PT - JOURNAL ARTICLE AU - TANUPRIYA CONTRACTOR AU - BRUCE BABIARZ AU - AARON J. KOWALSKI AU - SUSAN R. RITTLING AU - ESBEN S. SØRENSEN AU - DAVID T. DENHARDT TI - Osteoclasts Resorb Protein-free Mineral (Osteologic™ Discs) Efficiently in the Absence of Osteopontin DP - 2005 Mar 01 TA - In Vivo PG - 335--341 VI - 19 IP - 2 4099 - http://iv.iiarjournals.org/content/19/2/335.short 4100 - http://iv.iiarjournals.org/content/19/2/335.full SO - In Vivo2005 Mar 01; 19 AB - Osteopontin (OPN) is both a matrix protein in mineralized tissues and a cytokine, and it has a pivotal role in osteoclast-mediated bone resorption. Here, using a proprietary hydroxyapatite substitute for bone mineral (Osteologic™ discs), we investigated the requirement for OPN in mineral resorption. Resorption pits formed in the Osteologic™ discs, revealed by staining with silver nitrite (Von Kossa stain), were analyzed using the NIH Image J program, which can determine the number of pits formed per unit area, their average size, and the fractional area resorbed. After a preincubation of bone marrow cells from OPN-/- and OPN+/+ mice with M-CSF to allow the multiplication of osteoclast precursors on cell culture plastic, osteoclast formation on both Osteologic™ discs and standard cell culture plates was induced with soluble receptor activator of NFÎ B ligand, sRANKL. We did not detect a dramatic difference in osteoclast formation between OPN+/+ and OPN-/- cells, as judged by staining for tartrate-resistant acid phosphatase in osteoclasts formed on cell culture plastic, nor was there a significant difference in the ability of the osteoclasts to form resorption pits in the Osteologic™ discs. Additionally, none of six different anti-OPN monoclonal antibodies had a significant and reproducible effect on the formation or subsequent functioning of the OPN+/+ osteoclasts. These studies suggest that, in contrast to what has been found for normal bone, the efficiency of dissolution of a ceramic, protein-free (excepting protein adsorbed from the culture medium) hydroxyapatite/tri-calcium phosphate substrate by osteoclasts is not substantially enhanced by endogenous or exogenous OPN.