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. 2024 Oct;634(8033):474-481.
doi: 10.1038/s41586-024-07822-1. Epub 2024 Aug 21.

The periosteum provides a stromal defence against cancer invasion into the bone

Kazutaka Nakamura  1   2 Masayuki Tsukasaki  3 Takaaki Tsunematsu  4 Minglu Yan  1   5 Yutaro Ando  1 Nam Cong-Nhat Huynh  6 Kyoko Hashimoto  1 Qiao Gou  1 Ryunosuke Muro  1   7 Ayumi Itabashi  1 Takahiro Iguchi  1 Kazuo Okamoto  8   9 Takashi Nakamura  10 Kenta Nakano  11 Tadashi Okamura  11 Tomoya Ueno  12 Kosei Ito  12 Naozumi Ishimaru  13 Kazuto Hoshi  2 Hiroshi Takayanagi  14
Affiliations

The periosteum provides a stromal defence against cancer invasion into the bone

Kazutaka Nakamura et al. Nature. 2024 Oct.

Abstract

The periosteum is the layer of cells that covers nearly the entire surface of every bone. Upon infection, injury or malignancy the bone surface undergoes new growth-the periosteal reaction-but the mechanism and physiological role of this process remain unknown1,2. Here we show that the periosteal reaction protects against cancer invasion into the bone. Histological analyses of human lesions of head and neck squamous cell carcinomas (HNSCCs) show that periosteal thickening occurs in proximity to the tumour. We developed a genetically dissectible mouse model of HNSCC and demonstrate that inducible depletion of periosteal cells accelerates cancerous invasion of the bone. Single-cell RNA sequencing reveals that expression of the gene encoding the protease inhibitor TIMP1 is markedly increased in the periosteum at the pre-invasive stage. This increase is due to upregulation of HIF1α expression in the tumour microenvironment, and increased TIMP1 inactivates matrix-degrading proteases, promoting periosteal thickening to inhibit cancer invasion. Genetic deletion of Timp1 impairs periosteal expansion, exacerbating bone invasion and decreasing survival in tumour-bearing mice. Together, these data show that the periosteal reaction may act as a functional stromal barrier against tumour progression, representing a unique example of tissue immunity mediated by stromal cells.

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