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The neural system regulates bone homeostasis via mesenchymal stem cells: a translational approach

Xudong Wang, Siyi Li, Shijian Zhang, Anand Gupta, Chenping Zhang, Lei Wang

2020Theranostics80 citationsDOIOpen Access PDF

Abstract

Large bone reconstruction is a major clinical issue associated with several challenges, and autograft is the main method for reconstructing large defects of maxillofacial bone. However, postoperative osteoporosis of the bone graft, even with sufficient vascularization, remains a primary problem. Therefore, better understanding of the mechanisms and clinical translation of bone homeostasis is required. Neuronal innervation of the bone is an emerging research topic, especially with regards to the role of peripheral nerves in regulating bone homeostasis. Moreover, sensory and autonomic nerves regulate this process via different types of neurotransmitters, but the specific mechanism is still elusive. In this review article, the current understanding of the interaction between the peripheral nerve and the skeleton system is summarized, with a particular focus on bone marrow mesenchymal stem cells (BMMSCs), except for osteoblasts and osteoclasts. The novel application of nerve-based bone regeneration via BMMSCs may provide a new strategy in tissue engineering and clinical treatment of osteoporosis and bone disorders.

Topics & Concepts

Mesenchymal stem cellOsteoporosisHomeostasisBone healingMedicineNeuroscienceBone marrowStem cellBone cellBone tissueRegeneration (biology)Bone remodelingPathologyCell biologyBioinformaticsAnatomyBiologyInternal medicineMesenchymal stem cell researchNerve injury and regenerationBone Tissue Engineering Materials
The neural system regulates bone homeostasis via mesenchymal stem cells: a translational approach | Litcius