Spatiotemporal Regulation and Lineage Specification in Embryonic Endochondral Ossification
Sixun Wu, Keita Kondo, Yuki Matsushita

TL;DR
This paper explores how bones form during embryonic development and how these insights can guide regenerative therapies for skeletal disorders.
Contribution
The paper identifies distinct progenitor pools and signaling networks during endochondral ossification and links their disruption to skeletal dysplasias.
Findings
Mesenchymal condensation segregates into distinct progenitor pools with specific fates during bone development.
Signaling networks like Ihh–PTHrP and WNT/β-catenin regulate chondrocyte proliferation and hypertrophy.
Regenerative strategies inspired by developmental biology show promise for reconstructing functional bones.
Abstract
Long bone formation in vertebrates proceeds via endochondral ossification, a sequential process that begins with mesenchymal condensation, advances through cartilage anlage formation, and culminates in its replacement by mineralized bone. Recent advances in inducible lineage tracing and single-cell genomics have revealed that, rather than being a uniform event, mesenchymal condensation rapidly segregates into progenitor pools with distinct fates. Centrally located Sox9+/Fgfr3+ chondroprogenitors expand into the growth plate and metaphyseal stroma, peripheral Hes1+ boundary cells refine condensation via asymmetric division, and outer-layer Dlx5+ perichondrial cells generate the bone collar and cortical bone. Concurrently, dorsoventral polarity established by Wnt7a–Lmx1b and En1 ensures that dorsal progenitors retain positional identity throughout development. These lineage divergences…
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Taxonomy
TopicsOsteoarthritis Treatment and Mechanisms · Connective Tissue Growth Factor Research · Heterotopic Ossification and Related Conditions
