Mechanism of action of ?-glycerophosphate on bone cell mineralization

Chung, Chun-Hsi; Golub, Ellis E.; Forbes, Elizabeth; Tokuoka, Toshikazu; Shapiro, Irving M.

doi:10.1007/bf00334492

Cited by 218 publications

(166 citation statements)

References 33 publications

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“…3), and this supraphysiological level of ionic phosphate caused the nonspecific precipitation of mineral within both the cartilage and collagen matrices of the tibia. A similar nonspecific precipitation of mineral has been seen by other investigators using medium containing 10 mM b-glycerophosphate, and in each instance the mineral precipitation has been associated with the hydrolysis of the b-glycerophosphate by phosphatases and the associated massive increase in medium levels of phosphate [14][15][16][17].…”

Section: Discussionsupporting

confidence: 78%

“…In an earlier study, Chung et al [17] had proposed not exceeding 2 mM Pi in the culture medium in order to prevent nonphysiological mineral formation. When DMEM supplemented with 15% FBS and containing 2 mM phosphate was tested, we succeeded in remineralizing a demineralized tibia in all sites where mineral is normally found in a nondemineralized tibia (Fig.…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies have shown that over 70% of the bglycerophosphate added to osteoblastic cell cultures is hydrolyzed to phosphate within 24 hours by cell-associated alkaline phosphatase [17], and that the accompanying massive increase in medium phosphate results in the nonspecific deposition of calcium phosphate mineral in the matrix [14][15][16][17]. Since there was clearly nonspecific deposition of mineral in tibias incubated in medium containing 10 mM b-glycerophosphate (particularly in the cartilaginous ends), it seemed likely that the hydrolysis of b-glycerophosphate to phosphate also occurred in the present studies as a result of endogenous alkaline phosphatase activity in the FBS.…”

Section: Calcification Of Demineralized Rat Tibia By Incubation In Dmmentioning

confidence: 99%

“…Using the approach of Chung et al [17], we decided to boost medium phosphate to 2 mM so that we could more directly control medium phosphate lev- Fig. 4.…”

Section: Calcification Of Demineralized Rat Tibia By Incubation In Dmmentioning

confidence: 99%

“…The role of the bglycerophosphate is generally accepted to be as a source of phosphate for mineral growth, but it may affect mineral deposition in other ways as well [15]. Alkaline phosphatase secreted by bone cells efficiently hydrolyzes the added 10 mM b-glycerophosphate [16,17] and increases medium phosphate in osteoblast cultures to 7-9 mM within 24 hours [17]. Khouja et al [14] have shown that serum, in the absence of cells, is also able to hydrolyze b-glycerophosphate, presumably because of endogenous action of serum alkaline phosphatase.…”

mentioning

confidence: 99%

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Mineralization of Decalcified Bone Occurs Under Cell Culture Conditions and Requires Bovine Serum But Not Cells

Hamlin

Price

2004

Calcif Tissue Int

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Abstract. The purpose of this study was to develop an in vitro model system for bone matrix mineralization in the absence of cells. For this model, we utilized EDTAdecalcified new-born rat tibias with the cartilaginous ends intact, allowing us to visually determine the specificity of mineralization within the bone. Our results show that supplementation of DMEM culture medium with 10mM b-glycerophosphate and 15% fetal bovine serum (FBS) results in non-physiological mineral percipitation in the tibia because of the generation of supraphysiological (5mM) levels of inorganic phosphate in the medium. The same medium supplemented only with inorganic phosphate to a final concentration of 2mM failed to mineralize a decalcified tibia matrix. However, additional supplementation of this medium with as little as 5% FBS resulted in mineralization of those regions of the type I collagen where mineral was found prior to decalcification, with no evidence for mineralization in the cartilage at the bone ends or in the periosteum. Analysis of the mineral by Fourier-transform infrared spectroscopy and powder X-ray diffraction shows that tibias that have been decalcified and then remineralized contain an apatitic mineral that is strikingly similar to the mineral in normal bone. Tendon, a type I collagen matrix not normally mineralized in vivo , also mineralizes when incubated in DMEM containing 2mM Pi and as little as 1.5% FBS, but not when incubated in DMEM without serum. These data indicate that serum contains a nucleator of type I collagen matrix mineralization, and that mineralization of type I collagen under cell culture conditions requires serum but not living cells.

