EC:3.1.3.1 - FACTA Search

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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)

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

A well-defined chicken osteoblast culture system(18) has been used to examine fibronectin (FN) mRNA levels, synthesis, and accumulation during in vitro differentiation and matrix mineralization. Immunofluorescent staining of cells after 6 or 18 days in culture revealed that FN was initially associated with the cell surface and in partial coalignment with cytoskeletal elements while at the latter time most FN was associated with the extracellular matrix as a ubiquitous fibrillar network. Western blot analysis of total cell-associated proteins also detected FN at all culture times. However, when results were normalized to cellular DNA, FN levels increased until 12-16 and remained relatively constant thereafter. Similarly, FN synthesis as measured by [35S]-methionine labeling, and immunoprecipitation was greatest in early cultures (culture day 3) and then declined such that synthesis decreased 60% at day 18 and 94% after 24-31 days. FN mRNA levels as measured by Northern blot analysis were well correlated with FN synthesis. These results clearly show that FN is made by primary osteoblasts during their in vitro maturation. In contrast to other osteoblast markers such as alkaline phosphatase, osteocalcin, and osteopontin, whose expression increases as cells differentiate, FN accumulates in the matrix during periods of early cell growth and attachment and then remains proportional to cell number. Results with FN differ from those obtained with collagen which continues to accumulate in the extracellular matrix during osteoblast maturation. These results are consistent with FN being important for the initial attachment of early osteoblasts or osteoblast precursors to the pericellular matrix.
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PMID:Fibronectin gene expression, synthesis and accumulation during in vitro differentiation of chicken osteoblasts. 861 78

Recent studies suggest that thyroid-stimulating hormone suppressive doses of thyroid hormone decrease bone mass in humans and growing rats. To determine the long-term effects of excessive L-thyroxine administration on the femur and vertebrae in an adult rat model, 20 male Sprague-Dawley rats (20 weeks old) were randomized into two groups. Group 1 received L-thyroxine (20 micrograms/100 g body weight ip daily), and group 2 received normal saline ip daily for 20 weeks. Femoral and lumbar vertebral bone mineral density measurements were performed at 0, 6, 15, 18 and 20 weeks of treatment. After 20 weeks of treatment, total RNA was isolated from both femoral and lumbar bones. Northern hybridization was performed with 32P-labeled DNA probes for osteocalcin, osteopontin, alkaline phosphatase and tartrate-resistant acid phosphatase. Significant decreases in bone mineral density in the femur of L-thyroxine-treated rats were observed after 15 weeks (p < 0.03). Lumbar bone mineral density was not affected. Both osteoblast (osteocalcin, osteopontin, alkaline phosphatase) and osteoclast (tartrate-resistant acid phosphatase) gene expression markers were increased significantly in the femoral bone (p < 0.001), but not in the lumbar vertebrae of the L-thyroxine-treated rats. We conclude that long-term administration of excessive doses of L-thyroxine to the adult rat preferentially affects femoral but not vertebral bone. This is manifested by decreased bone mineral density as well as increased gene expression markers for osteoblast and osteoclast activity in the femur.
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PMID:Differential responses of femoral and vertebral bones to long-term excessive L-thyroxine administration in adult rats. 866 88

The effect of chicken growth hormone (cGH) on the proliferation and differentiation of avian growth-plate chondrocyte was evaluated in culture. In culture, addition of ascorbic acid to the culture media caused cell differentiation. Treatment of proliferating chondrocytes with cGH caused a time-dependent increase in collagen type II gene expression together with a decrease in the appearance of osteopontin (OPN) in the medium. In addition, the ascorbic acid-dependent increase in alkaline phosphatase (AP) activity was inhibited by cGH. IGF-I, on the other hand, caused an increase in AP activity in the ascorbic acid-treated chondrocytes. In the presence of ascorbic acid, cGH did not affect collagen type II gene expression or the appearance of OPN in the medium. Proliferation of avian growth-plate chondrocytes, in contrast to mammalian chondrocytes, was not stimulated by GH alone, although the presence of cGH was essential for chondrocyte survival in long-term culture. cGH in combination with epidermal growth factor (EGF) stimulated cell proliferation. These results suggest that GH inhibits differentiation in avian growth-plate chondrocytes, thereby sustaining their proliferative state and maintaining their sensitivity to growth factors such as EGF.
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PMID:Growth hormone inhibits differentiation of avian epiphyseal growth-plate chondrocytes. 867 49

