Scientific Reports (Mar 2023)

Subset of the periodontal ligament expressed leptin receptor contributes to part of hard tissue-forming cells

  • Hirotsugu Oka,
  • Shinichirou Ito,
  • Mana Kawakami,
  • Hodaka Sasaki,
  • Shinichi Abe,
  • Satoru Matsunaga,
  • Sumiharu Morita,
  • Taku Noguchi,
  • Norio Kasahara,
  • Akihide Tokuyama,
  • Masataka Kasahara,
  • Akira Katakura,
  • Yasutomo Yajima,
  • Toshihide Mizoguchi

DOI
https://doi.org/10.1038/s41598-023-30446-w
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 13

Abstract

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Abstract The lineage of periodontal ligament (PDL) stem cells contributes to alveolar bone (AB) and cementum formation, which are essential for tooth-jawbone attachment. Leptin receptor (LepR), a skeletal stem cell marker, is expressed in PDL; however, the stem cell capacity of LepR+ PDL cells remains unclear. We used a Cre/LoxP-based approach and detected LepR-cre-labeled cells in the perivascular around the root apex; their number increased with age. In the juvenile stage, LepR+ PDL cells differentiated into AB-embedded osteocytes rather than cementocytes, but their contribution to both increased with age. The frequency of LepR+ PDL cell-derived lineages in hard tissue was < 20% per total cells at 1-year-old. Similarly, LepR+ PDL cells differentiated into osteocytes following tooth extraction, but their frequency was < 9%. Additionally, both LepR+ and LepR− PDL cells demonstrated spheroid-forming capacity, which is an indicator of self-renewal. These results indicate that both LepR+ and LepR− PDL populations contributed to hard tissue formation. LepR− PDL cells increased the expression of LepR during spheroid formation, suggesting that the LepR− PDL cells may hierarchically sit upstream of LepR+ PDL cells. Collectively, the origin of hard tissue-forming cells in the PDL is heterogeneous, some of which express LepR.