Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study evaluated a rapid biomineralization phenomenon exhibited by an osteoblastic cell line, UMR 106-01 BSP, when treated with either organic phosphates [beta-glycerophosphate (beta-GP), Ser-P, or Thr-P], inorganic phosphate (P(i)), or calcium. In a dose-dependent manner, these agents (2-10 mM) stimulated confluent cultures to deposit mineral in the cell layer (ED50 of approximately 4.6 mM for beta-GP (30 +/- 2 nmol Ca2+/microgram DNA) and approximately 3.8 mM (29 +/- 2 nmol Ca2+/microgram DNA) for P(i)) with a plateau in mineral formation by 20 h (ET50 approximately 12-15 h). beta-GP or P(i) treatment yielded mineral crystals having an x-ray diffraction pattern similar to normal human bone. Alizarin red-S histology demonstrated calcium mineral deposition in the extracellular matrix and what appeared to be intracellular paranuclear staining. Electron microscopy revealed small, needle-like crystals associated with fibrillar, extracellular matrix deposits and intracellular spherical structures. Mineral formation was inhibited by levamisole (ED50 approximately 250 microM), pyrophosphate (ED50 approximately 1-10 microM), actinomycin C1 (500 ng/ml), cycloheximide (50 micrograms/ml), or brefeldin A (1 microgram/ml). These results indicate that UMR 106-01 BSP cells form a bio-apatitic mineralized matrix upon addition of supplemental phosphate. This process involves alkaline phosphatase activity, ongoing RNA and protein synthesis, as well as Golgi-mediated processing and secretion.
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PMID:Rapidly forming apatitic mineral in an osteoblastic cell line (UMR 106-01 BSP). 772 67

Gene expression patterns have been investigated in prolonged cultures of rat mandibular condylar cartilage (MCC) cells to examine the possibility of culture-induced phenotypic changes. MCC cells were isolated from newborn rats and grown in the presence of 10% fetal bovine serum (FBS) and basic fibroblast growth factor (bFGF). MCC cells were passaged and cultured in the presence of 10% FBS and bFGF until confluent. After confluence, the medium was changed to that supplemented with 10% FBS, ascorbate, and beta-glycerophosphate (day 1). Mineralization and gene expression of MCC cells have been investigated. Mineralization, visualized by staining with Alizarin red, was observed to begin at day 13 in culture, and increased up to day 22 in culture, which was the length of this study. Type II collagen and aggrecan mRNAs were highly expressed at the start of culture (day 1-4) and decreased in a time-dependent manner. Type I collagen, alkaline phosphatase, and osteopontin mRNAs expressed biphasic patterns that peaked at the start of culture and the beginning of mineralization (day 13-16). Osteonectin mRNA was expressed throughout the culture period. Osteocalcin mRNA was expressed before the beginning of mineralization peaking at day 7. These observations suggest that the gene expression patterns of MCC cells can be categorized into two different periods in prolonged culture: maturation (day 1-10) and mineralization (day 13-22). The day culture system of MCC represents a new model system in which the differentiation of embryonic MCC cells can be examined.
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PMID:Changes in phenotypic gene expression in rat mandibular condylar cartilage cells during long-term culture. 859 45

