Abstract
Background
Immunotherapy is a promising therapeutic approach to fight cancer by activating the immune system. Multiple immune-based strategies are under development that aim at recruiting or re-activating cellular components of the immune system. While immunotherapies have recently revolutionized cancer therapy, they have shown so far little therapeutic success in glioblastoma patients. To enhance the efficacy of novel strategies, we need to better understand the immunogenic status of glioblastoma cells and their cross-talk with immune cells in different microenvironmental niches.
Material and Methods
We assessed expression of molecules related to antigen processing and presentation as well as immune checkpoints in patient tumor databases as well as in a series of glioblastoma patient-derived organoids, 3D stem-like cultures and adherent cell lines under varying microenvironmental conditions (varying oxygen levels, inflammation ). We further established an allogenic co-culture protocol for glioblastoma organoids with immune cells isolated from HLA matched donor blood, allowing for the functional assessment of the crosstalk between tumor and immune cells.
Results
Analysis of a large cohort of patient tumors and patient-derived glioblastoma preclinical models shows inter-patient heterogeneity at the level of components of major histocompatibility complex (MHC)-MHC-II, immune checkpoints. Glioblastoma cells in general express MHC-I machinery, albeit at different levels. MHC-II and immune checkpoints are variably expressed across glioblastoma cells. Different tumor microenvironment conditions, including hypoxia and interferon-γ, impact the expression of immune-related molecules. Upon co-culture, HLA-matched donor-derived T cells integrate well into the core of glioblastoma tumor organoids and display reciprocal crosstalk with tumor cells.
Conclusion
Assessing antigen presentation and immune cell responses at the functional level are key to improve patient-specific responses to immunotherapies. Advanced glioblastoma organoids incorporating the immune compartment appear as clinically-relevant models for ex vivo efficacy studies.
Δεν υπάρχουν σχόλια:
Δημοσίευση σχολίου