Pediatric low-grade gliomas (pLGGs) are the most common type of brain tumors in children, characterized by their typically slow growth and oncogene-induced senescence. Preclinical models provide the opportunity to investigate the effects of various treatments in a controlled setting before they are tested in human patients; however, reliable models for pLGGs are limited. Here we developed two organoid models for pLGGs, which, after engraftment into mice, exhibited low-grade features. Furthermore, the genome-wide DNA methylation and RNA profiles of the organoids demonstrated closer similarity to low-grade glioma entities compared to high-grade counterparts. Additionally, pLGG organoid-derived cells align with oligodendrocyte-like, astrocyte-like and MAPK signature clusters seen in patient tumors, indicating that the organoids generate a heterogeneous population of cancer cells, where cellular diversity may influence disease progression and treatment response.
Modeling pediatric low-grade glioma heterogeneity using human forebrain organoids / Leva, G., Santomaso, L., Gianesello, M., Patrizi, S., Ress, F., Cocchini, F., Antonacci, C., Gianno, F., Abballe, L., Lago, C., Pozza, N., Trentini, G., Cardano, M., Minasi, S., Buttarelli, F.R., Antonelli, M., Pernici, D., Petrucci, L., Antonica, F., Busarello, E., et al.. - In: MOLECULAR CANCER. - ISSN 1476-4598. - 25:1(2026). [10.1186/s12943-026-02612-x]
Modeling pediatric low-grade glioma heterogeneity using human forebrain organoids
Iannuzzi, Martina;Soldano, Alessia;
2026-01-01
Abstract
Pediatric low-grade gliomas (pLGGs) are the most common type of brain tumors in children, characterized by their typically slow growth and oncogene-induced senescence. Preclinical models provide the opportunity to investigate the effects of various treatments in a controlled setting before they are tested in human patients; however, reliable models for pLGGs are limited. Here we developed two organoid models for pLGGs, which, after engraftment into mice, exhibited low-grade features. Furthermore, the genome-wide DNA methylation and RNA profiles of the organoids demonstrated closer similarity to low-grade glioma entities compared to high-grade counterparts. Additionally, pLGG organoid-derived cells align with oligodendrocyte-like, astrocyte-like and MAPK signature clusters seen in patient tumors, indicating that the organoids generate a heterogeneous population of cancer cells, where cellular diversity may influence disease progression and treatment response.| File | Dimensione | Formato | |
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