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)

The purpose of this study is to differentiate roles of several growth factors and cytokines in proliferation and differentiation of pulp cells during development and repair. In human pulp cell cultures, laminin and type I collagen levels per cell remained almost constant during the whole culture period (22 days). On the other hand, secreted protein, acidic and rich in cysteine (SPARC/osteonectin) and alkaline phosphatase (ALPase) levels markedly increased after the cultures reached confluence. Laminin and type I collagen, as well as fibronectin, stimulated the spreading of pulp cells within 1 h. Adding transforming growth factor-beta (TGF-beta) decreased laminin and ALPase levels, whereas it increased SPARC and fibronectin levels 3- to 10-fold. Western and Northern blots showed that TGF-beta enhanced SPARC synthesis at the protein and mRNA levels. Basic fibroblast growth factor (bFGF) decreased type I collagen, laminin, SPARC, and ALPase levels without changing the fibronectin level. Platelet-derived growth factor (PDGF) selectively decreased laminin, SPARC, and ALPase levels. Epidermal growth factor (EGF) also decreased SPARC and ALPase levels. Tumor necrosis factor-alpha (TNF-alpha) and interleukin-1beta (IL-1beta) decreased type I collagen and laminin levels, and abolished SPARC and ALPase syntheses. Of these peptides, bFGF and PDGF showed the greatest stimulation of [3H]thymidine incorporation into DNA. TGF-beta, EGF, and TNF-alpha had less effect on DNA synthesis, whereas IL-1beta inhibited DNA synthesis. These findings demonstrated that TGF-beta, bFGF, EGF, PDGF, TNF-alpha, and IL-1beta have characteristically different patterns of actions on DNA, laminin, type I collagen, fibronectin, ALPase, and SPARC syntheses by pulp cells.
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PMID:Differential effects of various growth factors and cytokines on the syntheses of DNA, type I collagen, laminin, fibronectin, osteonectin/secreted protein, acidic and rich in cysteine (SPARC), and alkaline phosphatase by human pulp cells in culture. 942 6

Basic fibroblast growth factor (bFGF) was shown to enhance rat stromal bone marrow cells in culture to produce mineralized bone-like tissue in response to dexamethasone (Dex) treatment (Pitaru et al., J Bone Miner Res 8:919; 1993). The purpose of this study was to explore the effect of bFGF on Dex-treated human stromal bone marrow cells (hSBMC) in culture. Human SBMC from 6 patients were cultured for 14 days (P0) and then subcultured and grown for 28 days in the presence of Dex (10(-8) mol/L). The effect of bFGF on cell proliferation at P0 and protein content, DNA content, alkaline phosphatase activity (ALP), osteocalcin secretion, and formation of mineralized bone-like tissue (MBT) at P1 was analyzed. bFGF treatment resulted in a 2.4-fold increase in cell number at P0 and a concentration-dependent increase in [3H]-thymidine incorporation at P1, reaching a maximum increase of 3.7-fold at a concentration of 0.3 ng/mL. Furthermore, bFGF significantly increased both DNA content (two- to threefold), protein content (five- to sixfold), and the amount of MBT (up to 20-fold) at P1 cultures. Morphological evaluation of the MBT at the electron microscope level revealed a mineralization process along collagen fibrils similar to the natural process. The osteogenic nature of the bFGF-treated cultures was further shown by their ALP activity, as well as osteocalcin secretion in response to 1,25-dihydroxyvitamin D3. In conclusion, bFGF demonstrated a stimulatory effect on the proliferation of Dex-treated hSBMC-derived osteoprogenitors while maintaining their capacity to fully differentiate and form bone-like tissue in culture.
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PMID:Basic fibroblast growth factor enhances the growth and expression of the osteogenic phenotype of dexamethasone-treated human bone marrow-derived bone-like cells in culture. 970 69

