Spelling suggestions: "subject:"senescent"" "subject:"scenescent""
11 |
Enhancing Muscle Satellite Cell Proliferation in Three-Dimensional Bioreactor Cultures Through the Optimization of Biochemical and Mechanical CuesGe, Chang January 2024 (has links)
Cultured meat offers a sustainable alternative to traditional meat production, addressing critical environmental and ethical issues. A key aspect of this process is the large-scale proliferation of muscle satellite cells, which can further proliferate and form the primary component of cultured meat. However, ensuring efficient cell proliferation within bioreactors is a significant challenge. Without effective and robust cell proliferation, it would be impossible to meet the production demands of cultured meat. Moreover, 3D cell spheroids tend to form tightly packed structures. As these spheroids grow larger, the limited penetration of oxygen and nutrients can lead to the formation of necrotic cores or cause cells in the central layers to experience cell cycle arrest, resulting in either irreversible senescence or reversible quiescence. This adds complexity to maintaining stable cell growth. To address these challenges, different ECM components, specifically Matrigel and Collagen I, were introduced to alter matrix stiffness and growth factor concentrations. The goal was to address issues of reduced cell proliferation and cell cycle arrest.
Results demonstrated that in the absence of ECM, 3D-cultured bovine muscle satellite cells spontaneously formed myospheres but exhibited cell cycle arrest and inhibited proliferation. These issues were reversed with the addition of ECM. Increasing ECM stiffness, particularly through higher concentrations of Matrigel and Collagen I, significantly enhanced cell spreading but had a complex effect on cell proliferation. While Matrigel promoted both cell spreading and proliferation, higher stiffness and growth factor levels were associated with reduced proliferation rates, indicating a trade-off between these processes. Notably, a stiffness of 1.5 Pa with 1.56 mg/ml Matrigel yielded the highest proliferation rate, suggesting this condition might be optimal for use in bioreactor systems. Additionally, increasing matrix stiffness using Collagen I also enhanced cell spreading, indicating that cell spreading is strongly influenced by ECM stiffness. Furthermore, Matrigel reduced the expression of quiescence and senescence markers, helping to maintain cells in a proliferative state. These findings underscore the importance of optimizing ECM properties to balance cell proliferation and structural organization in 3D cultures, providing a foundation for scaling up 3D culture systems in bioreactor settings—a critical step toward large-scale cultured meat production. / Thesis / Master of Applied Science (MASc)
|
12 |
Effet du sécrétome des cellules sénescentes sur la réponse inflammatoire orchestrée par les macrophagesDessureault, Mireille 07 1900 (has links)
L’élimination des cellules sénescentes met en jeu le SASP et les cellules immunitaires de l’immunité innée et adaptative tels que les macrophages (Mφ). Dans le cadre de ce projet, nous rapportons que le SASP a un effet pléiotropique sur l’activité des cellules immunitaires incluant leur recrutement, leur activation et leur différenciation. Nos données montrent que les Mφ humains mis en culture avec le SASP de fibroblastes humains développement un profil inflammatoire spécifique au SASP caractérisé par une sécrétion pro-inflammatoire (M1) (ex : IL- 1β, GM-CSF) et des marqueurs de surface anti-inflammatoires (M2) (cellules CD23+CD206+). Le SASP est aussi capable d’augmenter les capacités d’invasion des Mφ, tel que montré via des essais d’invasion, mais n’a pas d’effet sur la différentiation des monocytes. Nos modèles de co- culture montrent que, quoique les cellules NK sont probablement responsables de l’élimination directe et spécifique des cellules sénescentes, leur activité peut être modulée par d’autres cellules immunitaires tels que les Mφ qui réduisent l’élimination faite par les cellules NK, suggérant un profil M2. Les lymphocytes T CD8+ sont aussi essentiels pour l’élimination des cellules sénescentes puisque leur retrait retarde le processus. De plus, nous démontrons que les cellules T CD4+ mises en culture pendant 48h dans le SASP sécrètent de hauts niveaux d’IL-4, indiquant une polarisation Th2. Somme toute, ces données montrent que le SASP peut moduler l’activité des Mφ tout comme celle d’autres cellules immunitaires impliquées dans l’élimination des cellules sénescentes et peut promouvoir, étonnamment, une réponse immunosuppressive pouvant être importante pendant la réparation tissulaire. / Senescent cell clearance brings into play the senescence-associated secretory phenotype (SASP) and immune cells from the innate and adaptive immunity including macrophages (Mφ). In this study, we report that the SASP has a pleiotropic effect on immune cell activity including recruitment, activation and differentiation. We show that human Mφ exposed to the SASP of human fibroblasts develop a SASP-specific inflammatory profile characterized by pro- inflammatory (M1) secretion (e.g. IL-1β, GM-CSF) and anti-inflammatory (M2) surface markers (CD23 and CD206). The SASP also increases Mφ invasion but has no effect on monocyte differentiation. Co-culture models show that while NK cells are likely the direct effectors of senescent cell specific killing, their activity is modulated by other immune cells including Mφ, which reduced NK-mediated killing, suggesting a M2 profile. Alternatively, CD8+ T lymphocytes are essential for senescent cell killing by NK cells. Finally, CD4+ T cells cultured for 48h in the SASP secrete high-levels of IL-4, indicating a Th2 polarization. Overall, our data reveal that the SASP can modulate Mφ and other immune cells involved in senescent cell clearance and surprisingly promote an immunosuppressive response that could be important in tissue repair.
|
Page generated in 0.054 seconds