AI Article Synopsis
- The study investigates the diverse cell types in embryonic mouse skin to understand how these cells contribute to functions like hair growth and protection.
- Using advanced techniques like single-cell transcriptomics and cell-lineage tracing, researchers map the early development of skin, revealing how it transitions from simpler to more complex structures.
- Key findings include the identification of various fibroblast types, formation of muscle and blood vessels, and unexpected variations in early epidermis, providing a detailed blueprint for skin development and highlighting interactions among skin cells.
Article Abstract
A wealth of specialized cell populations within the skin facilitates its hair-producing, protective, sensory, and thermoregulatory functions. How the vast cell-type diversity and tissue architecture develops is largely unexplored. Here, with single-cell transcriptomics, spatial cell-type assignment, and cell-lineage tracing, we deconstruct early embryonic mouse skin during the key transitions from seemingly uniform developmental precursor states to a multilayered, multilineage epithelium, and complex dermal identity. We identify the spatiotemporal emergence of hair-follicle-inducing, muscle-supportive, and fascia-forming fibroblasts. We also demonstrate the formation of the panniculus carnosus muscle (PCM), sprouting blood vessels without pericyte coverage, and the earliest residence of mast and dendritic immune cells in skin. Finally, we identify an unexpected epithelial heterogeneity within the early single-layered epidermis and a signaling-rich periderm layer. Overall, this cellular and molecular blueprint of early skin development-which can be explored at https://kasperlab.org/tools-establishes histological landmarks and highlights unprecedented dynamic interactions among skin cells.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11088744 | PMC |
| http://dx.doi.org/10.1016/j.devcel.2023.07.015 | DOI Listing |
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