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

Chronic administration of the estrogen 17 beta-estradiol induces kidney tumors in male Syrian hamsters within 6 months of initial exposure. Although these tumors have previously been studied histologically and histochemically and have been postulated to be derived from proximal tubular and/or interstitial cells, there exists no unambiguous evidence for an epithelial or mesenchymal origin. To elucidate the histogenesis of these neoplasms, kidney sections of hamsters treated with estradiol for 4, 5, and 6 months and age-matched untreated controls were investigated histologically and histochemically. Proliferating foci were observed in kidneys exposed to estradiol for 5 and 6 months. They consisted of clusters of spindle-shaped cells forming solid blocks, cords, or branches located between tubules. These foci were judged to be precursors of larger tumors identified in the latter treatment group. The histological and histochemical profile of foci and tumors matched closely. These lesions were marked by very high activities of alkaline phosphatase, adenyl cyclase, and glucose 6-phosphate dehydrogenase. In contrast, glycogen content and activities of glucose 6-phosphatase, succinate dehydrogenase, and gamma-glutamyl transpeptidase were low or absent. Immunofluorescence of the intermediate filaments revealed that foci and tumors solely expressed vimentin and desmin but not cytokeratin. The morphology, enzyme histochemical pattern, and immunofluorescence strongly support a mesenchymal origin of the estradiol-induced hamster kidney tumors studied. The neoplasms were probably derived from vascular smooth muscle cells of a cell subtype particularly sensitive to hormonal stimulation and transformation.
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PMID:Histochemical analysis of the development of estradiol-induced kidney tumors in male Syrian hamsters. 244 29

Two new bone cell lines were established by immortalizing cells derived from embryonic rat calvariae with a recombinant retrovirus containing the cDNA for SV-40 large T antigen and the neomycin resistance gene. One cell line, RCT-1, isolated from early digest cells, a population which typically does not express osteoblastic features, displayed osteoblastic characteristics only after 3 days of treatment with 1 microM retinoic acid: alkaline phosphatase activity increased from 0.003 to 0.25 mumol/min.mg protein, the steady state level of type I procollagen mRNA increased 4-fold, and the cells acquired a PTH-stimulatable adenylate cyclase (EC50, 10 nM). mRNA for osteopontin, an abundant bone matrix protein, was induced in RCT-1 cells by 1,25-dihydroxyvitamin D3 (10 nM). The second cell line, RCT-3, isolated from late digest cells, a population previously shown to be enriched with differentiated osteoblasts, expressed constitutively the properties described above. In addition, RCT-3 cells responded to interleukin-1 by increased prostaglandin production (EC50, 20 pM) and to prostaglandin E2 by enhanced cAMP accumulation, features exhibited by calvarial cells in organ culture. Thus, the SV-40 immortalized cell lines we describe retained many of the characteristics of osteoblasts in primary culture, including hormonal regulation of phenotype-related genes. In RCT-1 cells the coordinate induction of several properties by retinoic acid offers a new model for the study of differentiation-related gene expression in bone cells.
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PMID:Rat calvarial cell lines immortalized with SV-40 large T antigen: constitutive and retinoic acid-inducible expression of osteoblastic features. 247 May 84

In rat osteosarcoma (ROS 17/2.8) cells, which express osteoblastic features in culture, basic fibroblast growth factor (bFGF) reduces the level of alkaline phosphatase, type I collagen, and osteocalcin mRNA and increases osteopontin mRNA, independent of growth stimulation. The fibroblast growth factor (FGF) effects are dose dependent (EC50 about 6 pM) and are detected 24 h after addition of the growth factor. bFGF also reduces parathyroid hormone-stimulatable adenylate cyclase and alkaline phosphatase activity in these cells. Concomitant treatment with pertussis toxin (20 ng/ml) opposes the FGF effects. Although cyclic AMP elevating agents mimic pertussis toxin action on some parameters, they produce opposite effects on others, indicating that antagonism between pertussis toxin and bFGF is not mediated by cyclic AMP. bFGF caused a small reduction in steady state NAD-dependent ADP-ribosylation and had no detectable effects on the steady-state levels of the Gi alpha (alpha subunit of the inhibitory G protein) 1, 2, and 3, visualized with specific antibodies in these cells. Although the site of interaction of pertussis toxin and FGF remains to be determined, the findings presented here suggest separate control of growth and differentiation by bFGF and show that pertussis toxin treatment can modulate differentiation in these cells, presumably via Gi proteins.
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PMID:Opposing effects of fibroblast growth factor and pertussis toxin on alkaline phosphatase, osteopontin, osteocalcin, and type I collagen mRNA levels in ROS 17/2.8 cells. 247 40

