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Aktivacija protitumorske imunosti z načrtovano imunogeno celično smrtjo
ID Orehek, Sara (Avtor), ID Hafner Bratkovič, Iva (Mentor) Več o mentorju... Povezava se odpre v novem oknu

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Izvleček
Poglavitna naloga imunskega sistema je zaščita organizma pred tujimi patogeni ter prepoznavanje in odstranjevanje spremenjenih lastnih celic, kot so rakave celice, ki pa je velikokrat neuspešno. Imunoterapija raka predstavlja nov pristop k zdravljenju rakavih obolenj, katere glavni cilj je sprožitev imunskih odzivov, usmerjenih proti tumorju. Eden od mehanizmov delovanja imunoterapije raka je aktivacija imunogene celične smrti (ICD) malignih celic. ICD predstavlja funkcionalno edinstven odziv, ki vključuje sproščanje številnih s poškodbo povezanih molekulskih vzorcev (DAMP), tumorskih antigenov in neoantigenov, ter drugih imunostimulatornih komponent iz rakavih celic. Ti raznoliki signali sprožijo tok imunskih celic v tumorsko mikrookolje (TME), ter omogočijo njihovo aktivacijo in zorenje. V doktorski nalogi smo združili imunogeno celično smrt z mediatorji imunskega odziva in tako zasnovali s citokini obogateno piroptozo, ki ne vodi le do uničenja rakavih celic temveč preko imunomodulatornih molekul spodbudi tok imunskih celic v TME in aktivacijo imunskega sistema. Navdih za načrtovanje novega terapevtskega prostopa smo črpali iz inflamasomov, multiproteinskih kompleksov naravne imunosti z dvojnim delovanjem, katerih aktivacija vodi do litične celične smrti, imenovane piroptoza, ter sočasnega sproščanja vnetnih citokinov. Za aktivacijo piroptoze smo zasnovali tesno regulirane variante porotvornega proteina gasdermina D (GSDMD), ki se med seboj razlikujejo po načinu uravnavanja in sposobnosti tvorjenja por, ter tako pripravili nabor raznolikih mediatorjev ICD, ki delujejo neodvisno od endogene aktivacije inflamasoma. Pokazali smo, da aktivacija por GSDMD v mišjem modelu melanoma B16F10 povzroči piroptotično smrt rakavih celic ter vodi do regresije tumorja, izboljša preživelost in izzove remisijo zdravljenih živali. Sistem smo nadgradili z ektopičnim izražanjem citokinov IL-1ß, IL-18 in IL-12, ki so v TME delovali kot adjuvanti in še izboljšali protitumorsko delovanje piroptoze. Poleg mišjega melanoma je s citokini obogatena piroptoza povzročila regresijo tumorjev karcinoma dojke 4T1 in kolorektalnega karcinoma CT26. Tako smo pokazali, da s citokini obogatena piroptoza deluje na tumorje neodvisno od njihovega izvora in imunotipa ter izzove sistemsko protitumorsko imunost, ki jo posredujejo predvsem naravne celice ubijalke in citotoksične celice T (CD8+). Za spodbujanje ICD v tumorju B16F10 smo uporabili tudi protein Ninjurin 1 (NINJ1), ki je v enaki meri kot GSDMD izkazal protitumorsko delovanje. Uporaba s citokini obogatene piroptoze v tumorskih celicah tako predstavlja obetavno kombinatorno in modulatorno strategijo za zdravljenje rakavih obolenj, ne glede na njihov izvor in imunološki fenotip.

Jezik:Slovenski jezik
Ključne besede:imunoterapija raka, imunogena celična smrt, gasdermin D
Vrsta gradiva:Doktorsko delo/naloga
Organizacija:MF - Medicinska fakulteta
Leto izida:2025
PID:20.500.12556/RUL-168815 Povezava se odpre v novem oknu
Datum objave v RUL:26.04.2025
Število ogledov:491
Število prenosov:8
Metapodatki:XML DC-XML DC-RDF
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Sekundarni jezik

Jezik:Angleški jezik
Naslov:Antitumor immunity by designed immunogenic cell death
Izvleček:
The central function of the immune system is to protect the integrity of organisms and cells against pathogens and internal threats, such as cancer cells. However, tumors developed numerous strategies to evade immunosurveillance. Cancer immunotherapy has emerged as a promising strategy for treating malignant diseases. The main goal of cancer immunotherapy is to trigger immune responses directed against the tumor. One approach to cancer immunotherapy involves the activation of immunogenic cell death (ICD), which represents a functionally distinct response pattern that triggers the release of damage-associated molecular patterns (DAMPs), tumor antigens, neoantigenes, and other immunostimulatory components from the malignant cells. These diverse signals promote immune cell infiltration into the tumor microenvironment (TME) and enable their activation and maturation. Inflammasomes are cytosolic multiprotein complexes of the innate immune system that mediate immune responses to pathogens through lytic cell death pyroptosis and release of proinflammatory cytokines. Inspired by their dual action we combined immunogenic cell death with mediators of the immune response, engineering cytokine armed pyroptosis that not only evokes cancer cell destruction but also modulates immune response against the tumor. To induce pyroptosis, we designed tightly regulated gasdermin D (GSDMD) variants with distinct pore-forming capabilities and diverse modes of activation, creating a novel toolbox of ICD effectors that act independently of the endogenous inflammasomes. We demonstrate that GSDMD pore formation in the B16F10 murine melanoma model induces pyroptotic cell death of tumor cells, leading to antitumor immunity and long-lasting remission. The system was further enhanced by the intratumoral expression of immunostimulatory cytokines IL-1β, IL-18 and IL-12, which serve as adjuvants, promoting inflammatory responses and facilitating immune cell recruitment and maturation within the TME. In addition to murine melanoma, our treatment strategy induced tumor regression in the 4T1 mammary carcinoma and CT26 colorectal carcinoma, demonstrating its efficacy across different tumor types, independent of their tissue origin or immunological phenotype. Furthermore, we show that intratumoral induction of cytokine armed pyroptosis elicits systemic antitumor immunity, primarily mediated by natural killer cells and cytotoxic CD8⁺ T cells. Additionally, we employed the Ninjurin 1 (NINJ1) protein to induce ICD in B16F10 tumors, which exhibited antitumor activity comparable to that of GSDMD. Thus, cytokine-armed pyroptosis represents a combinatorial, modulatory, and tumor-agnostic approach for enhancing antitumor immune responses, independent of tumor origin or immune phenotype.

Ključne besede:cancer immunotherapy, immunogenic cell death, gasdermin D

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