Sema3A regulates bone-mass accrual through sensory innervations

Toru Fukuda, Shu Takeda, Ren Xu, Hiroki Ochi, Satoko Sunamura, Tsuyoshi Sato, Shinsuke Shibata, Yutaka Yoshida, Zirong Gu, Ayako Kimura, Chengshan Ma, Cheng Xu, Waka Bando, Koji Fujita, Kenichi Shinomiya, Takashi Hirai, Yoshinori Asou, Mitsuhiro Enomoto, Hideyuki Okano, Atsushi OkawaHiroshi Itoh

Research output: Contribution to journalArticlepeer-review

293 Citations (Scopus)


Semaphorin 3A (Sema3A) is a diffusible axonal chemorepellent that has an important role in axon guidance. Previous studies have demonstrated that Sema3a -/- mice have multiple developmental defects due to abnormal neuronal innervations. Here we show in mice that Sema3A is abundantly expressed in bone, and cell-based assays showed that Sema3A affected osteoblast differentiation in a cell-autonomous fashion. Accordingly, Sema3a -/- mice had a low bone mass due to decreased bone formation. However, osteoblast-specific Sema3A-deficient mice (Sema3a col1 -/- and Sema3a osx -/- mice) had normal bone mass, even though the expression of Sema3A in bone was substantially decreased. In contrast, mice lacking Sema3A in neurons (Sema3a synapsin -/- and Sema3a nestin -/- mice) had low bone mass, similar to Sema3a -/- mice, indicating that neuron-derived Sema3A is responsible for the observed bone abnormalities independent of the local effect of Sema3A in bone. Indeed, the number of sensory innervations of trabecular bone was significantly decreased in Sema3a synapsin -/- mice, whereas sympathetic innervations of trabecular bone were unchanged. Moreover, ablating sensory nerves decreased bone mass in wild-type mice, whereas it did not reduce the low bone mass in Sema3a nestin -/- mice further, supporting the essential role of the sensory nervous system in normal bone homeostasis. Finally, neuronal abnormalities in Sema3a -/- mice, such as olfactory development, were identified in Sema3a synasin -/- mice, demonstrating that neuron-derived Sema3A contributes to the abnormal neural development seen in Sema3a -/- mice, and indicating that Sema3A produced in neurons regulates neural development in an autocrine manner. This study demonstrates that Sema3A regulates bone remodelling indirectly by modulating sensory nerve development, but not directly by acting on osteoblasts.

Original languageEnglish
Pages (from-to)490-493
Number of pages4
Issue number7450
Publication statusPublished - 2013

ASJC Scopus subject areas

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