Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Estrogen/gestagen replacement therapy prevents excess bone loss in postmenopausal women. The mode of action by which these sex steroids exert their anabolic effects on bone has not been completely clarified yet. In this study, 17 beta-estradiol (E2), as well as progestins progesterone (P), dydrogesterone (DD), 20 alpha-dihydroxydydrogesterone (DHD), medroxyprogesterone acetate (MPA), and cyproterone acetate (CPA) were able to stimulate the mitogenesis and differentiation of normal adult human osteoblast-like (HOB) cells harvested from female trabecular bone explants. The different progestins exerted a more pronounced stimulatory effect on HOB proliferation than E2 did. The combination of E2 with P, DD, or DHD did not result in a statistically significant further increase of HOB proliferation, as compared with the progestins alone. In general, E2 showed a stronger differentiation-inducing effect than the progestins, as measured by histochemical staining of the HOB cells for alkaline phosphatase activity. Combining E2 and the progestins did not result in a further increase of the number of alkaline phosphatase positive cells, compared with E2 alone. The different progestins proved to be equally potent in stimulating HOB proliferation and differentiation. In conclusion, progestins as well as E2 exerted anabolic but differential effects on normal adult human osteoblasts in vitro.
...
PMID:A comparison of the action of progestins and estrogen on the growth and differentiation of normal adult human osteoblast-like cells in vitro. 806 52

Estrogens play an important but poorly understood role in the maintenance of skeletal mass. Whereas the mechanisms of estrogen action on bone may be complex, the finding that osteoblasts express estrogen receptors suggests that this class of hormones exerts direct effects on bone cells. To understand how estrogens regulate osteoblastic function, the physiologically active estrogen metabolite 17 beta-estradiol was tested to determine its effects on the well characterized murine osteoblastic cell-line MC3T3-E1. Experiments were designed to identify the effects of estrogen on osteoblastic activities associated with both the formation and the resorption of bone. Estrogen treatment coordinately increased DNA content and alkaline phosphatase activity in MC3T3-E1 cells as much as twofold. The stimulatory effect on alkaline phosphatase was stereospecific, dose-dependent between 0.1 and ten nanomolar, and dependent on the time in culture when the hormone was administered. The effect was also persistent, since alkaline phosphatase activity remained elevated for several days after withdrawal of the hormone. Estrogen increased the levels of messenger RNA for alkaline phosphatase and type-I collagen as well, and these effects also persisted after removal of the hormone. The levels of messenger RNA for osteopontin, another bone-matrix protein, were only slightly affected by estrogen. Finally, estrogen inhibited the activation of adenylate cyclase by three osteotropic agents known to stimulate the resorption of bone: parathyroid hormone, prostaglandin E2, and the beta-adrenergic agonist isoproterenol. Thus, estrogen promoted the expression of traits associated with the formation of bone while reducing cellular responsiveness to hormones that may trigger the resorption of bone.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Direct modulation of osteoblastic activity with estrogen. 817 20

Cortical and trabecular bone loss can lead to osteoporosis in chronic forms of anorexia nervosa (AN). As there is some debate about the reversibility of this condition, we performed a longitudinal follow-up study of 27 cases in which clinical, biological, X-ray and lumbar and femoral neck dual photon absorptiometry examinations were conducted every 6 months for up to 30 months. Three groups were distinguished: G1, untreated amenorrheic AN (N = 14, total follow-up 126 months); G2, effectively treated AN (N = 11, total follow-up 192 months), with two subgroups: fluoride (N = 5) and estrogen (N = 6); and G3, remitting AN with normalization of the gonadic function (N = 2, total follow-up 36 months). Results were adjusted for each patient to a 6-month variation. Semestrial variations in lumbar bone mineral density (BMD) were -2.1 +/- 1.3%, +2.8 +/- 1.5%, and -0.3 +/- 1.3% (mean +/- SEM), respectively for G1, G2 and G3; those for femoral neck BMD semestrial variations were -5.9 +/- 2.1%, -3.8 +/- 1.2% and -1.0 +/- 0.6%. Femoral neck and lumbar BMD variations for G1 were mainly correlated positively with bone-forming markers (serum osteocalcin, alkaline phosphatase) and negatively with initial lumbar BMD. Estrogen alone increased lumbar BMD by +1.4 +/- 2.3% every 6 months but did not stabilize femoral neck BMD (-3.5 +/- 1.4%). Fluoride increased lumbar BMD by 4.8 +/- 1.8%. Both lumbar and femoral neck BMD were stabilized in the remission group (-0.3 +/- 1.3% and -1.0 +/- 0.6%), despite half of the follow-up time with amenorrhea. In conclusion, untreated AN is associated with a marked trabecular and cortical bone loss (4-10% per year), which can lead to osteoporotic fractures. In prevention of bone loss, the efficacy of estrogen is difficult to investigate in AN, even with a well-controlled trial. Our study could provide argument that, when the observance of this preventive treatment is assessed, lumbar BMD can be stabilized in chronic forms of AN.
...
PMID:Follow-up of bone mineral density in 27 cases of anorexia nervosa. 898 Jan 62

