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Impact de l’IL-15 dans un modèle murin de la sclérose en plaquesDeblois, Gabrielle 04 1900 (has links)
No description available.
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Characterization of the impact of senescent fibroblasts on the adenosine pathway in human NK cellsSaavedra-Tovar, Paola 01 1900 (has links)
Les fonctions immunitaires déclinent au cours du vieillissement, un phénomène qui pourrait être lié à l'accumulation de cellules sénescentes dans les tissus. La sénescence est un état irréversible d'arrêt de croissance qui s'engage principalement en réponse à des dommages irréparables de l'ADN. Les cellules sénescentes ont un phénotype sécrétoire pro-inflammatoire (SASP) qui affecte les tissus voisins. CD73 est une enzyme qui travaille en collaboration avec CD39 pour produire de l’adénosine à partir d‘adénosine triphosphate (ATP). Il a été démontré que des concentrations plus élevées d'adénosine dans un microenvironnement tumoral nuisent aux fonctions des cellules immunitaires. L'objectif de ce projet est de déterminer si les fibroblastes sénescents ont la capacité d'induire l'expression de CD39/CD73 à la surface des cellules tueuses naturelles (NK) et d'inhiber la réponse immunitaire antitumorale. Nos résultats montrent que les cellules NK-92, NKAES (cellules tueuses naturelles amplifiées) et les cellules NK primaires expriment des niveaux plus élevés de CD39/CD73 lorsqu'elles sont cultivées avec des fibroblastes sénescents. De plus, nous avons observé que le marqueur CD73 est aussi augmenté dans les fibroblastes sénescents. L'augmentation était cependant plus prononcée lorsque la sénescence était induite en raison de la surexpression de l’oncogène hRASv12 plutôt que suite à l'exposition à des radiations ionisantes. En outre, la cytotoxicité des cellules NK diminue lorsque celles-ci sont exposées à un environnement sénescent et lorsqu'on traite les cellules avec 2-Chloro Adénosine (CADO), un analogue de l'adénosine. Nous supposons que l'augmentation de l'expression de CD39/CD73 conduira à une production accrue d'adenosine, créant ainsi un environnement immunosuppressif. La caractérisation de l'impact de la sénescence cellulaire sur les fonctions des cellules NK pourrait donner un aperçu du développement de stratégies visant à augmenter la capacité du système immunitaire à éliminer les cellules tumorales, améliorant potentiellement les résultats du traitement du cancer. / Immune functions decline during aging, a phenomenon that may be linked to the
accumulation of senescent cells in tissues. Senescence is an irreversible state of cell
growth arrest often in response to irreparable DNA damage. Senescent cells have a
proinflammatory secretory phenotype (SASP) that affects nearby tissues. CD73 is an
enzyme that works in collaboration with CD39 to produce adenosine from adenosine
triphosphate (ATP). Higher concentrations of adenosine in a tumor microenvironment
were shown to impair immune cell functions. The objective of this project is to determine
whether senescent fibroblasts have the ability to induce CD39/CD73 expression at the
surface of natural killer (NK) cells and inhibit the antitumoral immune response. Our
results show that NK-92, NKAES and primary NK cells express higher levels of
CD39/CD73 when grown in co-culture with senescent fibroblasts. Similarly, we also
observed that the CD73 marker is increased in senescent fibroblasts. The effect was,
however, more pronounced when fibroblasts were induced to senesce because of the
overexpression of oncogenic hRASv12 compared to when induced to senesce following
exposure to ionizing radiation. In addition, the cytotoxicity of NK cells decreases when NK
cells are exposed to a senescent environment and when treated with 2-
Chloroadenosine (CADO), an analog of adenosine. We hypothesize that increased
CD39/CD73 expression will lead to an increased production of adenosine creating an
immunosuppressive environment. Characterization of the impact of cellular senescence
on the function of NK cells could provide insights into the development of strategies to
increase the ability of the immune system to eliminate tumor cells, potentially improving
cancer treatment outcomes.
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Low Energy Electron Irradiation Is a Potent Alternative to Gamma Irradiation for the Inactivation of (CAR-)NK-92 Cells in ATMP ManufacturingWalcher, Lia, Kistenmacher, Ann-Kathrin, Sommer, Charline, Böhlen, Sebastian, Ziemann, Christina, Dehmel, Susann, Braun, Armin, Tretbar, Uta Sandy, Klöß, Stephan, Schambach, Axel, Morgan, Michael, Löffler, Dennis, Kämpf, Christoph, Blumert, Conny, Reiche, Kristin, Beckmann, Jana, König, Ulla, Standfest, Bastian, Thoma, Martin, Makert, Gustavo R., Ulbert, Sebastian, Kossatz-Böhlert, Uta, Köhl, Ulrike, Dünkel, Anna, Fricke, Stephan 24 March 2023 (has links)
Background: With increasing clinical use of NK-92 cells and their CAR-modified
derivatives in cancer immunotherapy, there is a growing demand for efficient
production processes of these “off-the-shelf” therapeutics. In order to ensure safety
and prevent the occurrence of secondary tumors, (CAR-)NK-92 cell proliferation has to be
inactivated before transfusion. This is commonly achieved by gamma irradiation. Recently,
we showed proof of concept that low energy electron irradiation (LEEI) is a new method for
NK-92 inactivation. LEEI has several advantages over gamma irradiation, including a faster
reaction time, a more reproducible dose rate and much less requirements on radiation
shielding. Here, LEEI was further evaluated as a promising alternative to gamma irradiation
yielding cells with highly maintained cytotoxic effector function.
Methods: Effectiveness and efficiency of LEEI and gamma irradiation were analyzed using
NK-92 and CD123-directed CAR-NK-92 cells. LEE-irradiated cells were extensively
characterized and compared to gamma-irradiated cells via flow cytometry, cytotoxicity
assays, and comet assays, amongst others.
Results: Our results show that both irradiation methods caused a progressive decrease
in cell viability and are, therefore, suitable for inhibition of cell proliferation. Notably, the NKmediated
specific lysis of tumor cells was maintained at stable levels for three days postirradiation,
with a trend towards higher activities after LEEI treatment as compared to
gamma irradiation. Both gamma irradiation as well as LEEI led to substantial DNA damage
and an accumulation of irradiated cells in the G2/M cell cycle phases. In addition,
transcriptomic analysis of irradiated cells revealed approximately 12-fold more
differentially expressed genes two hours after gamma irradiation, compared to LEEI.
Analysis of surface molecules revealed an irradiation-induced decrease in surface
expression of CD56, but no changes in the levels of the activating receptors NKp46,
NKG2D, or NKp30.
Conclusions: The presented data show that LEEI inactivates (CAR-)NK-92 cells as
efficiently as gamma irradiation, but with less impact on the overall gene expression. Due
to logistic advantages, LEEI might provide a superior alternative for the manufacture of
(CAR-)NK-92 cells for clinical application.
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