Interrogation of the microenvironmental landscape in spinal ependymomas reveals dual functions of tumor-associated macrophages.
Qianqian ZhangSijin ChengYongzhi WangMengdi WangYufeng LuZengqi WenYuxin GeQiang MaYouqiao ChenYaowu ZhangRen CaoMin LiWeihao LiuBo WangQian WuWen-Qing JiaXiaoqun WangPublished in: Nature communications (2021)
Spinal ependymomas are the most common spinal cord tumors in adults, but their intratumoral cellular heterogeneity has been less studied, and how spinal microglia are involved in tumor progression is still unknown. Here, our single-cell RNA-sequencing analyses of three spinal ependymoma subtypes dissect the microenvironmental landscape of spinal ependymomas and reveal tumor-associated macrophage (TAM) subsets with distinct functional phenotypes. CCL2+ TAMs are related to the immune response and exhibit a high capacity for apoptosis, while CD44+ TAMs are associated with tumor angiogenesis. By combining these results with those of single-cell ATAC-sequencing data analysis, we reveal that TEAD1 and EGR3 play roles in regulating the functional diversity of TAMs. We further identify diverse characteristics of both malignant cells and TAMs that might underlie the different malignant degrees of each subtype. Finally, assessment of cell-cell interactions reveal that stromal cells act as extracellular factors that mediate TAM diversity. Overall, our results reveal dual functions of TAMs in tumor progression, providing valuable insights for TAM-targeting immunotherapy.
Keyphrases
- single cell
- spinal cord
- rna seq
- neuropathic pain
- high throughput
- data analysis
- immune response
- spinal cord injury
- cell cycle arrest
- poor prognosis
- induced apoptosis
- endothelial cells
- adipose tissue
- endoplasmic reticulum stress
- cell proliferation
- dendritic cells
- dna methylation
- gene expression
- genome wide
- peripheral blood