High-resolution spatial transcriptomics and cell lineage analysis reveal spatiotemporal cell fate determination during craniofacial development
Jifan Feng, Eva Janečková, Tingwei Guo, Heliya Ziaei, Mingyi Zhang, J. Geng, Sa Cha, Angelita Araujo-Villalba, Mengmeng Liu, Thach‐Vu Ho, Yang Chai
Abstract
The differentiation of post-migratory cranial neural crest cells (CNCCs) into distinct mesenchymal lineages is crucial for craniofacial development. Here we report a high-resolution spatiotemporal transcriptomic and cell-type atlas of CNCC-derived mesenchymal lineage diversification during mouse palatogenesis. We systematically defined each mesenchymal cell type by mapping their transcriptomic profiles to spatial identities. Integrative analysis of spatial transcriptomic data from E12.5 to E15.5 further revealed mesenchymal lineage establishment at or prior to initiation of palatogenesis. We also identified a heterogeneous Sox9+ mesenchymal progenitor population at the onset of palatal development, with subpopulations already activating early lineage-specific markers. In vivo lineage tracing using these early lineage-specific markers demonstrated that distinct mesenchymal populations are established as early as E10.5 to E11.5, preceding palatal development, and contribute to their respective lineages. Together, our findings reveal the comprehensive, dynamic molecular and cellular landscape of palate development and shed light on cell fate regulation during embryogenesis. Neural crest cells differentiate into distinct fates during craniofacial morphogenesis, though how these are acquired remains unclear. Here they show that mesenchymal progenitors in the mouse maxilla are committed to specific fates before they arrive at their final anatomical locations.