Osteocytes are differentiated forms of osteoblasts that arise upon entrapment within the bone matrix. In this report, we describe the establishment and hormonal regulation of the first conditionally transformed human preosteocytic cell line. Primary adult bone cells were obtained from protease cell line. Primary adult bone cells were obtained from protease digestion of cancellous chips. The cells were infected with adenovirus-ori- SV40 tsA 209, which encodes for a temperature-sensitive large T-antigen. After immortalization, we isolated a clone designated HOB-01-C1. This cell line expressed the mutant T-antigen and proliferated at the permissive temperature (34 C) but stopped dividing at the nonpermissive temperature (39-40 C). Electron microscopy of cells incubated at 39 C demonstrated the presence of preosteocytic cellular processes, some of which appeared to form gap junctions or were rich in microfilaments. The clone expressed alpha 1 type (I) procollagen messenger RNA (mRNA) and secreted type I procollagen C peptide at both temperatures, and this expression was elevated 1.6-fold to 1.8-fold at 40 degrees C. The cells expressed very low basal levels of alkaline phosphatase activity (approximately 0.02 nmol/min.mg), which was increased 2- to 5-fold in a dose-dependent manner by 0.1-100 nM 1 alpha,25-dihydroxyvitamin D3 (vitamin D3) at both temperatures. Vitamin D3 also increased osteocalcin secretion in a dose-dependent manner when the clone was maintained at 34 C (approximately 6-fold), and this stimulation was enhanced > 5 fold at 40 C. In contrast to the low expression of alkaline phosphatase, the cells secreted high amounts of osteocalcin in response to vitamin D3 (approximately 15 ng/mg cell protein); this biochemical profile also resembled that of preosteocytes. Alizarin red-S histochemical staining demonstrated that these cells rapidly produced mineralized nodules at both temperatures. PTH (10 and 100 nM) had no effect on the intracellular accumulation of cAMP at 34 C but stimulated a 14- to 18-fold increase in the production of this second messenger at 40 C. In contrast, 100 nM prostaglandin E2 and 1 microM forskolin stimulated cAMP synthesis better at 34 C. Western blot analysis indicated that the cells expressed CD44, a putative osteocytic marker, at both temperatures. Finally, interleukin-1 beta and tumor necrosis factor-alpha (1-1000 pM) stimulated dose-dependent increases in the secretion of interleukin-6 and monocyte chemoattractant protein-1 at 34 C and 40C. We conclude that the HOB-01-C1 cell line has a preosteocytic phenotype. Moreover, these cells respond to calcitropic hormones and bone resorbing cytokines.
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PMID:Establishment and hormonal regulation of a conditionally transformed preosteocytic cell line from adult human bone. 889 22

A novel, immortalized, human bone marrow stroma-derived cell line TF274 is described which has the ability to form bone both in vitro and in vivo. Under basal conditions these cells expressed alkaline phosphatase (ALP) and type I collagen genes which are characteristic of the osteoblast phenotype. ALP levels were upregulated in the presence of osteotropic agents such as parathyroid hormone (PTH), transforming growth factor beta (TGF-beta), and BMP-2. In addition, PTH also increased cAMP levels in these cells. The capacity of these cells to form bone in vitro was evaluated by culturing them in the presence of L-ascorbic acid and beta-glycerophosphate. Matrix mineralization in these cultures was assessed by Alizarin Red staining and increased 45Ca uptake. Under these conditions mineralized nodule formation was observed in less than 2 weeks. Northern analysis of TF274 cells at various times during the mineralization process indicated a temporal expression of the osteocalcin gene that is typically associated with differentiating osteoblasts. The osteogenic nature of TF274 cells was confirmed in vivo using the severe combined immunodeficient (SCID) mouse model. Antibodies to human leukocyte antigens (HLA), class I antigens, and human OKa blood group antigen were used to demonstrate that the lesions formed were of human origin. By 21 days, the lesion consisted of a homogeneous focus of ALP-positive cells containing areas of mineralized bone lined with tartarate-resistant acid phosphatase (TRAP) positive osteoclasts. Thus, the TF274 cells exhibit osteogenic potential both in vitro and in vivo. This immortalized cell line represents a consistent source of cells that can be used to study human osteoblast differentiation both in vitro and in vivo.
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PMID:A novel human bone marrow stroma-derived cell line TF274 is highly osteogenic in vitro and in vivo. 970 25

Bone marrow stromal cells (BMSCs) for osteoblast differentiation studies can be obtained by gradient isolation techniques or by directly plating a filtered cell suspension. We compared these two procedures to evaluate whether this step is critical in order to obtain a high number of differentiated colonies. Isolated primary rat BMSCs were cultured in vitro with or without insulin-like growth factor II (IGFII), basic fibroblast growth factor (b-FGF), epidermal growth factor (EGF) or transforming growth factor beta 1 (TGF beta 1), and histochemically and biochemically analysed at different time points. The gradient procedure produced a significantly higher number of colonies capable of osteoblastic differentiation. The growth factors had different effects. In particular, b-FGF and EGF significantly increased the number of Alizarin red S positive colonics, while IGFII and TGF beta I exerted inhibitory effects. Nodules obtained on day 21 showed some alkaline phosphatase positive cells and were Von Kossa-positive. These data demonstrate that more differentiated colonies are obtainable from BMSCs isolated by the gradient procedure.
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PMID:An elevated number of differentiated osteoblast colonies can be obtained from rat bone marrow stromal cells using a gradient isolation procedure. 1169 88

