{"database":"GEO","file_versions":[],"scores":null,"additional":{"omics_type":["Transcriptomics"],"species":["Homo sapiens"],"gds_type":["Expression profiling by high throughput sequencing"],"full_dataset_link":["https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE295702"],"repository":["GEO"],"entry_type":["GSE"],"additional_accession":[]},"is_claimable":false,"name":"Human Nail Single-Cell Landscape Identifies KRT19+ NSCs and SOX2/SOX9-WNT Regulated Differentiation","description":"Nail stem cells (NSCs) are crucial for nail growth and fingertip regeneration, yet their identity and regulatory mechanisms remain unclear. Here, we used single-cell RNA sequencing to construct a spatiotemporal landscape of nine clusters of human nail epithelial cells. Through analysis of their bidirectional differentiation, we identified a KRT19+ subpopulation capable of differentiating into both nail structure and peri-nail epithelium. Our findings reveal that SOX2-controlled WNT signaling is inhibited in the proximal nail matrix, activated in the distal nail matrix, and subsequently downregulated by SOX9 towards the nail bed, guiding the orderly OFF-ON-OFF regulation of KRT19+ NSC differentiation into nail structure epithelium. In vivo validation using mouse models and human samples confirmed the regenerative capacity of KRT19+ NSCs. This study is the first to identify KRT19+ NSCs using a human nail single-cell atlas and elucidate their key regulatory mechanisms, providing a foundation for nail and digit regeneration therapies.","dates":{"publication":"2026/04/25"},"accession":"GSE295702","cross_references":{"GSM":["GSM8955375","GSM8955374","GSM8955376"],"GPL":["24676"],"GSE":["295702"],"taxon":["Homo sapiens"]}}