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Vloga melanomskega antigena MAGEC2 v glioblastomu in protitumorskemu imunskemu odzivu
ID Jurjevič, Vesna (Author), ID BREZNIK, BARBARA (Mentor) More about this mentor... This link opens in a new window, ID Fon Tacer, Klementina (Comentor)

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Abstract
Glioblastomi (GBM) so izjemno agresivni možganski tumorji z zelo omejenimi možnostmi zdravljenja. Ključno oviro predstavljajo matičnim celicam podobne glioblastomske celice (GSLC), ki se odlikujejo po visoki sposobnosti samoobnavljanja, učinkovitem popravljanju DNA in zmožnosti izogibanja imunskemu nadzoru. Medtem ko je učinkovitost konvencionalnih oblik imunoterapije pri GBM omejena, naravne celice ubijalke (NCU) predstavljajo obetavno strategijo za obravnavo tumorskih celic, odpornih na terapijo. V magistrskem delu smo raziskali vlogo proteina MAGEC2 (melanomski antigenski protein C2), ki je bil prepoznan kot potencialna terapevtska tarča in uravnalec tumorske agresivnosti. V ta namen smo vzpostavili tri glioblastomske celične linije z izraženim MAGEC2. Z uporabo citotoksičnega testa smo ovrednotili, ali prisotnost MAGEC2 vpliva na učinkovitost prepoznave in eliminacije tumorskih celic s strani NCU. Nadalje smo s testom klonogenosti ocenili vpliv MAGEC2 na preživetje celic po ionizirajočem obsevanju. Rezultati so pokazali, da MAGEC2 modulira občutljivost glioblastomskih celic na citotoksičnost NCU, pri čemer je učinek odvisen od posamezne celične linije, kar nakazuje njegovo vlogo pri izogibanju prirojenemu protitumorskemu imunskemu odzivu. Poleg tega so celice, ki izražajo MAGEC2, izkazovale večjo odpornost na obsevanje, kar kaže na vlogo proteina pri razvoju radioodpornosti. Ti izsledki podpirajo nadaljnje raziskave MAGEC2 kot terapevtske tarče in nakazujejo, da bi kombinacija MAGEC2-usmerjenih pristopov z imunoterapijo in radioterapijo lahko izboljšala zdravljenje glioblastoma.

Language:Slovenian
Keywords:Glioblastom, MAGEC2, naravne celice ubijalke, test citotoksičnosti, test klonogenosti
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:BF - Biotechnical Faculty
Publisher:[V. Jurjevič]
Year:2025
PID:20.500.12556/RUL-176391 This link opens in a new window
UDC:616.714.1-006(043.2)
COBISS.SI-ID:259362563 This link opens in a new window
Publication date in RUL:29.11.2025
Views:82
Downloads:18
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Secondary language

Language:English
Title:The role of melanoma antigen MAGEC2 in glioblastoma and antitumor immune response
Abstract:
Glioblastomas (GBM) are highly aggressive brain tumors with limited treatment options, where glioblastoma stem-like cells (GSLCs) pose a major challenge due to their self-renewal capacity, robust DNA repair, and ability to evade immune surveillance. Conventional immunotherapy is often ineffective, making Natural Killer (NK) cells a promising strategy for eradicating therapy-resistant GSLCs. This master’s thesis investigated the Melanoma-Associated Antigen C2 (MAGEC2) protein, identified as a critical factor and potential immunotherapy target. MAGEC2 drives increased GBM malignancy by promoting proliferation and metabolic changes that enhance tumor resistance. To assess MAGEC2’s function, three glioblastoma cell lines expressing the protein were established. We utilized a cytotoxicity assay to analyze the protein’s influence on the interaction with NK cells, and a clonogenic assay to determine its effect on survival following radiotherapy. The results clearly showed that MAGEC2 impacts the sensitivity of glioblastoma cells to NK cell cytotoxicity, suggesting a significant role in anti-tumor immune resistance. Post-radiotherapy data further indicated MAGEC2's involvement in developing radioresistance. Based on these findings, we advocate for further investigation of MAGEC2 as a therapeutic target to develop improved combined strategies. Integrating MAGEC2-targeted therapies with immunotherapy and radiotherapy holds the potential to enhance the overall effectiveness of glioblastoma treatment.

Keywords:Glioblastoma, MAGEC2, natural killer cells, cytotoxicity assay, clonogenic assay

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