Osteocytes as mechanosensors in the inhibition of bone resorption due to mechanical loading

Lidan You, Sara Temiyasathit, Peling Lee, Chi Hyun Kim, Padmaja Tummala, Wei Yao, Wade Kingery, Amanda M. Malone, Ronald Y. Kwon, Christopher R. Jacobs

Research output: Contribution to journalArticlepeer-review

236 Scopus citations


Bone has the ability to adjust its structure to meet its mechanical environment. The prevailing view of bone mechanobiology is that osteocytes are responsible for detecting and responding to mechanical loading and initiating the bone adaptation process. However, how osteocytes signal effector cells and initiate bone turnover is not well understood. Recent in vitro studies have shown that osteocytes support osteoclast formation and activation when co-cultured with osteoclast precursors. In this study, we examined the osteocytes' role in the mechanical regulation of osteoclast formation and activation. We demonstrated here that (1) mechanical stimulation of MLO-Y4 osteocyte-like cells decreases their osteoclastogenic-support potential when co-cultured with RAW264.7 monocyte osteoclast precursors; (2) soluble factors released by these mechanically stimulated MLO-Y4 cells inhibit osteoclastogenesis induced by ST2 bone marrow stromal cells or MLO-Y4 cells; and (3) soluble RANKL and OPG were released by MLO-Y4 cells, and the expressions of both were found to be mechanically regulated. Our data suggest that mechanical loading decreases the osteocyte's potential to induce osteoclast formation by direct cell-cell contact. However, it is not clear that osteocytes in vivo are able to form contacts with osteoclast precursors. Our data also demonstrate that mechanically stimulated osteocytes release soluble factors that can inhibit osteoclastogenesis induced by other supporting cells including bone marrow stromal cells. In summary, we conclude that osteocytes may function as mechanotransducers by regulating local osteoclastogenesis via soluble signals.

Original languageEnglish (US)
Pages (from-to)172-179
Number of pages8
Issue number1
StatePublished - Jan 2008


  • Mechanotransduction
  • OPG
  • Osteoclast
  • Osteocyte

ASJC Scopus subject areas

  • Physiology
  • Hematology


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