Hedgehog activation promotes osteogenic fates of growth plate resting zone chondrocytes through transient clonal competency
Shion Orikasa, Yuki Matsushita, Hiroaki Manabe, Michael Fogge, Zachary Lee, Koji Mizuhashi, Naoko Sakagami, Wanida Ono, Noriaki Ono
Shion Orikasa, Yuki Matsushita, Hiroaki Manabe, Michael Fogge, Zachary Lee, Koji Mizuhashi, Naoko Sakagami, Wanida Ono, Noriaki Ono
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Research Article Bone biology Stem cells

Hedgehog activation promotes osteogenic fates of growth plate resting zone chondrocytes through transient clonal competency

Abstract

The resting zone of the postnatal growth plate is organized by slow-cycling chondrocytes expressing parathyroid hormone-related protein (PTHrP), which include a subgroup of skeletal stem cells that contribute to the formation of columnar chondrocytes. The PTHrP–Indian hedgehog feedback regulation is essential for sustaining growth plate activities; however, molecular mechanisms regulating cell fates of PTHrP+ resting chondrocytes and their eventual transformation into osteoblasts remain largely undefined. Here, in a mouse model, we specifically activated Hedgehog signaling in PTHrP+ resting chondrocytes and traced the fate of their descendants using a tamoxifen-inducible Pthrp-creER line with patched-1–floxed and tdTomato reporter alleles. Hedgehog-activated PTHrP+ chondrocytes formed large, concentric, clonally expanded cell populations within the resting zone (“patched roses”) and generated significantly wider columns of chondrocytes, resulting in hyperplasia of the growth plate. Interestingly, Hedgehog-activated PTHrP+ cell descendants migrated away from the growth plate and transformed into trabecular osteoblasts in the diaphyseal marrow space in the long term. Therefore, Hedgehog activation drives resting zone chondrocytes into transit-amplifying states as proliferating chondrocytes and eventually converts these cells into osteoblasts, unraveling a potentially novel Hedgehog-mediated mechanism that facilitates osteogenic cell fates of PTHrP+ skeletal stem cells.

Authors

Shion Orikasa, Yuki Matsushita, Hiroaki Manabe, Michael Fogge, Zachary Lee, Koji Mizuhashi, Naoko Sakagami, Wanida Ono, Noriaki Ono

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Figure 5

Transient clonal competency of Hedgehog-activated PTHrP+ resting chondrocytes and their contribution to trabecular bone formation.

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Transient clonal competency of Hedgehog-activated PTHrP+ resting chondro...
(AE) Cell quantifications of Pthrp-creER Ptch1fl/+ R26RtdTomato (PTHrP-Ptch Control) and Pthrp-creER Ptch1fl/fl R26RtdTomato (PTHrP-Ptch cKO) growth plate. (A) tdTomato+ lineage-marked cells in growth plate. tdTomato+ cells were quantified across all zones of the growth plate as a function of area (px2). (B) tdTomato+ lineage-marked cells in resting zone. Images were processed to create a selective mask excluding all cells outside of this zone prior to quantification. (C) Lateral cell width of columns in the proliferating zone manually counted at each time point. (D) Relative contribution of tdTomato+ columns across growth plate. A grid overlay function was used to quantify cell columns across the width of the growth plate. The number of tdTomato+ chondrocyte columns was calculated as a percentage of the total number of cell columns (including tdTomatoneg columns) across the lateral width of the growth plate. (E) Graph representation of the percentage of femurs containing at least 1 histological section with visible cartilage islands in diaphysis. Blue bars: PTHrP-Ptch Control (P14, 21, 28, 36, and 96: n = 4, P56 and 70: n = 3). Red bars: PTHrP-Ptch cKO (P14, 70, and 96: n = 4, P21 and 28: n = 5, P36: n = 6, P56: n = 3). (F) Representative 3D μCT images of PTHrP-Ptch control and PTHrP-Ptch-cKO femurs at P96 (pulsed at P6). Arrowheads: ectopic trabecular bone. Group 1: metaphysis (0–3,000 μm). Group 2: diaphysis (3,000–7,000 μm). Scale bars: 1.0 mm. (G) Trabecular BV/TV in group 1 (metaphysis) and group 2 (diaphysis). PTHrP-Ptch Control (n = 12) and PTHrP-cKO (n = 13) mice, including both sexes. (H) Body weight from P0 to P97. Blue line: PTHrP-Ptch control (n = 8). red: PTHrP-Ptch cKO (n = 9). *P < 0.05, **P < 0.01, 2-tailed Mann-Whitney U-test. Data are presented as mean ± SD.