Enhancement of Osteoclastic Bone Resorption and Suppression of Osteoblastic Bone Formation in Response to Reduced Mechanical Stress Do Not Occur in the Absence of Osteopontin

doi:10.1084/jem.193.3.399

Published online 5 February 2001.

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© The Rockefeller University Press, 0022-1007/2001/2/399/ $5.00
The Journal of Experimental Medicine, Volume 193, Number 3, February 5, 2001 399-404

Brief Definitive Report

Enhancement of Osteoclastic Bone Resorption and Suppression of Osteoblastic Bone Formation in Response to Reduced Mechanical Stress Do Not Occur in the Absence of Osteopontin

Muneaki Ishijima^a, Susan R. Rittling^b, Teruhito Yamashita^a, Kunikazu Tsuji^a, Hisashi Kurosawa^c, Akira Nifuji^a, David T. Denhardt^b, and Masaki Noda^a
^a Department of Molecular Pharmacology, Medical Research Institute, Tokyo Medical and Dental University, Tokyo 101-0062, Japan
^b Rutgers University, Piscataway, New Jersey 08854
^c Juntendo University, Tokyo 113-8421, Japan

Correspondence to: Masaki Noda, Department of Molecular Pharmacology, Medical Research Institute, Tokyo Medical and Dental University, 3-10, Kanda-Surugadai 2-Chome, Chiyoda-Ku, Tokyo 101-0062, Japan. Tel:81-3-5280-8066 Fax:81-3-5280-8066 E-mail:noda.mph{at}mri.tmd.ac.jp.

Reduced mechanical stress to bone in bedridden patients andastronauts leads to bone loss and increase in fracture riskwhich is one of the major medical and health issues in modernaging society and space medicine. However, no molecule involvedin the mechanisms underlying this phenomenon has been identifiedto date. Osteopontin (OPN) is one of the major noncollagenousproteins in bone matrix, but its function in mediating physical-forceeffects on bone in vivo has not been known. To investigate thepossible requirement for OPN in the transduction of mechanicalsignaling in bone metabolism in vivo, we examined the effectof unloading on the bones of OPN^-/- mice using a tail suspensionmodel. In contrast to the tail suspension–induced boneloss in wild-type mice, OPN^-/- mice did not lose bone. Elevationof urinary deoxypyridinoline levels due to unloading was observedin wild-type but not in OPN^-/- mice. Analysis of the mechanismsof OPN deficiency–dependent reduction in bone on the cellularbasis resulted in two unexpected findings. First, osteoclasts,which were increased by unloading in wild-type mice, were notincreased by tail suspension in OPN^-/- mice. Second, measuresof osteoblastic bone formation, which were decreased in wild-typemice by unloading, were not altered in OPN^-/- mice. These observationsindicate that the presence of OPN is a prerequisite for theactivation of osteoclastic bone resorption and for the reductionin osteoblastic bone formation in unloaded mice. Thus, OPN isa molecule required for the bone loss induced by mechanicalstress that regulates the functions of osteoblasts and osteoclasts.

Key Words: osteopontin, mechanical stress, osteoblasts, osteoclasts, tailsuspension

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