Cell populations in neonatal rat peripheral nerves identified by single-cell transcriptomics

Peripheral nerves connect central nerves with target tissues and organs and execute vital signal transduction functions. Although sub-types of neurons have been defined, the heterogeneity of cell populations in peripheral nerves, especially Schwann cells, has not been well demonstrated. Here, we collected sciatic nerves (SN) and dorsal root ganglia (DRG) from neonatal (1-day old) rats and classified cell populations by high-coverage single-cell sequencing. A total of 10 types of cells, including endothelial cells, erythrocytes, fibroblasts, monocytic cells, neurons, neutrophils, pericytes, satellite cells, Schwann cells, and vascular smooth muscle cells, were identified by transcriptome-based cell typing. The comparisons of cells in neonatal rat SN and DRG revealed distinct atlas in different tissue localizations. Investigations of ligand-receptor interactions showed that there existed direct cell-cell communications between endothelial cells and fibroblasts in SN and among endothelial cells, fibroblasts, and vascular smooth muscle cells in DRG. Schwann cells in neonatal rats were further sub-grouped to four sub-types, including LOC100134871 and Hbb expressing Schwann cell sub-type 1, Cldn19 and Emid1 expressing Schwann cell sub-type 2, Timp3 and Col5a3 expressing Schwann cell sub-type 3, and Cenpf and Mki67 expressing Schwann cell sub-type 4. These Schwann cell sub-types exhibited distinct genetic features and functional enrichments. Collectively, our results illustrated the diversity and cellular complexity of peripheral nerves at the neonatal stage and revealed the heterogeneity of Schwann cells in the peripheral nervous system.