Estrogen (E2) has been shown to prevent bone loss among postmenopausal women. The molecular mechanism(s) by which this is accomplished is not clear. The discovery of E2 receptor (ER) in osteoblasts and osteoclasts has implicated these cells as direct targets for E2. Previous studies on the effects of E2 on osteoblastic cells in vitro or in organ culture present conflicting results, possibly due to heterogeneity in cell types, stage of differentiation, ER levels, and/or species differences. The effects of E2 on gene expression during various stages of human osteoblast cell differentiation has not been investigated extensively. In this study we employed a newly developed human fetal osteoblastic cell line (hFOB/ER9) that contains high levels of ER to examine the effects of E2 on osteoblast proliferation and differentiation. The basal levels and E2 effects on the expression of various extracellular matrix proteins were also characterized throughout different stages of differentiation. These stages include a proliferative/relatively undifferentiated stage (day 6), a matrix maturation stage (days 10-14), and a mineralization/calcified nodule stage (day 18). During the stage of rapid cell proliferation, E2 treatment of hFOB/ER9 cells resulted in a dose-dependent decrease in [3H]thymidine incorporation to a maximum of 72% compared to the vehicle control value. Treatment of hFOB/ER9 cells with 10(-9) M E2 for 48 h resulted in an increase in alkaline phosphatase (AP) activity throughout cell differentiation. The magnitude of AP induction varied from approximately 200-500%. In contrast, E2 decreased osteocalcin protein levels to a minimum of 54% compared to the vehicle control value. The steady state messenger RNA levels for AP increased and osteocalcin decreased after E2 treatment, similar to the responses observed at the protein level. At all stages, there was little or no effect of E2 on type I collagen protein levels or osteonectin steady state messenger RNA levels. The E2 responses on hFOB/ER9 cell matrix protein expression and cell proliferation were mediated through the ER, as cultures cotreated with a 100-fold molar excess of a type II anti-E2 (ICI 182,780) abrogated these effects. These results support the hypothesis that E2 does have an effect on osteoblastic differentiation by decreasing hFOB/ER9 cell proliferation and differentially regulating extracellular matrix expression.
...
PMID:Estrogen regulation of human osteoblastic cell proliferation and differentiation. 920 36

The effects of estrogen suppression on osteonal remodeling in young women was investigated using transiliac biopsies (eight paired biopsies + four single pre; three single post biopsies) taken before and after treatment for endometriosis (6 months) with analogs of gonadotrophin releasing hormone (GnRH). Estrogen withdrawal increased the proportion of Haversian canals with an eroded surface (106%, p = 0.047), a double label (238%, p = 0.004), osteoid (71%, p = 0.002), and alkaline phosphatase (ALP) 116%, p = 0.043) but not those showing tartrate-resistant acid phosphatase (TRAP) activity (p = 0.25) or a single label (p = 0.30). Estrogen withdrawal increased TRAP activity in individual osteoclasts in canals with diameters greater than 50 microns (p = 0.0089) and also the number of osteons with diameters over 250 microns (p = 0.049). ALP activity in individual osteoblasts was increased but not significantly following treatment (p = 0.051). Wall thickness was significantly correlated with osteon diameter (p < 0.001). In a separate group of patients (four pairs + one post biopsy) on concurrent treatment with tibolone, there was no significant increase in the osteon density, cortical porosity, median canal diameter, or the markers of bone formation and resorption. Enzyme activities and numbers of active canals were also not increased with the concurrent treatment, but there was still an increase in the osteon diameter. As previously shown for cancellous bone, estrogen withdrawal increased cortical bone turnover. We have now shown that resorption depth within Haversian systems was also increased with treatment. The enhanced TRAP activity in individual osteoclasts supports the concept that osteoclasts are more active following estrogen withdrawal in agreement with theoretical arguments advanced previously. Understanding the cellular and biochemical mechanisms responsible for increased depth of osteoclast resorption when estrogen is withdrawn may allow the development of new strategies for preventing postmenopausal bone loss.
...
PMID:Cortical remodeling following suppression of endogenous estrogen with analogs of gonadotrophin releasing hormone. 925 53