When Xenopus embryos from mid-tailbud to early tadpole stages were exposed to retinoic acid (RA), the gut developed with an uncoiled, straight intestinal tube, morphogenesis of the liver and stomach was affected and intestinal epithelial cells developed without a brush border and alkaline phosphatase activity. However, the temporal and spatial expression pattern of X1Hbox 8, the only homeobox gene expressed in the endoderm was unaffected. In lateral plate mesodermal cells the expression of alpha-smooth muscle (SM) actin was delayed. A similar syndrome has been reported in a study of embryos lacking functional FGF receptors in which it was proposed that the uncoiled intestinal tube and the delayed differentiation of the intestinal muscle cells are causally related. Our results support this proposition and further suggest that mesenchymal-epithelial interactions concerned with regional specification of the endoderm may be impaired resulting in other defects in the gut.
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PMID:Effects of retinoic acid on the endoderm in Xenopus embryos. 971 22

Basic fibroblast growth factor (FGF-2; bFGF) is a major mitogen for connective tissue cells, and participates in the healing process. It has already been reported that FGF-2 could be applicable to enhance periodontal regeneration. In the present study, we examined FGF receptor (FGFR) expression on human periodontal ligament (PDL) cells. The binding of [125I]-labeled FGF-2 to human PDL cells was studied by radioreceptor assay. The binding of [125I]-FGF-2 to PDL cells reached a plateau after 2.5 h incubation at 4 degrees C and was inhibited by the addition of unlabeled FGF-2 and acidic FGF (FGF-1; aFGF), but not insulin-like growth factor-I, platelet-derived growth factor and transforming growth factor-beta 1. Scatchard analysis revealed the presence of approximately 1.0 x 10(5) FGF-2 binding sites per cell with an apparent Kd of 1.2 x 10(-10) M. Interestingly, the binding of [125I]-FGF-2 on PDL cells reached its maximum at d 6 of the culture and then gradually decreased. Scatchard analysis also demonstrated that the number of FGFRs on a PDL cell was altered during the course of the culture, while the affinity between FGF-2 and its receptor was not. The responsiveness of PDL cells to FGF-2, which was monitored by the inhibitory effect on alkaline phosphatase activity, was reduced in proportion to the decrease in the number of FGFRs on the PDL cells. The present study suggests that PDL cells alter the responsiveness to FGF-2 during the course of the culture by changing the density of its receptor, and that the density of FGFR expression might be a marker of the cytodifferentiation of PDL cells into mineralized tissue forming cells.
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PMID:Expression of receptors for basic fibroblast growth factor on human periodontal ligament cells. 977 81

Fibroblast growth factor receptors (FGFRs) play major roles in skeletogenesis, and activating mutations of the human FGFR1, FGFR2 and FGFR3 genes cause premature fusion of the skull bones (craniosynostosis). We have investigated the patterns of expression of Fgfr1, Fgfr2 and Fgfr3 in the fetal mouse head, with specific reference to their relationship to cell proliferation and differentiation in the frontal and parietal bones and in the coronal suture. Fgfr2 is expressed only in proliferating osteoprogenitor cells; the onset of differentiation is preceded by down-regulation of Fgfr2 and up-regulation of Fgfr1. Following up-regulation of the differentiation marker osteopontin, Fgfr1, osteonectin and alkaline phosphatase are down-regulated, suggesting that they are involved in the osteogenic differentiation process but not in maintaining the differentiated state. Fgfr3 is expressed in the cranial cartilage, including a plate of cartilage underlying the coronal suture, as well as in osteogenic cells, suggesting a dual role in skull development. Subcutaneous insertion of FGF2-soaked beads onto the coronal suture on E15 resulted in up-regulation of osteopontin and Fgfr1 in the sutural mesenchyme, down-regulation of Fgfr2, and inhibition of cell proliferation. This pattern was observed at 6 and 24 hours after bead insertion, corresponding to the timing and duration of FGF2 diffusion from the beads. We suggest (a) that a gradient of FGF ligand, from high levels in the differentiated region to low levels in the environment of the osteogenic stem cells, modulates differential expression of Fgfr1 and Fgfr2, and (b) that signalling through FGFR2 regulates stem cell proliferation whereas signalling through FGFR1 regulates osteogenic differentiation.
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PMID:Fgfr1 and Fgfr2 have distinct differentiation- and proliferation-related roles in the developing mouse skull vault. 1057 38

