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)

Although osteoblasts have been shown to respond to estrogens and express both isoforms of the estrogen receptor (ER alpha and ER beta), the role each isoform plays in osteoblast cell function and differentiation is unknown. The two ER isoforms are known to differentially regulate estrogen-inducible promoter-reporter gene constructs, but their individual effects on endogenous gene expression in osteoblasts have not been reported. We compared the effects of 17 beta-estradiol (E) and tamoxifen (TAM) on gene expression and matrix formation during the differentiation of human osteoblast cell lines stably expressing either ER alpha (hFOB/ER alpha 9) or ER beta (hFOB/ER beta 6). Expression of the appropriate ER isoform in these cells was confirmed by northern and western blotting and the responses to E in the hFOB/ER beta 6 line were abolished by an ER beta-specific inhibitor. The data demonstrate that (1) in both the hFOB/ER cell lines, certain responses to E or TAM (including alkaline phosphatase, IL-6 and IL-11 production) are more pronounced at the late mineralization stage of differentiation compared to earlier stages, (2) E exerted a greater regulation of bone nodule formation and matrix protein/cytokine production in the ER alpha cells than in ER beta cells, and (3) the regulated expression of select genes differed between the ER alpha and ER beta cells. TAM had no effect on nodule formation in either cell line and was a less potent regulator of gene/protein expression than E. Thus, both the ER isoform and the stage of differentiation appear to influence the response of osteoblast cells to E and TAM.
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PMID:Estrogen regulation of human osteoblast function is determined by the stage of differentiation and the estrogen receptor isoform. 1159 13

3,3'-Diindolylmethane (DIM), a major in vivo product of indole-3-carbinol (I3C), is a promising anticancer agent derived from vegetables of the Brassica genus including broccoli, Brussels sprouts and cabbage. We report here that DIM has a potent cytostatic effect in cultured human Ishikawa endometrial cancer cells. A combination of northern blot and quantitative PCR analyses revealed that DIM induced the level of TGF-alpha transcripts by approximately 4-fold within 24 h of indole treatment. DIM also induced a 4-fold increase in the activity of the estrogen response marker, alkaline phosphatase (AP). Co-treatment of cells with the estrogen receptor (ER) antagonist ICI, or with the inhibitor of PKA-mediated activation of the ER, H89, ablated the DIM induction of both TGF-alpha expression and AP activity. Furthermore, DIM increased the maximum stimulatory effect of estrogen on TGF-alpha expression. Co-treatment with the protein synthesis inhibitor, cycloheximide, abolished the inductive effects of DIM, indicating differences in the mechanistic requirements of DIM and estrogen. DIM treatment also stimulated levels of secreted TGF-alpha protein by >10-fold. The ectopic addition of TGF-alpha inhibited the growth of Ishikawa cells, whereas incubation with a TGF-alpha antibody partially reversed the growth inhibitory effects of DIM. Taken together, these results extend our previous findings of the ligand independent estrogen receptor agonist activity of DIM, and uncover an essential role for the stimulation in TGF-alpha expression and the TGF-alpha activated signal transduction pathway in the potent cytostatic effects of DIM in endometrial cancer cells.
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PMID:Cytostatic effects of 3,3'-diindolylmethane in human endometrial cancer cells result from an estrogen receptor-mediated increase in transforming growth factor-alpha expression. 1169 43

Osteoblasts have been shown to express both isoforms of estrogen receptor (ER alpha and ER beta). As a tool for the study of endogenous regulation of these genes the decoy strategy was employed. Human MG-63 osteoblast-like cells were transfected with a DNA decoy molecule containing a putative negative cis-element (DNA-102) located in the C distal promoter of ER alpha gene. Using real-time quantitative RT-PCR, we found that the DNA-102, but not scrambled DNA, produced a 36-fold increase in the level of total ER alpha mRNA and a 12-fold increase in the level of mRNA for the F isoform that is transcribed from the upstream F promoter, which is predominantly used in osteoblasts. This effect appears to be controlled by estrogen since 17-beta-estradiol downregulated the mRNA increase. Notably, the same decoy was able to induce a 6-fold increase in ER beta mRNA transcription, indicating the coregulation of the ER alpha and ER beta expression. An increase in OPN but not in BMP4 expression was also observed. In addition, in decoy-treated cells, the cell growth decreased together with an increase in alkaline phosphatase activity. These findings indicated that DNA-102 decoy was able to induce a more differentiated osteoblastic phenotype. The augmentation of ER alpha and ER beta expression by the decoy approach may offer a further possibility for patient response to estrogenic therapy in the treatment of diseases related to estrogen deficiency.
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PMID:Osteoblastic differentiation induced by transcription factor decoy against estrogen receptor alpha gene. 1192 31