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.
...
PMID:Estrogen receptor-alpha is developmentally regulated during osteoblast differentiation and contributes to selective responsiveness of gene expression. 952 93

Estrogen plays a major role in bone mineral homeostasis, maintaining a balance between bone formation and bone resorption not only in women but also in men. Extraglandular aromatization of circulating androgen is the major source of estrogen in post-menopausal women and men. In order to assess the capacity of bone cells as a local source of estrogen, osteoblast-like cells (OLCs) were obtained from human fetal bone in mid-trimester by the explant method and by mechanical disaggregation. The integrity of OLCs was confirmed by their ability to produce alkaline phosphatase and osteocalcin in response to vitamin D3 and also by their ability to deposit mineral. Aromatase activity was assessed by the formation of estrone from [1,2,6,7-3H]androstenedione and by the release of tritium from [1beta-3H]androstenedione into [3H]water. Formation of estrone was confirmed by thin layer chromatography (TLC) in OLCs stimulated with dexamethasone (DEX) + oncostatin M. The aromatase activity was 10 x higher in non-passaged OLCs than in passaged cells in the presence or absence of the stimulants (DEX + IL-1beta). The apparent Km and Vmax estimated by the release of [3H]water was 5.8+/-0.6 nM and 10.8+/-1.4 pmol/mg per 6 h in the presence of DEX + IL-1beta. The effects of several stimulants on aromatase activity in OLCs were examined: serum, IL-1beta, TNFalpha and type I cytokines stimulated activity in the presence of DEX, while PMA and PMA + dibutyryl cAMP did not. To confirm the expression of aromatase in OLCs, cells prepared from periosteal membranes were also examined: These cells in culture possessed aromatase activity corresponding to OLCs prepared from bone specimens. Moreover, the fresh periosteum expressed aromatase at higher levels than that of metaphyseal specimens. The aromatase gene employs several different promoters (I.1, 1.2, I.3, I.4, I.5, I.6, 2a, 1f and PII) and the usage of these promoters is known to be controlled in a tissue-specific fashion. Accordingly, promoter usage in OLCs and fetal long bone (tibia) tissue was examined using the 5' rapid amplification of cDNA ends (RACE) technique. The major promoter used was I.4, not only in stimulated and non-stimulated OLCs, but also in fetal tibia. Some minor transcripts were also found: 1f (brain-specific promoter), PII and I.6 in OLCs stimulated by DEX + IL-1beta, and PII and I.3 in OLCs stimulated by DEX + serum. Fetal tibia also expressed I.3 (15%) and I.6 (10%). Thus, regulation and promoter usage in OLCs was quite different from other tissues known as estrogen sources including adipose tissue, ovary and placenta. These results suggest that bone is an extraglandular source of local estrogen which plays an important role in bone mineral metabolism through autocrine and paracrine actions.
...
PMID:Aromatase expression of human osteoblast-like cells. 970 80

Estrogen replacement therapy (ERT) is known to prevent bone loss following the menopause, but the mechanism for this is unclear. Estrogen may suppress the secretion of certain bone-resorbing cytokines. The aim of this study was to assess the effect of ERT on the levels of cytokines measured in peripheral blood. We measured cytokines in 10 postmenopausal women (ages 56-59, 3-9 years since menopause) treated with ERT and 10 age-matched (54-59 years, 4-10 years since menopause) untreated women as controls. Samples of blood were taken and used for mononuclear cell cultures, whole blood (WB) cultures, and the separation of serum. The cultures were treated with lipopolysaccharide (LPS; 500 ng/ml) and hydrocortisone (10(-6) M). The conditioned medium from cultures and the serum were then assayed for interleukin-6 (IL-6), IL-1alpha IL-1beta, IL-1 IL-1ra, tumor necrosis factor alpha (TNF-alpha), and granulocyte macrophage colony stimulating factor (GM-CSF) by enzyme-linked immunosorbent assay. M-CSF and the soluble cytokine receptors soluble IL-6 receptor (sIL-6r) and soluble TNF receptor type 1 (sTNFr1) were also measured in serum and M-CSF in stimulated WB cultures. Measurements were corrected for mononuclear cell count. We also measured serum bone-specific alkaline phosphatase (ibAP) in all subjects. We found that LPS stimulated secretion of all cytokines both in WB and isolated cell cultures, and that this was attenuated by hydrocortisone. A significantly higher ratio of IL-1beta/IL-1ra (p = 0.02) in LPS stimulated WB cultures was seen in the untreated women. Levels of IL-1beta and IL-1alpha measured in WB cultures were lower and IL-1ra was higher in the ERT-treated group but these results were not significant. BAP was higher in the untreated group (p = 0.005) and correlated with IL-alpha/IL-1ra in the whole group (r = 0.49, p = 0.03). Results of other measurements showed no significant differences between groups. We conclude that estrogen may prevent bone loss following the menopause by altering the balance between IL-1beta and IL-1ra.
...
PMID:Effects of estrogen therapy of postmenopausal women on cytokines measured in peripheral blood. 978 46

