A Wnt-mediated transformation of the bone marrow stromal cell identity orchestrates skeletal regeneration.
Yuki Matsushita,Mizuki Nagata,Kenneth M. Kozloff,Joshua D. Welch,Koji Mizuhashi,Nicha Tokavanich,Shawn A Hallett,Daniel C. Link,Takashi Nagasawa,Wanida Ono,Noriaki Ono +10 more
TL;DR: It is shown that quiescent CXCL12-expressing BMSCs can convert into a skeletal stem cell-like state, and differentiate into cortical bone osteoblasts only in response to injury.
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Abstract: Bone marrow stromal cells (BMSCs) are versatile mesenchymal cell populations underpinning the major functions of the skeleton, a majority of which adjoin sinusoidal blood vessels and express C-X-C motif chemokine ligand 12 (CXCL12). However, how these cells are activated during regeneration and facilitate osteogenesis remains largely unknown. Cell-lineage analysis using Cxcl12-creER mice reveals that quiescent Cxcl12-creER+ perisinusoidal BMSCs differentiate into cortical bone osteoblasts solely during regeneration. A combined single cell RNA-seq analysis demonstrate that these cells convert their identity into a skeletal stem cell-like state in response to injury, associated with upregulation of osteoblast-signature genes and activation of canonical Wnt signaling components along the single-cell trajectory. β-catenin deficiency in these cells indeed causes insufficiency in cortical bone regeneration. Therefore, quiescent Cxcl12-creER+ BMSCs transform into osteoblast precursor cells in a manner mediated by canonical Wnt signaling, highlighting a unique mechanism by which dormant stromal cells are enlisted for skeletal regeneration.
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Single cell transcriptomics identifies a unique adipose lineage cell population that regulates bone marrow environment
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The decisive early phase of bone regeneration
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TL;DR: The results demonstrate that beta-catenin is essential in determining whether mesenchymal progenitors will become osteoblasts or chondrocytes regardless of regional locations or ossification mechanisms.
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Canonical Wnt Signaling in Differentiated Osteoblasts Controls Osteoclast Differentiation
Donald A. Glass,Peter Bialek,Jong Deok Ahn,Michael Starbuck,Millan S. Patel,Hans Clevers,Mark M. Taketo,Fanxin Long,Andrew P. McMahon,Richard A. Lang,Gerard Karsenty +10 more
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