The blood-brain barrier (B-BB) protects the free passage of substances into the brain and maintains the homeostasis of the central nervous system. It is commonly accepted that astrocytes surrounding brain endothelial cells influence the B-BB formation and the exhibition of B-BB function of capillaries. To begin the in vitro study on the B-BB, it is essential to obtain a homogenous and sufficient supply of brain endothelial cells as well as astrocytes. We thus immortalized the bovine brain endothelial cell (BBEC) by transfection of the SV40 large T antigen and obtained a single clone, t-BBEC-117, which retained the brain endothelial cell phenotype. Astrocyte in co-culture was found to tighten the intercellular contacts of the immortal cells resulting in a reduced L-glucose permeability, and its conditioned medium (CM) augmented a B-BB phenotype, alkaline phosphatase (ALP) activity. Among known astrocytic factors, only fibroblast growth factor-basic (bFGF) could mimic the actions of astrocytes as measured by L-glucose permeability and ALP activity. Moreover, anti-bFGF antibody canceled 90% of ALP activation by astrocyte CM. Basic FGF, however, failed to induce other B-BB phenotypes such as the expressions of multidrug resistance (mdr) and glucose transporter (GLUT-1) genes. These data suggest that bFGF is one of the most plausible astrocytic factors to induce the B-BB properties of immortal brain endothelial cells together with some unknown factors in the astrocyte CM.
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PMID:Induction of blood-brain barrier properties in immortalized bovine brain endothelial cells by astrocytic factors. 1061 19

We previously reported that combined treatment with bone morphogenetic protein-2 (BMP-2) and fibroblast growth factor-4 (FGF-4) induces cardiogenic events culminating in full cardiac differentiation of non-precardiac mesoderm explanted from stage 6 avian embryos (Lough et al. [1996] Dev. Biol. 178:198-202.). To elucidate the respective functions of BMP and FGF in initiating and maintaining the cardiogenic process, we have used these ectopic cells as a cardiac specification model to ascertain requirements for growth factor specificity and extent of application, as well as induction of cardiac transcription factors. The inability of some BMP isoforms to replace the inductive activity of BMPs-2/4 indicated a specific requirement for this signaling pathway; moreover, neither activin-A nor insulin, which support terminal differentiation of precardiac mesoderm, nor leukocyte inhibitory factor (LIF), which promotes hypertrophy in cardiac myocytes, could replace BMP's cardiogenic activity. A similarly specific requirement for FGF-2/4 signaling was revealed since neither FGF-7, activin-A nor insulin could replace this activity. The effect of both factors was concentration-dependent; maximal incidence of explant differentiation for each occurred at 50 ng/ml. Surprisingly, the majority of explants treated with high BMP levels (250 ng/ml) exhibited a non-cardiac phenotype that was characterized by intense expression of alkaline phosphatase, suggesting differentiation toward an alternative mesodermal phenotype. Experiments to assess the duration of exposure to each factor that was required revealed that while exposure to BMP and FGF during only the initial 30 min of a 48-hr culture period was sufficient to induce cardiogenesis in a significant percentage of explants, 100% incidence of explant differentiation was obtained only when FGF treatment was restricted to the first 30 min and BMP was continuously present during the 48-hr culture period. Treatment with both growth factors was required to induce the cardiac transcription factors cNkx-2.5 and SRF; neither mRNA was induced by BMP or FGF alone. These findings indicate that: (1) specific members of the BMP and FGF families are required to induce cardiogenesis in non-precardiac mesoderm; (2) BMPs-2/4 may function as a morphogen; (3) brief application of both factors can induce cardiogenesis in a modest number of explants whereas (4) 100% incidence of explant differentiation can only be attained by brief FGF treatment combined with continuous BMP treatment and (5) both factors are necessary to induce downstream cardiac transcription factors. These findings are interpreted in terms of these factors' possible roles during cardiac specification and differentiation.
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PMID:Requirement for BMP and FGF signaling during cardiogenic induction in non-precardiac mesoderm is specific, transient, and cooperative. 1084 64