Menopause and estrogen deficiency are associated with apparent intestinal resistance to vitamin D, which can be reversed by estrogen replacement. The in vivo influence of estrogens on duodenal vitamin D receptor (VDR) was studied in three groups of rats: ovariectomized (OVX), sham-operated, and ovariectomized rats treated daily with estrogen (40 microg/kg BW) for 2 weeks (OVX + E). Estrogen administration to OVX rats resulted in a 2-fold increase in VDR messenger RNA transcripts. 1,25(OH)2D3 was shown to bind specifically to one class of receptors in duodenal mucosal extracts, with a dissociation constant of 0.03 nM. Binding was significantly increased in duodenal extracts from OVX + E rats, compared with OVX rats (735 +/- 81 vs. 295 +/- 26 fmol/mg protein; P < 0.001); a comparable, 1.5- to 2-fold increase in VDR protein expression was observed in Western blot analyzes of the duodenal mucosa. Markers of VDR activity were increased in estrogen-exposed rats: calbindin-9k messenger RNA transcript content was 1.4- to 1.6-fold higher, and alkaline phosphatase activity was 1.4- to 3-fold higher in sham-operated and OVX + E, respectively, compared with OVX. 25(OH)D, 1,25(OH)2D, or PTH levels were not altered by estrogen treatment. Cumulatively, these findings suggest that estrogen up-regulates VDR expression in the duodenal mucosa and concurrently increases the responsiveness to endogenous 1,25(OH)2D. Modulation of intestinal VDR activity by estrogen, and subsequent influence on intestinal calcium absorption, could be one of the major protective mechanisms of estrogen against osteoporosis.
...
PMID:Estrogen increases 1,25-dihydroxyvitamin D receptors expression and bioresponse in the rat duodenal mucosa. 988 36

A total of 79 Japanese women who were within 5 years of menopause were randomly assigned 1alpha-hydroxyvitamin D3 [1alpha(OH)D3] 1.0 microg/day, conjugated estrogens 0.625 mg/day, a combination of both, or control (no treatment). Lumbar spine and proximal femur bone mineral density (BMD) and biochemical indices were monitored over 2 years. In the 1alpha(OH)D3-treated group, there was a nonsignificant decrease in lumbar spine BMD compared with controls, and no significant loss in the femoral neck compared with controls. In the estrogen-treated group, there was a nonsignificant increase in spine BMD (+2.17% in the first year and +1.71% in the second year), and no loss in femoral neck BMD. The combination of conjugated estrogens +1alpha(OH)D3 was more effective in increasing BMD in the spine (+3. 68% in the first year and +3.63% in the second year) and femur (+2. 56% in the first year and +4.44% in the second year) BMD. There was a significant difference in lumbar spine BMD in both the first and second years between the combination-treated group and the 1alpha(OH)D3-treated and control groups (P < 0.01). Serum osteocalcin (OC) significantly decreased in the combination-treated group (-23.8% in the first year) and the estrogen-treated group (-37. 6% and -41.2% at 6 and 18 months, respectively), and serum alkaline phosphatase (Alp) decreased significantly in the first year in the combination-treated (-31.5%), estrogen-treated (-27.3%), and 1alpha(OH)D3-treated (-7.9%) groups, whereas serum OC increased (+45. 4% in the first year) in women without treatment. The results of this study indicate that early postmenopausal bone loss in the femoral neck is prevented by conjugated estrogens, 1alpha(OH)D3, or both, whereas bone loss in the spine is not prevented by 1alpha(OH)D3. Estrogen proves effective in preventing early postmenopausal bone loss by markedly inhibiting bone turnover. Moreover, a synergistic bone-sparing effect can be expected when estrogen is administered concomitantly with 1alpha(OH)D3 rather than when used alone.
...
PMID:Early postmenopausal bone loss is prevented by estrogen and partially by 1alpha-OH-vitamin D3: therapeutic effects of estrogen and/or 1alpha-OH-vitamin D3. 1036 28


<< Previous 1 2 3 4 5 6 7 8 Next >>

---