The effects of dietary loading on the transdifferentiation of condylar chondrocytes

Transdifferentiation of chondrocytes into bone cells explains most condylar growth during prenatal and early postnatal stages, but the mechanisms regulating chondrocyte transdifferentiation during late postnatal growth remain unknown. This study aimed to quantify the effects of dietary loading on ch...

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Bibliographic Details
Published in:American journal of orthodontics and dentofacial orthopedics 2024-06, Vol.165 (6), p.697-710
Main Authors: Janssen, Abbey, Buschang, Peter H., Tadlock, Larry P., Kesterke, Matthew J., Jing, Yan
Format: Article
Language:English
Subjects:
Animals
Cell Transdifferentiation
Chondrocytes
Diet
Male
Mandibular Condyle - growth & development
Mice
Osteogenesis - physiology
X-Ray Microtomography
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Summary:Transdifferentiation of chondrocytes into bone cells explains most condylar growth during prenatal and early postnatal stages, but the mechanisms regulating chondrocyte transdifferentiation during late postnatal growth remain unknown. This study aimed to quantify the effects of dietary loading on chondrocyte-derived osteogenesis during late postnatal condylar growth. Two compound mouse lines were used to trace the fate of chondrocyte lineage in vivo. Twelve 3-week-old male Aggrecan-CreERT2 (AcanLineage); R26RTdTomato; 2.3 Col10a1-GFP and twelve 3-week-old male Col10a1-Cre (Col10a1Lineage); R26RTdTomato; 2.3Col1a1-GFP were randomly divided into experimental (soft-food diet, n = 6) and control (hard-food diet, n = 6) groups and kept for 6 weeks. One time, tamoxifen injections were given to AcanLineage mice at 3 weeks. Radiographic, microcomputed tomographic, and histomorphometric analyses were performed. Radiologic analysis showed that mice with a soft-food diet had smaller mandible lengths as well as decreased bone volume and density for their condylar process. Histologically, mice with soft diets had reduced activity in chondrocyte proliferation and maturation compared with the controls. Cell lineage tracing results showed the number of AcanLineage-derived bone cells (293.8 ± 39.8 vs 207.1 ± 44.6; P = 0.005), as well as total bone cells (445.6 ± 31.7 vs 360.7 ± 46.9; P = 0.004), was significantly higher in the hard-diet group than in the soft-diet group, whereas the number of non-AcanLineage-derived bone cells was not significantly different among groups (P = 0.938). Col10a1Lineage mice showed the same trend. Dietary loading directly affects condyle chondrogenesis and chondrocyte transdifferentiation, which alters the extent of condylar growth and remodeling. •Chondrocytes are key players in postnatal condylar bone formation.•Condylar cartilage responses to dietary loading by cell fate change.•Soft diet may cause hyperdivergence by inhibiting chondrocyte transdifferentation.
ISSN:0889-5406
1097-6752
1097-6752
DOI:10.1016/j.ajodo.2024.02.007