Abstract BACKGROUND BRCA1 and BRCA2 are genes associated with breast and ovarian cancer development in adults. Their influence on brain tumor formation is less understood. METHODS Retrospective review RESULTS An 11 year-old girl was diagnosed with ganglioglioma after presenting with seizures. Tumor sequencing revealed three mutations: a PDAP1-BRAF fusion, a BRAF-HIP1 non-canonical fusion, and a pathogenic BRCA2 variant D252*fs. Upon further review, a family history of breast cancer in the grandmother and several great-aunts was identified, and genetic testing confirmed this mutation to be germline. We then conducted an institutional review and identified a second pediatric low-grade glioma (pilocytic astrocytoma) patient with a pathogenic mutation in BRCA2 (T3085Fs*26) in addition to a BRAF-KIAA1549 fusion; the family declined germline BRCA2 testing. BRCA1/2 knockout models have demonstrated that both genes play a role in brain development. Concurrent BRCA2 and TP53 loss triggers formation of early onset murine medulloblastoma, a finding not observed with TP53 loss alone. In human patients, heterozygous and biallelic mutations in BRCA2 were identified as risk factors for medulloblastoma development in a recent integrative genomic analysis. Retrospective review CONCLUSION We report two cases of BRCA2 mutation in pediatric low-grade gliomas, one of which was confirmed to be germline. While somatic variants of BRCA2 have been reported in both high- and low-grade glioma, their role in these tumors has not been established to date. The BRCA2 tumor predisposition syndrome increases the risk of some types of brain tumors such as medulloblastoma, although the risk remains low compared to the risk of developing breast or ovarian cancer later in life. More evidence is required to determine whether BRCA2 germline mutations can similarly increase the risk of glioma formation.