Excessive exposure to synthetic and endogenous estrogens has been associated with the development of cancer in several tissues. 4-Hydroxyequilenin (4-OHEN), a major metabolite of equine estrogens present in estrogen replacement formulations, has been shown to induce cytotoxic/carcinogenic effects. In the present study, we have found that 4-OHEN caused DNA damage in breast cancer cells, and cells that contain estrogen receptor alpha (S30) are more sensitive to 4-OHEN-mediated DNA damage as compared to estrogen receptor negative cells (MDA-MB-231). For example, concentration-dependent increases in 8-oxo-deoxyguanosine (8-oxo-dG), as measured by LC-MS-MS or by the Fpg comet assay, were only detected in the S30 cells, and the amount of this lesion could be enhanced by agents, which catalyze redox cycling (NADH) or deplete GSH (diethyl maleate). The role of the estrogen receptor in modulating DNA damage was further established in incubations with the ER antagonist tamoxifen, where decreases in 8-oxo-deoxyguanosine were observed. Another equine estrogen metabolite, 4,17 beta-hydroxyequilenin (4,17 beta-OHEN), was found to have the same cytotoxicity and a similar ability to induce reactive oxygen species (ROS), and caused the same oxidative DNA damage in S30 cells as compared to 4-OHEN. However, 4,17 beta-OHEN induced twice as much single strand DNA breaks in S30 cells compared to 4-OHEN. Also 4,17 beta-OHEN was more estrogenic than 4-OHEN as demonstrated by a higher binding affinity for ER alpha and an enhanced induction in activity of estrogen-dependent alkaline phosphatase in Ishikawa cells. These data suggest that the mechanism of DNA damage induced by equine estrogen metabolites could involve oxidative stress and that the estrogen receptor may play a role in this process.
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PMID:Oxidative DNA damage induced by equine estrogen metabolites: role of estrogen receptor alpha. 1195 37

17 beta-Estradiol (E(2)) regulates growth plate cartilage cells via classical nuclear receptor mechanisms, as well as by direct effects on the chondrocyte membrane. These direct effects are stereospecific, causing a rapid increase in protein kinase C (PKC) specific activity, are only found in cells from female rats and are mimicked by E(2)-bovine serum albumin (BSA), which cannot penetrate the cell membrane. E(2) and E(2)-BSA stimulate alkaline phosphatase specific activity and proteoglycan sulfation in female rat costochondral cartilage cell cultures, but traditional nuclear receptors do not appear to be involved. This study examined the effect of the anti-estrogen tamoxifen on these markers of chondrocyte differentiation; the gender-specificity of tamoxifen's effect on PKC, if tamoxifen has an effect on vitamin D metabolite-stimulated PKC, which is mediated via specific membrane receptors (1,25-mVDR; 24,25-mVDR) and whether the effect of tamoxifen is mediated by nuclear estrogen receptors. Tamoxifen dose-dependently inhibited the effect of E(2)-BSA on PKC, alkaline phosphatase and proteoglycan sulfation in confluent cultures of female resting zone (RC) cells and growth zone (GC) (prehypertrophic/upper hypertrophic zones) cells, suggesting that its action is at the membrane and not cell maturation-dependent. Neither the estrogen receptor (ER) antagonist ICI 182780 nor the ER agonist diethylstilbesterol affected E(2) or E(2)-BSA-stimulated PKC in female chondrocytes. Tamoxifen also inhibited the increase in PKC activity due to 1 alpha,25-(OH)(2)D(3) or 24R,25-(OH)(2)D(3) in growth plate cells derived from either female or male rats. Inhibition of PKC by tamoxifen may be a general property of membrane receptors involved in rapid responses to hormones.
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PMID:Tamoxifen elicits its anti-estrogen effects in growth plate chondrocytes by inhibiting protein kinase C. 1198 87

Estrogen is known to act on osteoblasts according to their stage of differentiation and estrogen receptor (ER) isoform expression. The aim of this study was to determine when type I collagen (COL1) synthesis by cultured low-passage, human bone-derived osteoblasts (hOBs) is upregulated in response to estrogen. Cell lines from female donors aged 1 and 66 years were cultured for 11 days on collagen in growth medium supplemented with human serum, hydrocortisone, and beta-glycerophosphate. Young-donor hOBs grew more quickly than old-donor hOBs and did not mineralize. Old-donor hOBs formed mineralized nodules 5 days after reaching confluence. Changes in mRNA levels with time for ERs, type I collagen, and alkaline phosphatase reflected the faster differentiation of the old-donor cells. The ERbeta/ERalpha ratio fell threefold in young-donor hOBs but rose 300-fold in old-donor hOBs. Increased ERbeta/ERalpha ratios prevented ligand-dependent downregulation of ERalpha transcription, resulting in reduced proliferation in old-donor hOBs. Upregulation of COL1 mRNA expression in response to estrogen was confined to intermediate stages of differentiation, resulting in significant increases in COL1 mRNA by estradiol only in young-donor cells. Since the young and old-donor hOBs were cultured under identical conditions, our results indicate that the response of hOBs to estrogen is largely dependent on intracellular mechanisms that control the timing of cellular differentiation.
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PMID:Effects of estrogen on collagen synthesis by cultured human osteoblasts depend on the rate of cellular differentiation. 1211 94

