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)

Estrogen deficiency is well recognized as a cause of bone loss in rats and humans. Likewise, treatment with estrogen results in prevention of this loss. Initially, this effect was thought to be indirectly mediated but, more recently, estrogen receptors (ER) have been reported in osteosarcoma cells and primary cultures originating from surgical waste, suggesting a direct effect of this steroid hormone. Detection of ER in skeletal tissues, however, has remained elusive. The purpose of this investigation was to establish the efficacy of the highly sensitive reverse-transcription polymerase chain reaction (RT-PCR) technique to detect ER in a well defined skeletal tissue (calvarial periosteum) that is responsive to the hormone. Primers were made specific to rat ER sequences. Total RNA was extracted from rat uterus, liver, spleen, and the periosteum using an organic solvent method. cDNA was synthesized from 2 micrograms total RNA. cDNA corresponding to 40 ng total RNA/sample produced intense PCR products for ER. In descending order of intensity were uterus, liver, bone, and spleen. Importantly, a similar time-course for estrogen-induced down-regulation of steady-state mRNA levels for alkaline phosphatase and osteonectin was observed in calvarial periosteum and tissues known to express estrogen receptors. These data provide in vivo evidence of ER mRNA in bone and suggest that at least some of estrogen's action on bone is directly modulated.
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PMID:Estrogen receptor mRNA is expressed in vivo in rat calvarial periosteum. 748 34

Although 17 beta-estradiol (E2) replacement therapy has been shown to be effective in treating postmenopausal osteoporosis, the underlying mechanism remains unclear. The presence of low levels of functional endogenous estrogen receptor (ER) in some osteoblastic cells has been demonstrated, and the suggestion that the abundance of ER may be rate-limiting in the action of E2 on these cells has been made. To study the mechanism of ER in regard to E2-mediated effects, we stably transfected a human osteosarcoma cell line, SaOS-2, with an expression vector, pMV-7-ER, containing the human ER gene. We characterized six of the stably transfected clones. One of the stable clones, SaOS-2-ER, expressed extra copies of ER genes integrated into the genome as detected by Southern blot analysis, showed a significantly increased level of ER mRNA by RT-PCR, and contained an increased level of ER cytosolic protein as detected by an ER-specific EIA. The overexpressed ER was functional and sensitive to E2 in a dose-dependent fashion after transient transfection with a vector containing an estrogen response element (ERE) linked to a chloramphenicol acetyltransferase (CAT) reporter gene. Scatchard analysis revealed a single high-affinity binding site with a Kd similar to values obtained for the ER in MCF-7 breast cancer cells. These SaOS-2-ER cells had altered osteoblast phenotypic features including growth inhibition, decreased basal alkaline phosphatase activity, and decreased IL-6 expression and secretion. In response to E2, a greater than 2-fold increase in TGF-beta 1 mRNA was quantitatively measured in these ER-overexpressing osteoblasts. These cells may provide a sensitive and unique model for understanding the mechanism of E2 and ER in overall bone metabolism.
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PMID:Generation and characterization of a human osteosarcoma cell line stably transfected with the human estrogen receptor gene. 763 12

The osteoblast-like osteosarcoma cell line ROS 17/2.8, which expresses very low levels of estrogen receptor (ER), was stably transfected with the mouse ER in order to more easily evaluate the physiological role of estrogens in bone cell homeostasis. These transfected ROS.SMER 14 cells are highly responsive to estrogenic stimulation at subconfluence, but become refractory to estrogenic stimulation when postconfluency is reached. The purpose of these studies was to determine the mechanisms underlying this loss of responsiveness in these ER stably transfected cells at postconfluence. When proliferative capacity was evaluated by bromodeoxyuridine immunocytochemistry, approximately 70% of the subconfluent cells were actively dividing, whereas none of the postconfluent cells underwent division. Subconfluent cells were found to contain 2500-3000 ER-binding sites/cell, whereas the ER in postconfluent cells was low and often undetectable. Steady state ER mRNA levels were not significantly modified by postconfluency. ER protein levels were also unaffected by confluency status. Since protein kinase-C (PKC) has been reported to influence cell proliferation and steroid hormone receptor binding, PKC activity was measured in sub- and postconfluent cells. Calcium-dependent PKC activity was approximately about 2-fold higher in postconfluent compared to subconfluent cells, whereas no differences were discerned in calcium-independent PKC activity. In an effort to examine the role of PKC in greater detail, postconfluent cells were treated with PKC inhibitors (H-7 or staurosporine) or with the tumor promoter TPA (12-O-tetradecanoylphorbol-13-acetate) to down-regulate PKC activity, and changes in ER were evaluated. Inhibition or down-regulation of the PKC activity in postconfluent cells enhanced ER-binding capacity in a dose-dependent manner and estrogen responsiveness of an exogenous reporter gene and of the endogenous alkaline phosphatase, representing an endogenous estrogen-stimulated gene. These data indicate that there is an interaction between the PKC and ER signaling systems in bone cells and that this interaction may be influenced by the proliferative and/or differentiative state of the cells, resulting in modulation of hormone responsiveness.
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PMID:Endogenous protein kinase-C activation in osteoblast-like cells modulates responsiveness to estrogen and estrogen receptor levels. 824 15

