Patient-derived explants as tumor models

Article Oncology

Three-dimensional organoid culture unveils resistance to clinical therapies in adult and pediatric glioblastoma

Swetha J. Sundar et al.

Summary: This study utilizes GBM organoid culture system to explore drug resistance, revealing diverse and spatial patterns of cell proliferation as well as relative insensitivity to conventional therapy, highlighting the potential of organoid cultures in understanding therapeutic mechanisms.

TRANSLATIONAL ONCOLOGY (2022)

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Article Oncology

Single-cell landscapes of primary glioblastomas and matched explants and cell lines show variable retention of inter- and intratumor heterogeneity

Veronique G. LeBlanc et al.

Summary: Glioblastomas (GBMs) are highly heterogeneous brain tumors, and patient-derived models have been used to study this heterogeneity. However, the extent to which these models recapitulate GBM genomic features is still unclear. In this study, the researchers analyzed the genomes and transcriptomes of GBM tumors and patient-derived models, and found that the models exhibit genetic similarities to the tumors and retain varying gene expression characteristics. These findings provide valuable insights for using GBM-derived models to study cellular heterogeneity.

CANCER CELL (2022)

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Article Neurosciences

Altered lipid metabolism marks glioblastoma stem and non-stem cells in separate tumor niches

Sajina Shakya et al.

Summary: Glioblastoma displays significant cellular and metabolic heterogeneity, with striking differences in lipid metabolism across different microenvironments, and cancer stem cells (CSCs) also show altered lipid metabolism. The differences in lipid metabolism may not only be a product of the microenvironment, but also a reflection of cellular state, providing new insights into therapeutic targets for GBM.

ACTA NEUROPATHOLOGICA COMMUNICATIONS (2021)

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Article Biochemistry & Molecular Biology