Single-cell transcriptome analysis of lineage diversity in high-grade glioma

Background: Despite extensive molecular characterization, we lack a comprehensive understanding of lineage identity, differentiation, and proliferation in high grade gliomas (HGGs). Methods: We sampled the cellular milieu of HGGs by profiling dissociated human surgical specimens with a high density microwell system for massively parallel single cell RNA Seq. We analyzed the resulting profiles to identify subpopulations of both HGG and microenvironmental cells and applied graph based methods to infer structural features of the malignantly transformed populations. Results: While HGG cells can resemble glia or even immature neurons and form blanched lineage structures, mesenchymal transformation results in unstructured populations. Glioma cells in a subset of mesenchymal tumors lose their neural lineage identity, express inflammatory genes, and co-exist with marked myeloid infiltration, reminiscent of molecular inter actions between glioma and immune cells established in animal models. Additionally, we discovered a tight coupling between lineage resemblance and proliferation among malignantly transformed cells Glioma cells that resemble oligodendrocyte progenitors, which proliferate in the brain, are often found in the cell cycle Conversely, glioma cells that resemble astrocytes, neuroblasts, and oligodendrocytes, which are non proliferative in the brain, are generally non cycling in tumors. Conclusions: These studies reveal a relationship between cellular identity and proliferation in HGG and distinct population structures that reflects the extent of neural and non-neural lineage resemblance among malignantly transformed cells.