We have previously shown that the combination of estrogen (E2) and 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] enhanced alkaline phosphatase (ALP) activity in human osteosarcoma SaOS-2 cells which had been grown in the presence of 10 nmol/L dexamethasone (SaOS + DEX cells). To determine whether this increase in ALP activity was associated with changes in receptor protein levels for E2 (ER) in individual SaOS + DEX cells, a monoclonal antibody to ER and a histochemical stain for ALP were used localize the expression of these proteins in fixed cells. Western and Northern blot analyses were used to determine whether E2 and 1,25(OH)2D3 affected immunoreactive ER protein and mRNA levels, respectively. Our results showed that immunohistochemical staining for ER was primarily nuclear, whereas histochemical staining for ALP was cytosolic. Treatment of cells with 1,25(OH)2D3, E2, or E2 + 1,25(OH)2D3 increased the levels of both ER and ALP activity, as visualized by enhanced cellular staining. Western analyses showed that 1,25(OH)2D3 and E2, separately and in combination, significantly increased ER protein levels. 1,25(OH)2D3 enhanced ER levels in a dose-dependent manner [analysis of variance (ANOVA), F = 3.91, p < 0.05]; this effect was augmented by E2 (ANOVA, F = 5.98, p < 0.005). In comparison, 17 alpha-E2 + 1,25(OH)2D3 and tamoxifen + 17 beta-E2 + 1,25(OH)2D3 did not increase ER levels compared with those obtained with 17 beta-E2 + 1,25(OH)2D3. ER mRNA levels were not significantly increased by E2, 1,25(OH)2D3, or E2 + 1,25(OH)2D3 together. In contrast, in a population of SaOS cells which had been in culture longer (approximately 40 passages more) than the previous cells, E2 + 1,25(OH)2D3 did not enhance ALP activity or ER levels above those obtained with 1,25(OH)2D3 alone. These results showed that in responsive SaOS cells, E2 enhanced both the stimulatory effects of 1,25(OH)2D3 on ALP activity and the activation of ER. Thus changes in ALP activity are associated with changes in ER levels in SaOS + DEX cells.
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PMID:Immunohistochemical localization of the estrogen receptor in human osteoblastic SaOS-2 cells: association of receptor levels with alkaline phosphatase activity. 872 95

Estrogen responsiveness of bone is a fundamental regulatory mechanism operative in skeletal homeostasis. We examined the expression of estrogen receptor-alpha (ER) messenger RNA (mRNA) in cultured rat calvarial-derived osteoblasts during progressive development of the osteoblast phenotype. Levels of ER message were compared with the expression of traditional osteoblastic markers that have been mapped throughout the differentiation process of these cells. ER transcripts, measured using semiquantitative RT-PCR analysis, were expressed at low levels in early stage proliferating osteoblasts and increased at confluence upon initial expression of bone cell phenotypic genes. A 23-fold up-regulation of ER mRNA expression coincided with the initiation of alkaline phosphatase activity (day 8). ER mRNA levels progressively increased 70-fold, reaching a maximum level on days 22-25 in fully differentiated osteoblasts when osteocalcin expression peaked, but declined precipitously by day 32 in osteocytic cells. Analysis of RNA isolated directly from rat calvaria confirmed these in vitro results and demonstrated that ER message levels become more abundant postnatally as bone becomes more mineralized. We also examined the responsiveness of osteoblasts to 17beta-estradiol (17beta-E2) at two periods of maturation: the nodule-forming stage (day 14) and the late mineralization stage (day 30). Estradiol suppressed the levels of alkaline phosphatase, osteocalcin, osteonectin, and ER mRNAs on day 14, but up-regulated these messages on day 30. In contrast, 17beta-E2 treatment regulated the steady state levels of transforming growth factor-beta1 and type I procollagen mRNAs only in the late mineralization stage, whereas histone H4 message was unaffected by the steroid at either stage of differentiation. Thus, the observed developmental expression of ER mRNA correlates with progressive osteoblast differentiation and may be a contributing factor to differential regulation of bone cell gene expression by 17beta-E2.
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PMID:Estrogen receptor-alpha is developmentally regulated during osteoblast differentiation and contributes to selective responsiveness of gene expression. 952 93

