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Type-I collagen produced by distinct fibroblast lineages reveals specific function during embryogenesis and Osteogenesis Imperfecta

Author

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  • Yang Chen

    (University of Texas MD Anderson Cancer Center)

  • Sujuan Yang

    (University of Texas MD Anderson Cancer Center)

  • Sara Lovisa

    (University of Texas MD Anderson Cancer Center)

  • Catherine G. Ambrose

    (University of Texas Health Science Center at Houston)

  • Kathleen M. McAndrews

    (University of Texas MD Anderson Cancer Center)

  • Hikaru Sugimoto

    (University of Texas MD Anderson Cancer Center)

  • Raghu Kalluri

    (University of Texas MD Anderson Cancer Center
    Rice University
    Baylor College of Medicine)

Abstract

Type I collagen (Col1) is the most abundant protein in mammals. Col1 contributes to 90% of the total organic component of bone matrix. However, the precise cellular origin and functional contribution of Col1 in embryogenesis and bone formation remain unknown. Single-cell RNA-sequencing analysis identifies Fap+ cells and Fsp1+ cells as the major contributors of Col1 in the bone. We generate transgenic mouse models to genetically delete Col1 in various cell lineages. Complete, whole-body Col1 deletion leads to failed gastrulation and early embryonic lethality. Specific Col1 deletion in Fap+ cells causes severe skeletal defects, with hemorrhage, edema, and prenatal lethality. Specific Col1 deletion in Fsp1+ cells results in Osteogenesis Imperfecta-like phenotypes in adult mice, with spontaneous fractures and compromised bone healing. This study demonstrates specific contributions of mesenchymal cell lineages to Col1 production in organogenesis, skeletal development, and bone formation/repair, with potential insights into cell-based therapy for patients with Osteogenesis Imperfecta.

Suggested Citation

  • Yang Chen & Sujuan Yang & Sara Lovisa & Catherine G. Ambrose & Kathleen M. McAndrews & Hikaru Sugimoto & Raghu Kalluri, 2021. "Type-I collagen produced by distinct fibroblast lineages reveals specific function during embryogenesis and Osteogenesis Imperfecta," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-27563-3
    DOI: 10.1038/s41467-021-27563-3
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