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

The effects of melatonin on osteoclastic and osteoblastic cells were examined using a culture system of the goldfish scale. Tartrate-resistant acid phosphatase (TRACP) and alkaline phosphatase (ALP) were used as markers of osteoclastic and osteoblastic cells, respectively. In Earle's minimum essential medium containing melatonin (10(-9) to 10(-5) m), activities of both enzymes in scales were significantly suppressed at 6 hr after incubation (TRACP: 10(-8), 10(-6), 10(-5) m; ALP: 10(-7) to 10(-5) m), but at 18 hr only ALP activity was significantly lowered (10(-8), 10(-7) m). Estradiol-17beta (E(2)) enhanced both activities, which were significantly inhibited and brought down to the level of the controls when co-incubated with E(2) and melatonin (TRACP at 6 hr: 10(-9) to 10(-5) m; ALP at 6 hr: 10(-7) m; ALP at 18 hr: 10(-8) m). Moreover, using reverse-transcription polymerase chain reaction, the mRNA expression of the estrogen receptor (ER) and insulin-like growth factor (IGF)-1, which are related to osteoblastic growth and differentiation, was decreased in the melatonin-treated scales. These results suggest that melatonin acts directly on the scale osteoclastic and osteoblastic cells where it suppresses the ALP activity via down-regulation of ER and IGF-1 mRNAs expression. This is the first report on the function of melatonin in osteoclasts and on the suppressive effect of melatonin in osteoblasts among vertebrates.
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PMID:Melatonin suppresses osteoclastic and osteoblastic activities in the scales of goldfish. 1239 May 9

Diseases requiring frequent and lifelong injections of recombinant proteins would be more efficaciously treated by intramuscular delivery of genes encoding secretable proteins. However, the success of this approach largely depends on our capability to temporally regulate transcription of delivered genes. Therefore, we sought to generate a humanized transcription factor to regulate transgene expression in muscle. A novel 4-hydroxytamoxifen (4-OHT)-dependent transcriptional regulator (called HEA-3) was constructed by fusing in-frame the DNA binding domain of the human hepatocyte nuclear factor-1alpha (HNF1alpha), which is not expressed in muscle cells, a G(521)R mutant of the ligand binding domain of human estrogen receptor-alpha (ERalpha), and the activation domain derived from human nuclear factor-kappaB p65 subunit (NF-kappaB p65). We demonstrate that an artificial promoter containing multimeric HNF1alpha binding sites is silent in muscles and in cell lines that lack endogenous HNF1alpha. HEA-3 stimulated transcription from this target promoter in a stringent 4-OHT-dependent manner. The dynamic range of transgene regulation was high, because of the low basal activity and high inducibility of the system. Ex vivo, HEA-3 increased expression of the transfected reporter gene by more than 1000-fold in a ligand-dependent manner. In vivo, HEA-3 stimulated by more than 100-fold, the expression of secreted alkaline phosphatase after delivery as plasmid DNA into mouse muscles. Moreover, long-term modulation of the expression of intramuscularly delivered mouse erythropoietin was achieved in immunocompetent mice.
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PMID:Long-term and tight control of gene expression in mouse skeletal muscle by a new hybrid human transcription factor. 1240 64

We used modified immunocytochemical conditions to quantify a membrane form of estrogen receptor-alpha (mERalpha) in a rat pituitary tumor cell line, GH3/B6/F10. We studied the regulation of mERalpha vs. levels of intracellular ERalpha (iERalpha) using our 96-well plate immunoassay. The anti-ERalpha antibody C542 was used to label the ERalpha (via conjugated alkaline phosphatase) in fixed permeabilized (for iERalpha) vs. nonpermeabilized cells (for mERalpha). Expression of mERalpha was highest at low cell densities (<1000 cells/well) and decreased significantly at densities where cellular processes touched, whereas the more abundant iERalpha increased with increasing cell density over the same range. Serum starvation for 48 h caused increases in mERalpha, whereas iERalpha levels showed no significant changes. A large decline in mERalpha and iERalpha levels with cell passage number was observed. Minutes after nM 17beta-estradiol (E2) treatment, a portion of the cells rounded up and detached from the culture plate, whereas nM cholesterol had no such effect. Although E2 treatment did not change mERalpha levels, the antigen was reorganized from a fine particulate to aggregation into asymmetric large granules of staining. That common culturing conditions favor down-regulation of mERalpha may explain the relatively few reports of this protein in other experimental systems.
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PMID:Regulation of the membrane estrogen receptor-alpha: role of cell density, serum, cell passage number, and estradiol. 1246 56


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