Human adipose tissue represents an abundant reservoir of stromal cells with potential utility for tissue engineering. The current study demonstrates the ability of human adipose tissue-derived stromal cells to display some of the hallmarks of osteoblast differentiation in vitro. Following treatment with ascorbate, beta-glycerophosphate, dexamethasone, and 1,25 dihydroxy vitamin D(3), adipose tissue-derived stromal cells mineralize their extracellular matrix based on detection of calcium phosphate deposits using Alizarin Red and von Kossa histochemical stains. Fourier transform infrared analysis demonstrates the apatitic nature of these crystals. Mineralization is accompanied by increased expression or activity of the osteoblast-associated proteins osteocalcin and alkaline phosphatase. These and other osteoblast-associated gene markers are detected based on polymerase chain reaction. In contrast, the adipocyte gene markers--leptin, lipoprotein lipase, and peroxisome proliferator activated receptor gamma2--are reduced under mineralization conditions, consistent with the reciprocal relationship postulated to exist between adipocytes and osteoblasts. The current work supports the presence of a multipotent stromal cell population within human extramedullary adipose tissue. These findings have potential implications for human bone tissue bioengineering.
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PMID:Extracellular matrix mineralization and osteoblast gene expression by human adipose tissue-derived stromal cells. 1174 30

We have established tartrate-resistant acid phosphatase (TRAP) and alkaline phosphatase (ALP) double-positive cell lines (CCP-2, CCP-7, CCP-8) from hamster bone marrow. Accumulation of mineral deposits was observed on the dishes when the clones were cultured in McCoy's 5A medium supplemented with 20% fetal calf serum. The materials were dissolved in 0.05 N HCl, and proteins found in the acid extracts were identified by N-terminal amino acid sequencing. The major components were bovine fetuin and prothrombin precursor. In addition, several cell-derived proteins, such as high mobility group 1 protein (HMG1), secretory leukocyte protease inhibitor (SLPI) and EPV20, a 2.0-kDa milk glycoprotein, were identified. HMG1 was detected, by immunostaining, on the cell surface of all the CCP clones. Metabolically labeled cellular sphingomyelin, sialyllactosylceramide, and proteoglycans were also found in the mineral deposits. Reverse transcription/polymerase chain reaction of CCP-2 mRNA revealed that the cells synthesized alkaline phosphatase, bone sialo protein, and osteonectin, but not matrix Gla protein, osteopontin, and type I collagen. CCP-2 cells formed tumors when injected subcutaneously into nude mice. In the tumor tissue, Alizarin-red-positive nodules surrounded by TRAP- and ALP-positive cells were observed, indicating CCP-2 cells can also induce calcification in vivo.
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PMID:Characterization of mineral deposits formed in cultures of a hamster tartrate-resistant acid phosphatase (TRAP) and alkaline phosphatase (ALP) double-positive cell line (CCP). 1217 86

The presence of non-hematopoietic stem cells in the human umbilical cord blood (hUCB) is debated. In this study, we report the isolation of a population of fibroblast-like cells with osteogenic and adipogenic potential that resembles the stromal stem cells found in the bone marrow. Low-density mononuclear cells isolated from hUCB formed few adherent colonies with fibroblast-like morphology after a few days in culture. At confluence, the polyclonal cell populations were characterized. Using FACS analysis and immunocytochemistry, the cells were found to express HLA-ABC, CD9, vimentin, the b subunit of prolyl-4-hydroxylase, integrins a1(CD49a), integrin a3 (CD49c), integrin a5(CD49e), and cytokeratin 18. Furthermore, the cells expressed constitutively transcripts of osteoblast-specific markers: Cbfa1/Runx2, alkaline phosphatase (AP), and collagen type I, and formed a mineralized matrix in vitro visualized by Alizarin red staining. In the presence of normal horse serum and dexamethasone (10(-7) M), the cells formed foci of adipocytes. When the cells were implanted mixed with hydroxyapatite/tricalcium phosphate powder in the subcutis of immunocompromised mice for 8 weeks, they formed osteogenic tissue and a myelosupportive microenviroment that enclosed hematopoietic cells and adipocytes. Our results demonstrate the presence of circulating stem cells with osteogenic and adipogenic differentiation potential in hUCB and may encourage the use of hUCB as a potential source for stem cells to be utilized in cell therapy protocols for various diseases.
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PMID:The human umbilical cord blood: a potential source for osteoblast progenitor cells. 1245 62

