Sensory nerves regulate mesenchymal stromal cell lineage commitment by tuning sympathetic tones

Bo Hu; Xiao Lv; Hao Chen; Peng Xue; Bo Gao; Xiao Wang; Gehua Zhen; Janet L. Crane; Dayu Pan; Shen Liu; Shuangfei Ni; Panfeng Wu; Weiping Su; Xiaonan Liu; Zemin Ling; Mi Yang; Ruoxian Deng; Yusheng Li; Lei Wang; Ying Zhang; Mei Wan; Zengwu Shao; Huajiang Chen; Wen Yuan; Xu Cao

doi:10.1172/jci131554

Sensory nerves regulate mesenchymal stromal cell lineage commitment by tuning sympathetic tones

Bo Hu(Johns Hopkins University), Xiao Lv(Union Hospital), Hao Chen(Johns Hopkins University), Peng Xue(Johns Hopkins University), Bo Gao(Johns Hopkins University), Xiao Wang(Johns Hopkins University), Gehua Zhen(Johns Hopkins University), Janet L. Crane(Johns Hopkins University), Dayu Pan(Johns Hopkins University), Shen Liu(Johns Hopkins University), Shuangfei Ni(Johns Hopkins University), Panfeng Wu(Johns Hopkins University), Weiping Su(Johns Hopkins University), Xiaonan Liu(Johns Hopkins University), Zemin Ling(Johns Hopkins University), Mi Yang(Johns Hopkins University), Ruoxian Deng(Johns Hopkins University), Yusheng Li(Johns Hopkins University), Lei Wang(Johns Hopkins University), Ying Zhang(Second Military Medical University), Mei Wan(Johns Hopkins University), Zengwu Shao(Union Hospital), Huajiang Chen(Johns Hopkins University), Wen Yuan(Second Military Medical University), Xu Cao(Johns Hopkins University)

Journal of Clinical Investigation

March 19, 2020

10.1172/jci131554

Cited by 134Open Access

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Abstract

The sensory nerve was recently identified as being involved in regulation of bone mass accrual. We previously discovered that prostaglandin E2 (PGE2) secreted by osteoblasts could activate sensory nerve EP4 receptor to promote bone formation by inhibiting sympathetic activity. However, the fundamental units of bone formation are active osteoblasts, which originate from mesenchymal stromal/stem cells (MSCs). Here, we found that after sensory denervation, knockout of the EP4 receptor in sensory nerves, or knockout of COX-2 in osteoblasts, could significantly promote adipogenesis and inhibit osteogenesis in adult mice. Furthermore, injection of SW033291 (a small molecule that locally increases the PGE2 level) or propranolol (a beta blocker) significantly promoted osteogenesis and inhibited adipogenesis. This effect of SW033291, but not propranolol, was abolished in conditional EP4-KO mice under normal conditions or in the bone repair process. We conclude that the PGE2/EP4 sensory nerve axis could regulate MSC differentiation in bone marrow of adult mice.

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