The brittleness of bone in people with lethal (type II) osteogenesis imperfecta, a heritable disorder caused by mutations in the type I collagen genes, arises from the deposition of abnormal collagen in the bone matrix. The inability of the abnormal collagen to participate in mineralization may be caused by its failure to interact with other bone proteins. Here, we have designed a strategy to isolate the genes important for mineralization of collagen during bone formation. Cells isolated from 16-day embryonic chick calvaria and seeded post-confluence in culture deposited a mineralized matrix over a period of 2 weeks. Chick skin fibroblasts seeded and cultured under the same conditions did not mineralize. Using RT-PCR, we prepared short cDNAs (approximately 300 bp) corresponding to the 3' ends of mRNA from fibroblasts and separately from the mineralizing calvarial cells. Subtractive cDNA hybridization generated a pool of cDNAs that were specific to mineralizing calvarial cells but not to fibroblasts. Screening of 100,000 plaques of a chick bone ZAP Express cDNA library with this pool of mineralizing-specific cDNAs identified ten clones which comprised full-length cDNAs for the bone proteins osteopontin (eight of the ten positives), bone sialoprotein II (one of the ten positives), and cystatin (one of the ten positives). cDNAs for type I collagen, fibronectin, alkaline phosphatase, house-keeping genes, and other genes expressed in fibroblasts were not identified in this preliminary screen. The pool of short cDNAs is likely to comprise cDNAs for further bone-specific genes and will be used to screen the entire bone cDNA library of 4.2 million clones.
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PMID:Tracing the pathway between mutation and phenotype in osteogenesis imperfecta: isolation of mineralization-specific genes. 872 4

Fibroblast growth factors (FGF) are osteoblast mitogens, but their effects on bone formation are not clearly understood. Most in vitro studies examining the effects of FGFs on osteoblasts have been performed only during the initial proliferative stage of osteoblast culture. In these studies, we examined the consequential effect of acidic FGF in cultures of rat fetal diploid osteoblasts that undergo a developmental differentiation program producing a mineralized bone-like matrix. During the initial growth period (days 1-10), addition of acidic FGF (100 micrograms/ml) to actively proliferating cells increased (P < 0.05) 3H-thymidine uptake (2,515 +/- 137, mean +/- SEM vs. 5,884 +/- 818 cpm/10(4) cells). During the second stage of maturation (days 10-15), osteoblasts form multilayered nodules of cells and accumulate matrix, followed by mineralization (stage 3, days 16-29). Addition of acidic FGF to the osteoblast cultures from days 7 to 15 completely blocked nodule formation. Furthermore, addition of acidic FGF after nodule formation (days 14-29) inhibited matrix mineralization, which was associated with a marked increase in collagenase gene expression, and resulted in a progressive change in the morphology of the nodules, with only a few remnants of nonmineralized nodules present by day 29. Histochemical and biochemical analyses revealed a decrease in alkaline phosphatase and mineral content, confirming the acidic FGF-induced inhibition of nodule and matrix formation. To identify mechanisms contributing to these changes, we examined expression of cell growth and bone phenotypic markers. Addition of acidic FGF during the proliferative phase (days 7-8) enhanced histone H4, osteopontin, type I collagen, and TGF-beta mRNA levels, which are coupled to proliferating osteoblasts, and blocked the normal developmental increase in alkaline phosphatase and osteocalcin gene expression and calcium accumulation. Addition of acidic FGF to the cultures during matrix maturation (days 14-15) reactivated H4, osteopontin, type I collagen, and TGF-beta gene expression, and decreased alkaline phosphatase and osteocalcin gene expression. In an in vivo experiment, rats were treated with up to 60 micrograms/kg/day acidic FGF intravenously for 30 days. Proliferation of osteoblasts and deposition of bone occurred in the marrow space of the diaphysis of the femur in a dose-related fashion. The metaphyseal areas were unaffected by treatment. In conclusion, our data suggest that acidic FGF is a potent mitogen for early stage osteoblasts which leads to modifications in the formation of the extracellular matrix; increases in TGF-beta and collagenase are functionally implicated in abrogating competency for nodule formation. Persistence of proliferation prevented expression of alkaline phosphatase and osteocalcin, also contributing to the block in the progression of the osteoblast developmental sequence.
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PMID:Acidic fibroblast growth factor inhibits osteoblast differentiation in vitro: altered expression of collagenase, cell growth-related, and mineralization-associated genes. 872 64

