flank promoters are highly enriched in two histone marks: H3-K56Ac and the variant H2A.Z, which make nucleosomes highly dynamic. These histone modifications are present at a majority of promoters and their stereotypic pattern is conserved from yeast to mammals, suggesting their evolutionary importance. Although required for inducing a handful of genes, their contribution to steady-state transcription has remained elusive. In this work, we set out to understand if dynamic nucleosomes regulate cryptic transcription and how this is coordinated with the RNA exosome. Remarkably, we find that H3-K56Ac promotes RNA polymerase II occupancy at a large number of protein coding and noncoding loci, yet neither histone mark has a significant impact on steady state mRNA levels in budding yeast. Instead, broad effects of H3-K56Ac or H2A.Z on levels of both coding and ncRNAs are only revealed in the absence of the nuclear RNA exosome. We show that H2A.Z functions with H3-K56Ac in chromosome folding, facilitating formation of Chromosomal Interaction Domains (CIDs). Our study suggests that H2A.Z and H3-K56Ac work in concert with the RNA exosome to control mRNA and ncRNA levels, perhaps in part by regulating higher order chromatin structures. Together, these chromatin factors achieve a balance of RNA exosome activity (yin; negative) and Pol II (yang; positive) to maintain transcriptional homeostasis. chromatin H3-K56Ac H2A.Z ncRNAs RNA exosome chromosome interaction domains Dissertations, UMMS Chromatin Exosomes Homeostasis Nucleosomes RNA, Messenger Saccharomyces cerevisiae RNA, Long Noncoding Transcription Factors Biochemistry Molecular Biology Molecular Genetics Structural Biology
197	Les vésicules apoptotiques de type exosome transfèrent de l'ARNm bioactif aux cellules endothéliales par macropinocytose dépendante de la phosphatidylsérine Brodeur, Alexandre 11 1900 (has links) Cotutelle - Mélanie Dieudé / L’ischémie-reperfusion inhérente à toute transplantation d’organe solide induit l’apoptose des cellules endothéliales. Les cellules endothéliales apoptotiques sécrètent des vésicules extracellulaires apoptotiques de type exosome (ApoExo). L’internalisation des ApoExo par les cellules endothéliales (CE) adjacentes conduit à des changements fonctionnels importants dont le dysfonctionnement endothélial. Cependant, les mécanismes d’internalisation des ApoExo par les CE sont méconnus. Des marqueurs fluorescents spécifiques aux protéines et à l’ARN ont été utilisés afin de marquer spécifiquement les ApoExo et étudier leur internalisation par microscopie confocale et cytométrie de flux. Les ApoExo ont été internalisés par les CE en fonction du temps et de la concentration. L’inhibition des voies classiques d’endocytose à l’aide d’inhibiteurs pharmacologiques et d’interférence par ARN n’a pas réduit les niveaux d’internalisation des ApoExo. Le blocage de la phosphatidylsérine des ApoExo avec l’annexine-V a réduit leur internalisation. L’analyse ultrastructurelle par microscopie électronique des CE a révélé la présence de structures lamellipodes importantes pour la macropinocytose dont l’inhibition a diminué le transfert d’ARN et de protéines dans les CE. L’analyse par RT-qPCR a révélé que l’ARNm PCSK5, le plus enrichi dans les ApoExo, est augmenté dans les CE traitées aux ApoExo. Cette augmentation est abolie avec ApoExo exempts d’ARNm PCSK5. Ces résultats démontrent que les ApoExo sont activement internalisés par macropinocytose dépendante de la phosphatidylsérine, favorisant leur internalisation en augmentant l’activité macropinocytique des CE. Les ApoExo transfèrent ainsi des ARN fonctionnels capables de moduler le protéome des CE. Ces résultats ouvrent de nouvelles portes pour la prévention de l’internalisation des ApoExo, et donc de la dysfonction endothéliale. / Ischemia-reperfusion injury inherent to solid organ transplantation induces endothelial apoptosis, releasing apoptotic exosome-like vesicles (ApoExo) which in turn induce endothelial dysfunction. We showed that ApoExo modulates gene expression, functions, and morphology of endothelial cells (EC) towards endothelial dysfunction. However, the mechanism by which EC internalize ApoExo remains unclear. Fluorescent probes specifically targeting proteins and RNA were used to track ApoExo uptake in EC by flow cytometry and confocal microscopy. Pharmacological inhibitors and gene silencing were used to probe uptake mechanisms. RNA and protein expression were quantified using Taqman RT-qPCR and immunoblot, respectively. Uptake of ApoExo by EC was observed in a time- and concentration-dependent manner. Inhibition of clathrin- and caveolae-dependent endocytosis did not decrease ApoExo internalization by EC. Blocking phosphatidylserine on ApoExo surface with annexin-V decreased ApoExo uptake. Ultrastructural