Trans-3,4',5-trihydroxystilbene (resveratrol), a polyphenolic compound found in the human diet, was reported recently to serve as an estrogen agonist with cultured MCF-7 cells transfected with estrogen response element-luciferase reporter plasmids. As currently shown, treatment of cultured human endometrial adenocarcinoma (Ishikawa) cells with resveratrol (concentrations as high as 10 microM) did not significantly increase the levels of an estrogen-inducible marker enzyme, alkaline phosphatase. To the contrary, when alkaline phosphatase was induced by treatment with 1 nM of 17beta-estradiol (E(2)), resveratrol exhibited a dose-dependent decrease in activity (IC(50) = 2.3 microM). Furthermore, when Ishikawa cells were treated with resveratrol as a single agent, estrogen-inducible progesterone receptor (PR) was not enhanced, and PR expression induced by treatment with E(2) was inhibited by resveratrol in a dose-dependent fashion at both the mRNA and protein levels. In addition, resveratrol mediated suppression of a functional activity of PR as demonstrated by down-regulation of alpha(1)-integrin expression induced by E(2) plus progesterone. With transient transfection experiments conducted with Ishikawa cells, antiestrogenic effects were confirmed by dose-dependent inhibition of E(2)-induced estrogen response element-luciferase transcriptional activity. Because resveratrol antagonized estrogenic effects in Ishikawa cells, competitive binding analyses were performed to examine the potential of displacing [(3)H]E(2) from human estrogen receptor (ER). Resveratrol showed no discernable activity with ER-alpha, but with ER-beta, E(2) was displaced with an IC(50) of 125 microM. However, mRNA and protein expression of ER-alpha but not ER-beta were suppressed by resveratrol in Ishikawa cells, in the concentration range of 5-15 microM. In addition, in the presence or absence of E(2), resveratrol inhibited Ishikawa cell proliferation in a time-dependent manner with cells accumulating in the S phase of the cycle < or =48 h. This effect was reversible. Analysis of some critical cell cycle proteins revealed a specific increase in expression of cyclins A and E but a decrease in cyclin-dependent kinase 2. These data suggest resveratrol exerts an antiproliferative effect in Ishikawa cells, and the effect may be mediated by both estrogen-dependent and -independent mechanisms.
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PMID:Resveratrol exhibits cytostatic and antiestrogenic properties with human endometrial adenocarcinoma (Ishikawa) cells. 1150 64

The effect of adjuvant tamoxifen treatment on bone mineral density (BMD) and bone turnover markers was studied in postmenopausal breast cancer patients. The relationship of tamoxifen's effect with the genetic polymorphisms of estrogen receptor (ER)-alpha and ER-beta gene was also studied. Twenty-one postmenopausal breast cancer patients were given tamoxifen (20 mg/day) as the adjuvant treatment after the surgery. BMD of the lumbar supine (dual emission X-rays absorptiometry) and bone resorption (deoxypyridinoline, aminoterminal telopeptide of type I collagen, and carboxyterminal telopeptide of type I collagen) and formation (propeptide of type I procollagen, osteocalcin, and bone-specific alkaline phosphatase) markers were examined at baseline (before the surgery), 6 and 12 months after the start of tamoxifen treatment. Genetic polymorphisms analyzed were TA dinucleotide repeats polymorphism in the promoter region and PvuII and XbaI restriction fragment length polymorphism for the ER-alpha gene and the CA dinucleotide repeats polymorphism in the intron 5 for the ER-beta gene. Tamoxifen significantly increased BMD of the lumbar spine at both 6 (P<0.01) and 12 months (P<0.01) after the start of tamoxifen as compared with that at baseline. The mean percent increase in BMD was 3.3% at 6 months and 2.7% at 12 months. All bone resorption and formation markers significantly decreased at both 6 and 12 months. Among the four genetic polymorphisms studied, only ER-beta CA repeat polymorphism was found to be significantly associated with BMD at 12 months, i.e. BMD of the 21 CA repeats allele carriers was significantly higher than that of the non-carriers (P=0.025). These results suggest that tamoxifen increases BMD of the lumbar supine by reducing the bone turnover in postmenopausal breast cancer patients, and this bone restoring effect of tamoxifen is more marked in ER-beta 21 CA repeats allele carriers than non-carriers.
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PMID:Influence of adjuvant tamoxifen treatment on bone mineral density and bone turnover markers in postmenopausal breast cancer patients in Japan. 1221 92

