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The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
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Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 41 to 45 of 45 (0.063 seconds)| 41 |
Modélisation de l'interaction entre les virus de la grippe et de la rougeoleBouthillette, François 12 1900 (has links)
Les gens infectés par la rougeole subissent une suppression immunitaire. Ce mémoire
porte sur l’influence de cette caractéristique de la rougeole sur un autre pathogène, ici la
grippe. Il s’agit donc de modéliser la réponse immunitaire d’une interaction virus-virus, problème
d’une grande pertinence durant la pandémie causée par le SRAS-CoV-2 alors que les
interactions de celui-ci avec le virus de l’influenza demeurent à déterminer. Nous avons également
que la grippe augmente la production d’autres pathogènes. Un modèle de chaque
pathogène va être développé et analysé. On cherchera les points fixes, leurs conditions de stabilité
et on observera quelques résultats numériques pour constater leurs évolutions dans le
temps. Ensuite un modèle suivant l’évolution des deux pathogènes ayant infecté un individu
au même moment sera conçu. Dans ce modèle nous inclurons les interactions d’un pathogène
l’un sur l’autre pour déterminer théoriquement les effets chez les individus infectés à la fois
par la grippe et la rougeole. On pourra par la suite comparer entre les différentes populations
lorsqu’il n’y a aucune interaction et avec les différentes interactions entre les deux pathogènes. / People infected with measles experience immune suppression. This work focuses on the
influence of this characteristic of measles on another pathogen, here the flu. We also have that
the flu will increase the production of other pathogens in a co-infection model. Modeling
the immune response to such virus-virus interaction is currently of signficant relevance, given
the limited knowledge on SARS-CoV-2/influenza interactions. A model of each pathogen will
be developed and analysed. We will look for the fixed points, conditions for their stability
and we will observe some numerical results of their evolution over time. Then a model following
the evolution of the two pathogens having simultaneously infected an individual will
be designed. In this model we will include the interactions of the pathogens on each other to
theoretically determine the effects in individuals infected with both influenza and measles.
Then we can compare between the different populations when there is no interaction and
with the different interactions between the two pathogens.
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Les immunoglobulines intraveineuses et la réponse spécifique des cellules T dans la prévention de la maladie lymphoproliférative post-greffe associée au virus Epstein-Barr chez les enfants greffés de cellules souches hématopoïétiquesBah, Ramatoulaye 01 1900 (has links)
No description available.
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Immune modulation in serous epithelial ovarian cancer : focus on the role of tumor-derived exosomesLabani 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.
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Assessment of High Purity Mesenchymal Stromal Cells Derived Extracellular Vesicles Presenting NRP1 Show Functional Suppression of Activated Immune CellsGobin, Jonathan 04 January 2022 (has links)
Background: The focus of this study was to investigate how producing human bone marrow (hBM) derived mesenchymal stromal cell (MSC) extracellular vehicles (EVs) in a high purity isolation system would affect their established characterization criteria and address the validity of these methods of EV production. Additionally, we set out to functionally characterize the hBM-MSC-EVs for their identified immunomodulatory ability while also assessing the presence of novel MSC-EV marker NRP1 identified by our group to further affirm its validity as a functional MSC-EV identity marker.
Methods: Each hBM-MSC-EV donor was cultured in a hollow-fiber bioreactor system in non-stimulating serum/xeno-free conditions for 25 days to produce EVs persistently under quiescent conditions to characterize the hBM-MSC-EVs in their native form. EVs were isolated by traditional PEG-based precipitation for preliminary characterization to monitor bioreactor production wherein they were characterized using multimodal tangential flow filtration coupled with fast protein liquid chromatograph (FPLC) size exclusion/high-affinity purifications to obtain the final highly purified EV sample. Additionally, functional analysis of their immunomodulatory ability, EVs and MSCs were incubated with activated peripheral blood mononuclear cells (PBMCs) as an in-vitro model to evaluate their potency.
Results: The hBM-MSC-EVs produced from the bioreactor system showed consistent characterization in accordance with the MISEV2018 establish criteria. We were also able to demonstrate their functional ability by observing statistically significantly immunomodulatory ability of activated PBMCs equivalent to native MSC ability. We were also able to validate the present of NRP1 on all hBM-MSC-EV samples produced confirming its validity as a MSC-EV marker.
Conclusion: The significance of the results obtained from this study confirms the production of MSC-EV using a bioreactor and high purity isolation for obtaining consistent MSC-EVs for downstream investigation. Additionally, we were able to demonstrate the significance of MSC-EVs on MSC signaling for immunomodulation by showing equivalent functional potency when tested in-vitro. These results contribute to further understanding the biological attributes of MSC-EVs and contribute to the validation of currently established characterization guidelines.
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Inhibiting KDM6A Demethylase Represses Long Non-Coding RNA Hotairm1 Transcription in MDSC During SepsisBah, Isatou, Youssef, Dima, Yao, Zhi Q., McCall, Charles E., Elgazzar, Mohamed 01 January 2022 (has links)
Myeloid-derived suppressor cells (MDSCs) prolong sepsis by promoting immunosuppression. We reported that sepsis MDSC development requires long non-coding RNA Hotairm1 interactions with S100A9. Using a mouse model that simulates the immunobiology of sepsis, we find that histone demethylase KDM6A promotes Hotairm1 transcription by demethylating transcription repression H3K27me3 histone mark. We show that chemical targeting of KDM6A by GSK-J4 represses Hotairm1 transcription, which coincides with decreases in transcription activation H3K4me3 histone mark and transcription factor PU.1 binding to the Hotairm1 promoter. We further show that immunosuppressive IL-10 cytokine promotes KDM6A binding at the Hotairm1 promoter. IL-10 knockdown repletes H3K27me3 and reduces Hotairm1 transcription. GSK-J4 treatment also relocalizes nuclear S100A9 protein to the cytosol. To support translation to human sepsis, we demonstrate that inhibiting H3K27me3 demethylation by KDM6A ex vivo in MDSCs from patients with protracted sepsis decreases Hotairm1 transcription. These findings suggest that epigenetic targeting of MDSCs in human sepsis might resolve post-sepsis immunosuppression and improve sepsis survival.
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