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Section: Discussionsupporting

confidence: 78%

Section: Discussionmentioning

confidence: 99%

Section: Calcification Of Demineralized Rat Tibia By Incubation In Dmmentioning

confidence: 99%

“…Using the approach of Chung et al [17], we decided to boost medium phosphate to 2 mM so that we could more directly control medium phosphate lev- Fig. 4.…”

Section: Calcification Of Demineralized Rat Tibia By Incubation In Dmmentioning

confidence: 99%

mentioning

confidence: 99%

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Mineralization of Decalcified Bone Occurs Under Cell Culture Conditions and Requires Bovine Serum But Not Cells

Hamlin

Price

2004

Calcif Tissue Int

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Effect of serum proteins and osteoblasts on the surface transformation of a calcium phosphate coating: A physicochemical and ultrastructural study

Radin

Ducheyne

Berthold

et al. 1998

J. Biomed. Mater. Res.

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Changes occurring at the surface of a calcium phosphate coating when in contact with osteoblasts versus those in acellular solutions were analyzed. The coating studied is one with a well-documented extensive effect on short-term bone growth stimulation. Precipitates associated with original crystals and organized in a weblike structure were observed after a 3-week culture with osteoblasts. The precipitates were identified as carbonated hydroxyapatite (c-HA). In contrast, no significant surface changes were detected after immersion in an acellular serum-containing solution. However, in an acellular serum-free solution simulating the ionic composition of plasma, precipitates, identified as c-HA, were abundantly formed. Dissolution of the original coating preceded precipitation. The data support the hypothesis that dissolution of synthetic calcium phosphate ceramics is an initial step in their transformation to a biologically equivalent apatite, and suggest that both solution-mediated (dissolution-precipitation) and cell-mediated mechanisms are involved in the surface transformation.

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Variation of oxide films on titanium induced by osteoblast-like cell culture and the influence of an H2O2 pretreatment

Pan

Liao

Leygraf

et al. 1998

J. Biomed. Mater. Res.

161

130

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Variations of titanium oxide films induced by osteoblast-like cells in a rat calvaria culture system and the influence of an H2O2 pretreatment have been investigated by using X-ray photoelectron spectroscopy and electrochemical impedance spectroscopy. For abraded titanium, the results revealed that phosphate and calcium ions may incorporate into the surface oxide film during the cell culture, forming a precipitate with a Ca/P ratio near that of hydroxyapatite. Oxidized carbon also was found in the surface layer, most likely precipitated hydroxylcarbonated apatite (HCA). The H2O2 pretreatment of titanium in a phosphate-buffered saline solution results in a 10-fold thickened porous oxide film and large amounts of surface hydroxyl groups as well as a certain amount of phosphate ions inside the oxide film. During the cell culture, the H2O2-treated titanium surface favors the ion incorporation and precipitation of the HCA-like compound, which probably is inlaid into the oxide film. Osteoblast-like cells on the H2O2-treated titanium showed a more active morphology during the initial stage compared with cells on abraded titanium. Moreover, bone-like nodule formation and mineralization appear to be related to the precipitation of the HCA-like compound on the surface. The results are discussed with respect to corrosion resistance, ion incorporation and precipitation of the HCA-like compound on the surface, osseointegration, and bioactivity of titanium implants.

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Mechanism of action of ?-glycerophosphate on bone cell mineralization

Cited by 218 publications

References 33 publications

Mineralization of Decalcified Bone Occurs Under Cell Culture Conditions and Requires Bovine Serum But Not Cells

Mineralization of Decalcified Bone Occurs Under Cell Culture Conditions and Requires Bovine Serum But Not Cells

Effect of serum proteins and osteoblasts on the surface transformation of a calcium phosphate coating: A physicochemical and ultrastructural study

Variation of oxide films on titanium induced by osteoblast-like cell culture and the influence of an H2O2 pretreatment

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