Hyaluronan (or hyaluronic acid, HA) is an essential component of extracellular matrices. It interacts with other macromolecules and plays a predominant role in tissue morphogenesis, cell migration, differentiation, and adhesion. The cell signaling functions of HA are mediated through the CD-44 receptor and are dependent upon the molecular weight of the polymer. We hypothesized that an HA of appropriate molecular weight alone in optimal concentration may induce osteoblast differentiation and bone formation. Enzyme-digested calvarial-derived mesenchymal cells from 2-day-old newborn rats were cultured with the addition of HA of three different molecular weights (2300, 900, and 60 kDa). We added, 0.5, 1.0, and 2.0 mg/mL HA for each molecular weight to the medium at the first plating of cells. After 7 to 20 days in culture, cell proliferation and differentiation were evaluated by measuring thymidine incorporation, alkaline phosphatase activity, and osteocalcin gene expression. The effects of HA on bone formation were examined by using Alizarin red staining for mineralization. The results showed that low molecular weight HA (60 kDa) significantly stimulated cell growth, increased osteocalcin mRNA expression in a dose-dependent manner, but showed no apparent effects on alkaline phosphatase activity and bone mineralization. On the other hand, high-weight HA (900 and 2,300 kDa) significantly increased all the parameters examined, particularly alkaline phosphatase activity, in a dose-dependent manner and stimulated cell mineralization to 126% and 119% of the controls, respectively, in the 1.0 mg/mL dose. Our findings suggest that HA has a molecular weight-specific and dose-specific mode of action that may enhance the osteogenic and osteoinductive properties of bone graft materials and substitutes due to its stimulatory effects on osteoblasts.
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PMID:The effect of hyaluronan on osteoblast proliferation and differentiation in rat calvarial-derived cell cultures. 1292 41

The presence of skeletal hypomineralization was confirmed in mice lacking the gene for bone alkaline phosphatase, ie, the tissue-non-specific isozyme of alkaline phosphatase (TNAP). In this study, a detailed characterization of the ultrastructural localization, the relative amount and ultrastructural morphology of bone mineral was carried out in tibial growth plates and in subjacent metaphyseal bone of 10-day-old TNAP knockout mice. Alizarin red staining, microcomputerized tomography (micro CT), and FTIR imaging spectroscopy (FT-IRIS) confirmed a significant overall decrease of mineral density in the cartilage and bone matrix of TNAP-deficient mice. Transmission electron microscopy (TEM) showed diminished mineral in growth plate cartilage and in newly formed bone matrix. High resolution TEM indicated that mineral crystals were initiated, as is normal, within matrix vesicles (MVs) of the growth plate and bone of TNAP-deficient mice. However, mineral crystal proliferation and growth was inhibited in the matrix surrounding MVs, as is the case in the hereditary human disease hypophosphatasia. These data suggest that hypomineralization in TNAP-deficient mice results primarily from an inability of initial mineral crystals within MVs to self-nucleate and to proliferate beyond the protective confines of the MV membrane. This failure of the second stage of mineral formation may be caused by an excess of the mineral inhibitor pyrophosphate (PPi) in the extracellular fluid around MVs. In normal circumstances, PPi is hydrolyzed by the TNAP of MVs' outer membrane yielding monophosphate ions (Pi) for incorporation into bone mineral. Thus, with TNAP deficiency a buildup of mineral-inhibiting PPi would be expected at the perimeter of MVs.
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PMID:Impaired calcification around matrix vesicles of growth plate and bone in alkaline phosphatase-deficient mice. 1498 38


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