The expression of insulin-like growth factor-I (IGF-I), interleukin-6 (IL-6), and transforming growth factor-beta 1 (TGF-beta 1) mRNA in rat femurs was examined following marrow ablation. Northern blot analysis showed multiple transcripts of IGF-I, a major transcript of 1.3 kb and a minor one of 2.4 kb for IL-6 and a single band of 2.5 kb for TGF-beta 1, respectively. Examination of the temporal activation pattern showed IGF-I expression peaked at day 3 (150% over the basal level) after injury and preceded the maximal expression of procollagen alpha 1(I), osteopontin, alkaline phosphatase, and osteocalcin mRNAs. This suggests that IGF-I is involved mainly in osteoblast development and bone formation. In contrast, IL-6 expression was elevated between days 3 and 9 (45-60% over the basal level). The sustained elevation of IL-6 expression at day 9 is consistent with the role for this cytokine in the development of osteoclasts and bone resorption. The expression of TGF-beta 1 was not altered up to day 9 after marrow ablation. While the temporal expression patterns of IGF-I and IL-6 mRNA did not differ between adult and old rats, the maximal level of IGF-I mRNA at day 3 was 72% higher in adult as compared to old bones. In contrast, the peak level of IL-6 mRNA at days 6-9 was 45% higher in old as compared to adult bones. Although the level of TGF-beta 1 mRNA did not change following marrow ablation, levels of TGF-beta 1 were consistently higher in old rats. Our results suggest that the impaired bone formation and elevated bone resorption in aged animals may be due in part to the reduced expression of IGF-I and an overexpression of IL-6 in old bone.
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PMID:Effect of age on the expression of insulin-like growth factor-I, interleukin-6, and transforming growth factor-beta mRNAs in rat femurs following marrow ablation. 873 6

It has been reported that periodontal ligament cells (PDLC) show osteoblastic phenotypes in culture. In most previous studies, PDLC have been obtained from the tooth root surface, however, a new method in which PDLC are obtained from the coagulum after tooth extraction has been proposed recently. To compare PDLC from tooth surface with these from coagulum, PDLC from both sources were cultured and examined. PDLC from both sources responded to PTH or PGE2 increasing cAMP and showed high alkaline phosphatase (ALP) activity. Some PDLC cultures produced mineralized tissues and these mineralizing cultures showed high ALP activity with high gene expression level of type I collagen, bone sialoprotein, and osteopontin in comparison with non-mineralizing cultures. PDLC from both sources expressed various osteoblastic or cementoblastic phenotypes and seemed to contain heterogenous mesenchymal cell population with various differentiation potentials. However, the frequency of cellular transmigration, rate of mineralized tissue formation, increased level of cAMP that responded to PTH or PGE2, and osteopontin expression pattern were different between PDLC from both sources. These differences indicate that PDLC cultures from coagulum contain more immature cells than PDLC from tooth surface.
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PMID:[Characterization of rat periodontal ligament cells in culture]. 874 17

