Publication: Zoledronate promotes bone formation by blocking osteocyte-osteoblast communication during bone defect healing
Authors
Cui, Pingping ; Liu, Hongrui ; Sun, Jing ; Amizuka, Norio ; Sun, Qinfeng ; Li, Minqi
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Publisher
Universidad de Murcia. Departamento de BiologĂa Celular e HistologĂa
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DOI
DOI: 10.14670/HH-11-893
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info:eu-repo/semantics/article
Description
Abstract
Nitrogen-containing bisphosphonates (NBPs) are potent antiresorptive drugs and their actions on
osteoclasts have been studied extensively. Recent studies
have suggested that N-BPs also target bone-forming
cells. However, the precise mechanism of N-BPs in
osteoblasts is paradoxical, and the specific role of
osteocytes is worthy of in-depth study. Here, we
investigated the cellular mechanisms of N-BPs
regulating bone defect healing by zoledronate (ZA).
Bone histomorphometry confirmed an increase in new
bone formation by systemic ZA administration. ZA
induced more alkaline phosphatase-positive osteoblasts
and tartrate-resistant acid phosphatase-positive
osteoclasts residing on the bone surface. Inexplicably,
ZA increased SOST expression in osteocytes embedded
in the bone matrix, which was not compatible with the
intense osteoblast activity on the bone surface. ZA
induced heterogeneous osteocytes and disturbed the
distribution of the osteocytic-canalicular system
(OLCS). Furthermore, according to the degree of OLCS
regularity, dentin matrix protein 1 reactivity had
accumulated around osteocytes in the ZA group, but it
was distributed evenly in the OLCS of the control group.
The control group showed a dense array of the gap
junction protein connexin 43. However, connexin 43 was
extremely sparse after ZA administration. In summary,
ZA treatment reduces gap junction connections and
blocks cellular communication between osteocytes and
osteoblasts. Retaining SOST expression in osteocytes
leads to activation of the Wnt signaling pathway and
subsequent bone formation.
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Citation
Histology and Histopathology, Vol.33, nÂş1, (2018)
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