analysis of serum-starved EC via electron microscopy revealed lamellipodia-like structures, hallmark of macropinocytosis, whose number increased following ApoExo exposure. Inhibition of macropinocytosis abrogated both RNA and protein transfers from ApoExo to EC. The most enriched mRNA in ApoExo, coding for PCSK5, showed enhanced levels in ApoExo-treated EC along with increased PCSK5 protein levels. This was abrogated by both macropinocytosis inhibition and depletion of PCSK5 mRNA in ApoExo. These results demonstrate that EC actively internalize ApoExo through phosphatidylserine-dependent macropinocytosis, and moreover, that ApoExo further increase macropinocytosis. These findings also show that functional RNAs can be delivered to EC through ApoExo. These results open new avenues for preventing ApoExo internalization and counteracting the development of endothelial dysfunction. Apoptose Exosome Vésicules extracellulaires ApoExo Cellules endothéliales Macropinocytose Rétroactivation Transfert de cargo ARNm PCSK5 Apoptosis Extracellular Vesicles Exosomes Endothelial Cells Macropinocytosis Positive Feedback Loop Cargo Transfer
198	IFN-Gamma-Mediated Immunoevasive Strategies in Multiple Myeloma Ciarlariello, Paul David 08 August 2016 (has links) No description available. Immunology Oncology Molecular Biology
199	CHARACTERIZATION OF DIAGNOSTIC BIOSIGNATURES FOR PARKINSON’S DISEASE AND RENAL CELL CARCINOMA THROUGH QUANTITATIVE PROTEOMICS AND PHOSPHOPROTEOMICS ANALYSES OF URINARY EXTRACELLULAR VESICLES Marco Hadisurya (16548114) 26 July 2023 (has links) <p>Urine-based biomarkers offer numerous advantages for clinical analysis, including non-invasive collection, a suitable sample source for longitudinal disease monitoring, a better screenshot of disease heterogeneity, higher sample volumes, faster processing times, and lower rejection rates and costs. They will be extremely useful in a clinical trial context, which can be applied alone or in combination with other methods as long as they demonstrate clear reproducibility across cohorts. While biofluids such as urine present enormous challenges with a wide dynamic range and extreme complex typically dominated by a few highly abundant proteins, we have demonstrated that the analytical issue can be efficiently addressed by focusing on extracellular vesicles (EVs), tiny packages released by all kinds of cells. These tiny packages contain different kinds of molecules from inside the cells. Here, we established a robust EV isolation and characterization platform to screen and validate Parkinson’s Disease (PD) and Renal Cell Carcinoma (RCC) biomarkers from urine. PD is a progressive neurological disorder affecting body movement because some brain cells stop producing dopamine. PD is often not diagnosed until it has advanced, making early detection crucial. We investigated urinary EVs from 138 individuals to enable early detection and found several proteins involved in PD development that could be biological indicators for early disease detection. Several biochemical techniques were applied to verify our findings. In the second project, we attempted to develop a novel diagnostic technique for early intervention of RCC. Here, we made our efforts to develop a quantitative method based on data-independent acquisition (DIA) mass spectrometry to analyze urinary EV phosphoproteomics for non-invasive RCC biomarker screening. Combined with our in-house EVtrap method for EV isolation and PolyMAC enrichment of phosphopeptides, we quantified 2,584 unique phosphosites. We observed unique upregulated phosphosites and pathways differentiating healthy control (HC), chronic kidney disease (CKD), low-grade, and high-grade clear cell RCC. These applications have a significant promise for early PD and RCC diagnosis and monitoring based on actual functional proteins with urine as the source. These studies might provide a viable path to developing urinary EV-based disease diagnosis.</p> Analytical biochemistry Analytical spectrometry Mass spectrometry Extracellular vesicles Exosomes Urine Proteomics Phosphoproteomics Biomarker discovery Biosignatures Machine learning Parkinson's disease LRRK2 Kidney cancer Renal cell carcinoma RCC Chronic kidney disease CKD Data-independent acquisition DIA Gas-phase fractionation GPF GPF DIA EVtrap PolyMAC
200	INVESTIGATION OF DIFFERENTIALLY EXPRESSED NONCODING RNAS IN PANCREATIC DUCTAL ADENOCARCINOMA Sutaria, Dhruvitkumar S January 2016 (has links) No description available. Pharmaceuticals Pharmacy Sciences Nanoscience Molecular Biology Oncology Pharmacology Noncoding RNA microRNA Long non coding RNA exosomes extracellular vesicles therapeutic delivery pancreatic cancer TAT TAR interaction protein engineering mouse models

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