RAS1 and RAS2 proteins of Saccharomyces cerevisiae are guanine nucleotide-binding proteins involved in the regulation of adenylate cyclase. In this paper, we report that these proteins are phosphorylated. The phosphorylation of RAS1 protein is demonstrated by treating with alkaline phosphatase as well as by labeling with [32P]orthophosphate. The phosphorylation occurs exclusively on serine residues and phosphorylated RAS1 protein is predominantly membrane localized. The phosphorylation of RAS2 protein is demonstrated by similar 32P-labeling experiments. The phosphorylation occurs exclusively on serine residues and phosphopeptide analyses suggest that only two major phosphorylated tryptic peptides are generated from the RAS2 protein. These results provide evidence for the phosphorylation of RAS proteins in vivo. Furthermore, our demonstration that the phosphorylation occurs exclusively on serine residues and that the RAS2 protein contains only two major phosphorylated tryptic peptides argues that the phosphorylation may be physiologically significant.
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PMID:Phosphorylation of RAS1 and RAS2 proteins in Saccharomyces cerevisiae. 249 65

Cells derived from embryonic rat calvariae were immortalized by retroviral delivery of cDNA for the SV-40 large T antigen and the bacterial neomycin resistance gene. After selection with G418, cells were cloned by limiting dilution and screened for expression of osteoblast characteristics. One clone (RCT-3), derived from cells collected during the third period of enzymatic digestion, showed high constitutive expression of alkaline phosphatase (ALP), synthesized type I collagen in the virtual absence of type III and exhibited a parathyroid hormone (PTH)-responsive adenylate cyclase (EC50, 10 nM). Messenger RNAs for osteonectin and osteopontin were present in RCT-3 cells and osteopontin mRNA was enhanced by 1,25 (OH)2 vitamin D3 treatment. The other cell line (RCT-1), derived from cells released during the first 10 min of digestion, expressed osteoblast features only after 3 d treatment with 1 microM retinoic acid (RA). ALP activity increased from 0.003 to 0.25 mumole/min/mg protein, there was a substantial increase in the steady-state level of type I collagen mRNA and a dose-dependent and saturable response to PTH was induced (EC50, 10 nM). Osteopontin mRNA was induced by 1,25 (OH)2D3. This study has provided two new cell lines which may be useful models for studies of differentiation-related gene expression in bone cells.
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PMID:SV-40 large-T immortalization of embryonic bone cells: establishment of osteoblastic clonal cell lines. 261 49

Acidic (a) and basic (b) fibroblast growth factors (FGFs) are two related mitogenic and angiogenic factors. They are multifunctional in that they can affect proliferation and induce or delay differentiation. Both aFGF and bFGF were shown to stimulate proliferation of calvaria cells in situ as well as osteoblast-enriched calvaria-derived cells. bFGF was also found to suppress the expression of alkaline phosphatase, parathyroid hormone stimulatable adenylate cyclase, osteocalcin, and type I collagen in the osteoblastic ROS 17/2.8 cells. To explore a possible role for guanine nucleotide binding proteins we assessed the effects of pertussis toxin (PT) on FGF action. PT had opposite effects to those of bFGF on all parameters examined.
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PMID:Effects of acidic and basic fibroblast growth factors on osteoblastic cells. 261 59

Numerous reports have appeared in the literature indicating phenotypic heterogeneity among cells of the osteoblastic lineage. This diversity may be due to either certain stages of differentiation or a subspecialization of already terminally differentiated osteoblasts. To obtain answers to this question, we report on studies undertaken to clone bone cell populations from 1 day postnatal rat calvaria which express well defined differences in phenotype. To achieve this goal, we have used the soft agarose cloning technique which previously has almost exclusively been applied to clone cells of neoplastic origin. The reason for being able to employ this method is based on the fact that bone cells can be induced by transforming growth factor-beta to reversibly acquire the transformed phenotype, an event expressed by anchorage-dependent bone cells to form progressively growing colonies in soft agarose. Individual colonies, harvested from agarose, were expanded to clonal bone cell populations. Characterizing 48 cell clones by detection of osteoblastic cell markers such as alkaline phosphatase activity, PTH- and prostaglandin-E2-induced adenylate cyclase activity, osteocalcin mRNA synthesis, as well as collagen synthesis, 7 subsets of osteoblastic cell types were identified. Each subset was found to express a distinct phenotype, indicated by the absence or presence of osteoblastic cell markers. Some clones, previously found not to exhibit any osteoblastic traits, developed PTH responsiveness when treated with insulin-like growth factor-I/transforming growth factor-beta, suggesting that these clones may originate from the osteoprogenitor cell pool. While most clonal cell populations were characterized as fully functional osteoblastic cells, some clones expressed merely 1, 2, or 3 osteoblastic markers, which suggests that they may represent stages of differentiation along the osteogenic pathway. In addition, other subclones displayed the capacity to synthesize osteocalcin and showed PTH and prostaglandin-E2 responsiveness, but were found to be devoid of alkaline phosphatase activity. Others expressed all osteoblastic cell markers except PTH responsiveness. The phenotypic constellation of the latter suggests that these cell clones may represent mature osteoblast-like cells, which, perhaps due to environmental circumstances present at the time of isolation, have become altered in accordance with the physiological requirements of the tissue.
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PMID:Evidence for heterogeneity of the osteoblastic phenotype determined with clonal rat bone cells established from transforming growth factor-beta-induced cell colonies grown anchorage independently in semisolid medium. 267 79

