Resolving spatial subclonal genomic heterogeneity of loss of heterozygosity and extrachromosomal DNA in gliomas

We perform bulk RNA sequencing, tumor/normal DNA sequencing, and spatial transcriptomics on an initial discovery cohort of eleven glioma samples (comprising oligodendrogliomas, astrocytomas, one diffuse midline glioma, and glioblastomas) to identify both commonalities and distinct characteristics within the tumor microenvironment. Six additional high-grade IDH wild-type, EGFR positive glioblastomas are analyzed to validate subclonal somatic aneuploidy and copy number alterations associated with extrachromosomal DNA double-minutes. As part of the standard spatial transcriptomic analysis, we develop an integrated analysis framework combining germline/tumor exomes, bulk RNA-seq, and spatial transcriptomics to identify loss of heterozygosity by a hidden Markov model for segmenting consecutively expressed SNPs. In the discovery cohort, we identify focally amplified ecDNA in four of the eleven cases, with subclonal tumor heterogeneity present in two EGFR-amplified grade IV glioblastomas. In a TP53-mutated glioblastoma, we detect a subclone with EGFR amplification on ecDNA coupled to chromosome 17 LOH. To evaluate the impact of spatial subclonal chromosomal alterations on the p53/EGFR axis, we examine six additional EGFR positive gliomas, identifying MDM2/MDM4 ecDNA subclones in two samples. The spatial DNA heterogeneity of EGFR and p53 inactivation underscores the role of ecDNA in enabling rapid oncogene amplification and enhancing tumor adaptability under selective pressure. Eleven surgically-derived gliomas of varied pathology and molecular phenotype were analyzed using the 10X Genomics Visium spatial transcriptomics protocol. Available data includes processed output files from the 10X Genomics spaceranger bioinformatic pipeline. Six surgically-derived FFPE glioblastoma tissues were analyzed using the 10X Genomics Visium CytAssist Spatial Gene Expression for FFPE protocol. Available data includes processed output files from the 10X Genomics spaceranger bioinformatic pipeline. ----------------------------- Authors state "Only processed data is included in this submission due to privacy concerns."