Scientific Reports (Mar 2023)

Three-dimensional visualization of neural networks inside bone by Osteo-DISCO protocol and alteration of bone remodeling by surgical nerve ablation

  • Kurando Utagawa,
  • Takaei Shin,
  • Hironori Yamada,
  • Hiroki Ochi,
  • Satoko Sunamura,
  • Aiko Unno,
  • Chihiro Akazawa,
  • Masatsugu Ema,
  • Shu Takeda,
  • Atsushi Okawa,
  • Shingo Sato

DOI
https://doi.org/10.1038/s41598-023-30492-4
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 14

Abstract

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Abstract Bone is one of the largest organ systems in humans and is considered to regulate whole-body homeostasis in cooperation with other organs. We have previously reported that a sympathetic or sensory nervous system inside bone regulates bone homeostasis. However, the detailed regulatory mechanism, including the distribution of nerves inside bone, remains unknown. Although a two-dimensional histological analysis has been widely used to evaluate the structure of nerves or blood vessels, the actual structure is more complex, suggesting that it should be evaluated three-dimensionally. Here, we established a novel bone tissue clearing technique (Osteo-DISCO) for murine bones which enabled us to visualize the detailed distribution of nerves or blood vessels inside bone. Interestingly, we found that there is a specific nerve entry site in each long bone and that surgical ablation of the specific nerve fibers entering bone tissue led to decreased bone formation and impaired bone regeneration. Furthermore, we revealed that the administration of calcitonin gene-related peptide (CGRP), which is primarily released from sensory nerves, suppressed the bone loss caused by surgical nerve ablation. An in vitro study also indicated that CGRP directly promotes osteoblast activity, suggesting that sensory nerves inside bone can regulate osteogenesis via the secretion of CGRP.