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)

Expression of several cellular and matrix proteins which increase significantly during the maturation of growth plate cartilage has been shown to be affected by various endocrine and autocrine factors. In the studies reported here, transforming growth factor-beta (TGF-beta 1) and basic fibroblast growth factor (bFGF) were administered to primary cultures of avian growth plate chondrocytes at pre- or post-confluent stages to study the interplay that occurs between these factors in modulating chondrocytic phenotype. Added continuously to pre-confluent chondrocytes, TGF-beta 1 stimulated the cells to produce abundant extracellular matrix and multilayered cell growth; cell morphology was altered to a more spherical configuration. These effects were generally mimicked by bFGF, but cell shape was not affected. Administered together with TGF-beta 1, bFGF caused additive stimulation of protein synthesis, and alkaline phosphatase (AP) activity was markedly, but transiently enhanced. During this pre-confluent stage, TGF-beta 1 also increased fibronectin secretion into the culture medium. Added to post-confluent cells, TGF-beta 1 alone caused a dosage-dependent suppression of AP activity, but bFGF alone did not. Under these conditions, TGF-beta 1 and bFGF had little effect on general protein synthesis, but TGF-beta 1 alone caused large, dosage-dependent increases in synthesis of fibronectin, and to some extent type II and X collagens. Given together with bFGF, TGF-beta 1 synergistically increased secretion of fibronectin. These findings reveal that regulation of phenotypic expression in maturing growth plate chondrocytes involves complex interactions between growth factors that are determined by timing, level, continuity, and length of exposure.
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PMID:Modulation of cultured chicken growth plate chondrocytes by transforming growth factor-beta 1 and basic fibroblast growth factor. 140 Jun 24

An established pulp cell line (RPC-C2A) was used to study the regulatory effect of insulin on dentinogenesis. Insulin increased alkaline phosphatase activity and the incorporation of [2,3-3H]-proline into collagenase-digestible protein, whereas [3H]-thymidine incorporation by the cells was inhibited by insulin. The enhancing effect of insulin on alkaline phosphatase activity was inhibited by epidermal growth factor (EGF) or transforming growth factor-beta (TGF-beta). The stimulatory effect of insulin on collagen synthesis was also inhibited when insulin was combined with EGF, but was accelerated by the addition of TGF-beta. Inhibitory effects of insulin on the [3H]-thymidine incorporation were potentiated by EGF, though EGF alone strongly increased the effect; whereas the addition of TGF-beta had no significant effect on the insulin action. These findings suggest that insulin may be concerned with the differentiation of pulp cells in dentinogenesis and that EGF or TGF-beta regulate the insulin effects.
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PMID:Effects of epidermal growth factor and transforming growth factor-beta on insulin-induced differentiation in rat dental pulp cells. 144 91

We developed a new 4-dimensional differentiation model of growth-cartilage cells (temporally and spatially regulated). composed of a high-density suspension culture of rabbit costal chondrocytes. In this system, fibroblast growth factor (FGF) or transforming growth factor-beta (TGF beta) stimulated proliferation and matrix synthesis, but reversibly inhibited terminal differentiation-induction of alkaline phosphatase (Alpase) activity, type X collagen synthesis and subsequent calcification. When parathyroid hormone (PTH) was added to the differentiation model, both the induction of Alpase and calcium uptake were reversibly suppressed. In contrast, calcitonin (CT) stimulated Alpase activity and calcium uptake dose-dependently. Bone morphogenetic protein (BMP) strongly stimulated DNA synthesis of chondrocytes in the presence of FGF and induced rapid maturation of chondrocytes at a growing stage. Moreover, BMP stimulated Alpase activity in multilayered chondrocytes at the calcifying stage.
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PMID:Effects of various growth factors on a chondrocyte differentiation model. 149 10

A 25-kDa homodimeric protein was purified from demineralized bovine bone extract and identified as activin A. The bovine bone activin enhanced formation of ectopic bone in rat subcutis when implanted in combination with partially purified bovine bone morphogenetic protein (BMP-2, BMP-3) in collagen/ceramic carrier. The implants, removed at 14 days, contained markedly elevated levels of alkaline phosphatase activity. Histological examination revealed an extensive formation of woven bone with very little cartilage. In contrast, a combination of transforming growth factor-beta 2 and BMP promoted formation of bone with an abundance of cartilage. The implants with BMP alone exhibited some osteoinductive activity, while the implants with activin alone showed no activity. These results demonstrate that bone is a rich source of activin and that activin plays an important role in modulating bone formation.
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PMID:Bovine bone activin enhances bone morphogenetic protein-induced ectopic bone formation. 162 19