A variable response to 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3] hormone treatment was observed for osteoblast cell populations isolated from 12- and 17-day-old embryonic chick calvariae. The younger embryonic cell population showed 2- and 5-fold inductions of osteocalcin and osteopontin gene expression, respectively, and a 25% inhibition of collagen gene expression when treated with 1,25-(OH)2D3. In contrast, these same genes all displayed approximately 80% inhibition of their expression when the older embryonic cell populations were treated with hormone. The hormone response was related to the appearance of the vitamin D3 receptor (VDR) and the developmental state of teh two cell populations by assessing the numbers of cells that were immunologically labeled for two osteoblast lineage, stage-specific surface makers (alkaline phosphatase and SB-5, an osteocyte marker) and the VDR. Using the sequence of marker presentation, with VDR appearing first, followed by alkaline phosphatase and then SB-5, models were tested using logistic regression analysis to validate this order of marker presentation and establish that the two embryonic ages of the cell populations represent discrete stages of their lineage. This analysis indicated that 1,25-(OH)2D3 treatment progressed the 12-day-old embryo cell populations along their lineage and that the hormone promoted the appearance of its own receptor (P < 0.001) However, the appearance of the VDR does not appear to be a determinant in the variable responses of the different embryonic aged cell populations to the hormone. These data quantitatively establish the unique nature of osteoblast cell populations within their lineage progression for cells isolated from embryos of different ages, such that cell populations isolated from younger embryos are comprised of primarily presumptive or immature osteoblasts, whereas cells isolated from older embryos are comprised of mature osteoblasts. These data also demonstrate that the genomic effects of 1,25-(OH)2D3 are dependent on the developmental stage of the osteoblast lineage, and the stimulatory actions of the hormone are targeted to immature osteoblasts, whereas the effect of the hormone on mature osteoblasts is inhibitory.
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PMID:Variable hormone responsiveness of osteoblast populations isolated at different stages of embryogenesis and its relationship to the osteogenic lineage. 875 72

The secretion of fibronectin by differentiating osteoblasts and its accumulation at sites of osteogenesis suggest that fibronectin participates in bone formation. To test this directly, we determined whether fibronectin-cell interactions regulate progressive differentiation of cultured fetal rat calvarial osteoblasts. Spatial distributions of alpha 5 integrin subunit, fibronectin, osteopontin (bone sialoprotein I) and osteocalcin (bone Gla-protein) were similar in fetal rat calvaria and mineralized, bone-like nodules formed by cultured osteoblasts. Addition of anti-fibronectin antibodies to cultures at confluence reduced subsequent formation of nodules to less than 10% of control values, showing that fibronectin is required for normal nodule morphogenesis. Anti-fibronectin antibodies selectively inhibited steady-state expression of mRNA for genes associated with osteoblast differentiation; mRNA levels for alkaline phosphatase and osteocalcin were suppressed, whereas fibronectin, type I collagen and osteopontin were unaffected. To identify functionally relevant domains of fibronectin, we treated cells with soluble fibronectin fragments and peptides. Cell-binding fibronectin fragments (type III repeats 6-10) containing the Arg-Gly-Asp (RGD) sequence blocked both nodule initiation and maturation, whether or not they contained a functional synergy site. In contrast, addition of the RGD-containing peptide GRGDSPK alone did not inhibit nodule initiation, although it did block nodule maturation. Thus, in addition to the RGD sequence, other features of the large cell-binding fragments contribute to the full osteogenic effects of fibronectin. Nodule formation and osteoblast differentiation resumed after anti-fibronectin antibodies or GRGDSPK peptides were omitted from the media, showing that the inhibition was reversible and the treatments were not cytotoxic. Outside the central cell-binding domain, peptides from the IIICS region and antibodies to the N terminus did not inhibit nodule formation. We conclude that osteoblasts interact with the central cell-binding domain of endogenously produced fibronectin during early stages of differentiation, and that these interactions regulate both normal morphogenesis and gene expression.
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PMID:Fibronectin regulates calvarial osteoblast differentiation. 879 25

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