The effect of several prostaglandins (PGs) on osteoblastic cells was investigated using clone MC3T3-E1 under serum-free conditions. PGA1, A2, B1, and B2 had little effect on intracellular cAMP, alkaline phosphatase (ALP) activity, and DNA synthesis in the cells. At 4-2000 ng/ml, PGE1 among PG analogs tested had a dose-dependent stimulatory effect on ALP activity in the cells, and this effect was amplified by isobutyl methylxanthine. Also, PGE1 strongly augmented the amount of intracellular cAMP over the same concentration range. However, PGE1 had little effect on ornithine decarboxylase activity and DNA synthesis, and at high doses it rather depressed DNA synthesis. Furthermore, PGE1 did not affect the intracellular cGMP level. The effect of PGE1 on the cells closely mimics that of forskolin, suggesting that the PG stimulates the differentiation of the osteoblastic cells predominantly via the stimulation of adenylate cyclase. In contrast with PGE1, PGF2 alpha strongly increased ornithine decarboxylase activity and DNA synthesis in the cells in a dose-related fashion at low concentrations (4-100 ng/ml), at which concentrations it had little effect on the intracellular cAMP or cGMP level and depressed ALP activity. Moreover, PGF2 alpha depressed the stimulatory effect of PGE1 on ALP activity but did not affect the elevation of cAMP level by PGE1. The accumulation of inositol phosphates was greatly increased by PGF2 alpha in the concentration range effective in stimulating DNA synthesis, but was increased little by PGE1, suggesting that PGF2 alpha is a potent stimulator of phosphatidyl inositol turnover in the cells. In addition, A23187, a Ca ionophore, alone did not influence the DNA synthesis, but the effects of tetradecanoyl phorbol acetate, a direct activator of protein kinase C, were very similar to those of PGF2 alpha. Moreover, the stimulation of DNA synthesis or the inhibition of ALP activity by PGF2 alpha was partially counteracted by H-7, a strong inhibitor of protein kinase C. These results suggest that PGF2 alpha stimulates the proliferation of osteoblastic cells predominantly through the phosphatidyl inositol turnover system following in part the activation of protein kinase C. Our data presented here indicate that PGE1 and PGF2 alpha are closely involved in the differentiation and proliferation, respectively, of osteoblasts in vitro and that their action may be mediated by second messengers which differ from each other.
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PMID:Prostaglandin E1 and F2 alpha stimulate differentiation and proliferation, respectively, of clonal osteoblastic MC3T3-E1 cells by different second messengers in vitro. 282 76

Retinoic acid (RA) inhibits the increases in alkaline phosphatase (AP) and hormone-stimulated adenylate cyclase that accompany the growth of ROS 17/2.8 osteosarcoma cells in culture. The RA effects were first detected 2 days after initiation of treatment and were dose dependent, with an EC50 of 100 nM. The reduction in the hormone-responsive adenylate cyclase activity was associated with lower levels of beta-catecholamine receptors, without a change in apparent receptor affinity and with lower levels of the GTP-binding proteins Gs and Gi, visualized by NAD-dependent [32P]ADP ribosylation. The reduction in AP was correlated with a decrease in the steady state level of AP mRNA. RA had no effect on cell proliferation or saturation density. Retinoids thus inhibit the same features that are promoted by glucocorticoids in ROS 17/2.8 cells. These features seem to be subject to coordinate regulation, probably at the pretranslational level.
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PMID:Effects of retinoic acid on alkaline phosphatase messenger ribonucleic acid, catecholamine receptors, and G proteins in ROS 17/2.8 cells. 282 98

A tumor-derived factor believed to cause hypercalcemia by acting on the parathyroid hormone (PTH) receptor was recently purified, cloned, and found to have NH2-terminal sequence homology with PTH. The 1-34 region of this protein was synthesized, evaluated for its postreceptor effects on the ROS 17/2.8 cell line, and its properties were compared to 1-34 PTH. Both 1-34 human humoral hypercalcemia factor (HCF) and 1-34 PTH stimulated adenylate cyclase with an effective concentration (EC)50 of approximately 1 nM. The extent of stimulation by both peptides was equally enhanced by dexamethasone. They both had a pronounced inhibitory effect on growth in the presence of dexamethasone, with an EC50 of approximately 0.1 nM, reduced alkaline phosphatase (AP) activity by approximately 70% in the absence of dexamethasone and by approximately 80% in the presence of dexamethasone with an EC50 of 0.03 nM, and when present at a concentration of 10 nM, reduced AP mRNA levels (estimated by Northern analysis) by approximately 80% in the presence or absence of dexamethasone. Thus, in addition to similar dose-response curves for adenylate cyclase stimulation, both HCF and PTH produced identical postreceptor effects in ROS 17/2.8 cells. These effects of HCF are probably mediated by the interaction of the tumor-derived factor with the PTH receptor.
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PMID:Comparison of postreceptor effects of 1-34 human hypercalcemia factor and 1-34 human parathyroid hormone in rat osteosarcoma cells. 283 Mar 17


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