We investigated the effects that the combination of IL-1 alpha and transforming growth factor-beta (TGF-beta) had on PGE2 production in a murine clonal osteoblastic cell line MC3T3-E1 and primary rat calvarial osteoblast-like cells. In serum-supplemented medium, IL-1 alpha was a potent stimulator of PGE2 production in MC3T3-E1 cells (50-fold increase with 0.1 ng/ml). TGF-beta (10 ng/ml) had only a small effect alone and no additional effect on IL-1 alpha-induced responses. In serum-deprived MC3T3-E1 cells, PGE2 responses to IL-1 alpha were either absent or markedly reduced. TGF-beta alone had small effects. However, simultaneous addition of TGF-beta with IL-1 alpha to MC3T3-E1 cells partially restored the ability of IL-1 alpha to generate a PGE2 response (10-fold increase in PGE2 with 0.1 ng/ml of both IL-1 alpha and TGF-beta). As with MC3T3-E1 cells, serum-deprived primary fetal rat calvarial osteoblastic cells also did not respond to IL-1 alpha, unless TGF-beta was present in the medium (sixfold increase in PGE2 with 0.1 ng/ml IL-1 alpha and 10 ng/ml TGF-beta). The synergistic effect of TGF-beta and IL-1 alpha was specific for PGE2 responses, because these factors did not synergistically affect cell proliferation, collagen and noncollagen protein synthesis, or alkaline phosphatase activity. The observed synergy was not associated with changes in the steady state cyclooxygenase (PGH synthase) mRNA levels. However, it did correlate with increased release of [3H]arachidonic acid from prelabeled serum-depleted MC3T3-E1 cells. Hence, the synergistic interactions of IL-1 alpha and TGF-beta on PGE2 appear to occur through an increase in the release of arachidonic acid substrate from phospholipid pools. These effects may be important for both normal bone turnover and the responses of bone to inflammatory and immune stimuli.
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PMID:Effects of transforming growth factor-beta and IL-1 alpha on prostaglandin synthesis in serum-deprived osteoblastic cells. 170 13

Although transforming growth factor-beta (TGF-beta) has been implicated in the local regulation of bone growth and remodelling, its specific effects on different subpopulations of bone cells have not been elucidated. Cells derived from bone are known to be heterogeneous and include both cells of different lineages and osteoblastic populations with different levels of expression of osteoblast-associated properties. Consequently, we have isolated clonal populations of bone cells to examine more precisely the effects of TGF-beta on individual subpopulations. Several clonal populations were isolated by limiting dilution from cells derived from 21-day-old fetal rat calvaria. Two of these clones, RCA 11 and RCB 2, were used here. While the two clones responded similarly to parathyroid hormone (PTH) and isoproterenol (ISP) with increases in intracellular cAMP, prostaglandin E2 (PGE2) elicited a 10-fold higher response in RCB 2 cells compared with RCA 11. RCB 2 cells expressed a 10-fold higher alkaline phosphatase activity compared with RCA 11. Both clones synthesized a variety of bone matrix associated proteins, but only RCA 11 synthesized SPP-1 (osteopontin) constitutively. TGF-beta stimulated growth of RCB 2 cells after 24 and 48 h of treatment, but had no effect on growth of RCA 11. TGF-beta supported anchorage-independent growth of RCB 2 cells, but not that of RCA 11. A 24-h exposure to TGF-beta decreased cAMP responsiveness to PTH and ISP slightly in both clones, but had no effect on PGE2 responses. Significant reductions in alkaline phosphatase activity were seen in both clones after 24- and 48-h treatments with TGF-beta.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of transforming growth factor-beta on normal clonal bone cell populations. 185 16

