A Protocol for Explant Cultures of IDH1-mutant Diffuse Low-grade Gliomas.

Diffuse gliomas, the most prevalent primary brain tumors, are categorized into low and high grades based on histopathological criteria and genetic mutations. Diffuse low-grade gliomas constitute a subset, predominantly afflicting young adults and predisposing to high-grade gliomas. There are two main types of diffuse low-grade gliomas: astrocytomas and oligodendrogliomas, each defined by distinct genetic and histological features. These tumors characteristically exhibit a mutated variant of the metabolic enzyme IDH1, disrupting cellular differentiation. They are heterogeneous, comprising both proliferative stem cells and more differentiated, quiescent glial cells. Patient-specific, in vitro tumor models hold significant potential for unraveling oncogenic mechanisms and tailoring drug selection for personalized therapy. However, the absence of reliable in vitro models specifically for IDH1-mutant low-grade gliomas has hindered fundamental and translational research. Here, we present a simple method for culturing IDH1-mutant tumors as explants in defined media without needing enzymatic dissociation. These explants can be sustained for extended periods, maintaining IDH1-mutant protein expression as well as markers for oligodendrocyte progenitor cells such as ASCL1 (MASH1), OLIG1, and OLIG2 and for astrocytes (GFAP, SOX9). They can also be established from frozen tumors in DMSO. These cultures can serve as a valuable platform for drug screening, videomicroscopy, and gene studies, thus facilitating advancements in understanding and treating these challenging tumors. They also offer the potential to derive IDH1-mutant cell lines.