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

Progressive growth and metastasis of solid tumors require angiogenesis, or the formation of new blood vessels. Endostatin is a 20-kDa carboxy-terminal fragment of collagen XVIII that has been shown to inhibit endothelial cell proliferation and tumor angiogenesis. Replication-deficient recombinant adenovirus (rAd) vectors were constructed, which encoded secreted forms of human and mouse endostatin (HECB and MECB, respectively), and, as a control, human alkaline phosphatase (APCB). Accumulation of endostatin was demonstrated in supernatants of cultured cells infected with the endostatin rAds. These supernatants disrupted tubule formation, inhibited migration and proliferation, and induced apoptosis in human dermal vascular endothelial cells or human vascular endothelial cells. Endostatin-containing supernatants had no effect on the proliferation of MidT2-1 mouse mammary tumor cells in vitro. A pharmacokinetic study of MECB in immunocompetent FVB mice demonstrated a 10-fold increase of serum endostatin concentrations 3 days after intravenous administration of 1x10(10) particles of this rAd (215-257 ng/mL compared to 12-38 ng/mL in control rAd-treated mice). Intravenous administration of MECB reduced b-FGF stimulated angiogenesis into Matrigel plugs by 38%. Intratumoral MECB inhibited growth of MidT2-1 syngeneic mammary tumors in FVB mice, but had minimal impact on the growth of MDA-MB-231 human breast tumors in SCID mice. Intravenous therapy with MECB also initially inhibited growth of MidT2-1 tumors, but this activity was subsequently blocked by induced anti-rAd antibodies. In summary, endostatin gene therapy effectively suppressed angiogenic processes in vitro and in vivo in several model systems.
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PMID:Evaluation of endostatin antiangiogenesis gene therapy in vitro and in vivo. 1178 61

We developed and used real-time RT-PCR assays to investigate how the expression of typical osteoblast-related genes by human bone marrow stromal cells (BMSC) is regulated by (i) the culture time in medium inducing osteogenic differentiation and (ii) the previous expansion in medium enhancing cell osteogenic commitment. BMSC from six healthy donors were expanded in medium without (CTR) or with fibroblast growth factor-2 and dexamethasone (FGF/Dex; these factors are known to increase BMSC osteogenic commitment) and further cultivated for up to 20 days with ascorbic acid, beta-glycerophosphate and dexamethasone (these factors are typically used to induce BMSC osteogenic differentiation). Despite a high variability in the gene expression levels among different individuals, we identified the following statistically significant patterns. The mRNA levels of bone morphogenetic protein-2 (BMP-2), bone sialo protein-II (BSP), osteopontin (OP) and to a lower extent cbfa-1 increased with culture time in osteogenic medium (OM), both in CTR- and FGF/Dex-expanded BMSC, unlike levels of alkaline phosphatase, collagen type I, osteocalcin, and osteonectin. After 20 days culture in OM, BMP-2, BSP, and OP were more expressed in FGF/Dex than in CTR-expanded BMSC (mRNA levels were, respectively, 9.5-, 14.9-, and 5.8-fold higher), unlike all the other investigated genes. Analysis of single-colony-derived strains of BMSC further revealed that after 20 days culture in OM, only a subset of FGF/Dex-expanded clones expressed higher mRNA levels of BMP-2, BSP, and OP than CTR-expanded clones. In conclusion, we provide evidence that mRNA levels of BMP-2, BSP, and OP, quantified using real-time RT-PCR, can be used as markers to monitor the extent of BMSC osteogenic differentiation in vitro; using those markers, we further demonstrated that only a few subpopulations of BMSC display enhanced osteogenic differentiation following FGF/Dex expansion.
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PMID:Real-time quantitative RT-PCR analysis of human bone marrow stromal cells during osteogenic differentiation in vitro. 1196 14


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