This report describes the relationship between bone formation and mRNA levels for selected bone proteins. Dynamic bone histomorphometry was used to measure bone formation in tibial periosteum of male rats from weanling (3 wk) to 52 wk old. Northern blot analysis of freshly isolated periosteal cells from the long bones was used to determine steady-state mRNA levels for the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAP), the bone matrix proteins osteocalcin (BGP), and prepro-alpha-2 (I) chain of type 1 precollagen (collagen), the osteoblast marker enzyme alkaline phosphatase (AP), and the osteoblast-derived signaling factor (growth factor) transforming growth factor-beta (TGF-beta). Radial growth at the tibial diaphysis achieved a maximum value in 8-wk-old rats and decreased progressively with age thereafter. This age-related decrease in the radial growth rate was initially due to reduced osteoblast activity; however, in older rats (greater than 17 wk old) reduced osteoblast number contributed to the decrease in bone formation. There was a strong correlation between the steady-state mRNA level for collagen and the periosteal bone formation rate. In contrast, the mRNA levels for the other bone proteins were more weakly correlated (TGF-beta and AP) or not correlated (BGP). These results suggest that the decreased bone matrix synthesis by periosteal cells in long bones of maturing rats is due to decreased expression of genes for bone matrix proteins.
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PMID:Correlation between mRNA levels for bone cell proteins and bone formation in long bones of maturing rats. 188 82

The effect of transforming growth factor-beta (TGF-beta) on proliferation and differentiation of mouse clonal osteoblastic cells (MC3T3-E1) was examined in vitro in three different stages of their differentiation. Stage I (1-3 days after plating) was characterized by rapid cell growth, negligible alkaline phosphatase (ALP) activity and high proteoglycan synthesis, but low collagen production. In stage II (3-5 days after plating), proteoglycan synthesis sharply decreased and ALP activity and collagen synthesis began to increase. Stage III (7-9 days after plating) was characterized by maximal osteoblastic phenotypes. Treating MC3T3-E1 cells with 1 ng/ml of TGF-beta greatly inhibited DNA synthesis in stage I but not in stage II. In contrast, TGF-beta dose-dependently stimulated the synthesis of collagenase digestible proteins (CDP), noncollagenous proteins (NCP) and proteoglycan, especially in stage II. The minimum effective dose of TGF-beta in this stage was as low as 0.04-0.2 ng/ml. In stages I and III, the MC3T3-E1 cells were rather insensitive to TGF-beta in increasing three osteoblastic phenotypes. The increase in ALP activity in stages II and III was inhibited by 1 ng/ml of TGF-beta. These results indicate that the response to TGF-beta of mouse clonal osteoblastic MC3T3-E1 cells changes depending on their maturation stages.
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PMID:Transforming growth factor-beta modulates proliferation and differentiation of mouse clonal osteoblastic MC3T3-E1 cells depending on their maturation stages. 208 82

Among several bioactive substances known as coupling factors, transforming growth factor-beta (TGF-beta), interleukin-1 (IL-1), and prostaglandin (PG) E1 and E2 increased not only the activity of alkaline phosphatase but also the rate of incorporation of 45Ca2+ into ROS 17/2.8 during a 3-day culture: the former two factors are known to be formed at the site where bone is resorbed, while PG's are known as one of the factors involved in bone resorption. Parathyroid hormone, another hormone that affects bone metabolism, elevated the incorporation of 45Ca2+ by and decreased the alkaline phosphatase activity of the cells. The facts indicate the possibility that the osteoblastic cells are involved in the transport of calcium ions when bones are being resorbed. On the other hand, when these osteosarcoma cells were cultured in DMEM containing ascorbate and beta-glycerophosphate, followed by staining with silver nitrate by the procedure of von Kossa, there appeared many groups of cells that were positively stained as dark brown spots. Cells were then cultured under the same conditions in the presence of radioactive calcium, and the radioactivity accumulated was measured. The result showed that the presence of both ascorbate and beta-glycerophosphate in the culture medium dramatically increased the accumulation of 45Ca2+. It appears from these facts that ROS 17/2.8 cells are capable of incorporating and/or accumulating calcium ion if they are cultured under appropriate conditions. These cells will probably be able to produce a calcified matrix in vitro.
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PMID:[Effects of L-ascorbic acid and bone metabolism factors on alkaline phosphatase activity of and 45Ca2+ incorporation by ROS 17/2.8 cells]. 213 81

The effect of various growth regulators including epidermal growth factor and transforming growth factor-beta on the alkaline phosphatase activity of rabbit renal cortical tubular cells has been investigated in a serum-free culture. As a result, it was found that transforming growth factor-beta, known to be a growth inhibitor of renal tubular cells, increased the alkaline phosphatase activity of the tubular cells dose-dependently and that cycloheximide blocked any increase in the activity of this factor. In contrast, epidermal growth factor decreased the alkaline phosphatase activity in the tubular cells.
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PMID:The effect of transforming growth factor-beta on the alkaline phosphatase activity in rabbit renal cortical tubular cell cultures. 226 30

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