Raloxifene reduces bone loss and prevents vertebral fractures in postmenopausal women. Its skeletal effects are mediated by estrogen receptors (ER) and their modulation of paracrine osteoblastic factors. Receptor activator of nuclear factor-kappa B ligand is essential for osteoclasts and enhances bone resorption, whereas osteoprotegerin (OPG) neutralizes receptor activator of nuclear factor-kappa B ligand. Here, we assessed the effects of raloxifene on OPG production in human osteoblasts (hOB). Raloxifene enhanced gene expression of ER-alpha and progesterone receptor. Moreover, raloxifene increased OPG mRNA levels and protein secretion by hOB in a dose- and time-dependent fashion by 2- to 4-fold with a maximum effect at 10(-7) M and after 72 h (P < 0.001). Treatment with the ER antagonist ICI 182,780 abrogated the effects of raloxifene on OPG production. Moreover, raloxifene enhanced osteoblastic differentiation markers, type 1 collagen secretion, and alkaline phosphatase activity by 3- and 2-fold, respectively (P < 0.001). In addition, raloxifene inhibited expression of the bone-resorbing cytokine IL-6 by 25-45% (P < 0.001). In conclusion, our data suggest that raloxifene stimulates OPG production and inhibits IL-6 production by hOB. Because OPG production increases with osteoblastic maturation, enhancement of OPG production by raloxifene could be related to its stimulatory effects on osteoblastic differentiation.
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PMID:Raloxifene concurrently stimulates osteoprotegerin and inhibits interleukin-6 production by human trabecular osteoblasts. 1297 Feb 88

Our study focused on investigating the mechanism of action of estrogen in regulating p53 levels within osteoblasts. In the studies reported here, we attempted to understand the role of estrogen receptors, ER-alpha and ER-beta, in the regulation of p53 and osteoblast differentiation. We stably expressed ER-alpha and ER-beta in ROS 17/2.8 cells and isolated several single cell clones. These clones were initially characterized for expression of the exogenous receptors, and representative clones from each type were chosen for further analyses. Cell proliferation, alkaline phosphatase activity, and the viability of these clones in culture were tested. The cells expressing exogenous ER-alpha exhibited more differentiated characteristics than cells expressing ER-beta. Morphologically, ER-beta-overexpressing cells were more rounded than the ER-alpha-overexpressing cells, which were more elongated and fibroblastic in appearance. The ER-beta-expressing cells had a higher survival and growth rate when compared with ER-alpha cells. The ER-alpha clones were not as viable as ER-beta clones, and some of the ER-alpha cell lines showed signs of senescence, with an increase in senescence-associated (SA) galactosidase activity. The basal levels of p53 functional activity were higher in cells expressing ER-alpha as was protein expression of the p53-regulated gene p21. The significance of these receptors to osteoblast differentiation and p53 regulation is discussed.
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PMID:Effect of overexpression of estrogen receptors in osteoblasts. 1640 12

Estrogen replacement therapy has been shown to reduce postmenopausal osteoporosis. In the present study, we examined the effects of the phytoestrogen coumestrol on neonatal and adult osteoblasts metabolism. Two different sources of osteoblast cells (neonatal mice calvaria and adult mice long bone) cultures were used in this study. The effects of coumestrol on the cellular activities were analyzed by the mitochondrial tetrazolium (MTT) assay, secretion of alkaline phosphatase (ALP), intracellular calcium content (Ca), and the gene expression of bone matrix protein, estrogen receptors (ER-alpha, ER-beta), and osteoprotegerin (OPG) and osteoprotegerin ligand (OPGL). The results showed that the proliferation of neonatal mice osteoblast cells was enhanced by treatment of coumestrol. In the presence of 10(-9)M coumestrol, the osteoblast proliferation attained 139.5% of the control and that the coumestrol can increase the intracellular calcium contents. Type I collagen gene expression was upregulated 167% at the 1st day's culture; ALP gene expression was upregulated 360% at the 7th day's culture; while the osteocalcin gene expression was upregulated 222% at the 14th day's culture. When adult mice osteoblasts were cultured in the presence of 10(-9)M coumestrol, the osteoblasts population increased significantly earlier and attained its maximal effect at the 21st day's culture with 207.4% of control group. The content of ER-beta and osteoprotegerin secretion by neonatal mice control cells gradually increased during osteoblasts differentiation, whereas the ER-alpha and OPGL content were decreased in this study. The cellular responses to the estradiol and counmestrol were quite different in the osteoblasts derived from different age.
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PMID:Effects of coumestrol on neonatal and adult mice osteoblasts activities. 1712 Feb 6

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